library_call.cpp 240.9 KB
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/*
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 * Copyright (c) 1999, 2013, 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 "classfile/systemDictionary.hpp"
#include "classfile/vmSymbols.hpp"
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#include "compiler/compileBroker.hpp"
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#include "compiler/compileLog.hpp"
#include "oops/objArrayKlass.hpp"
#include "opto/addnode.hpp"
#include "opto/callGenerator.hpp"
#include "opto/cfgnode.hpp"
#include "opto/idealKit.hpp"
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#include "opto/mathexactnode.hpp"
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#include "opto/mulnode.hpp"
#include "opto/parse.hpp"
#include "opto/runtime.hpp"
#include "opto/subnode.hpp"
#include "prims/nativeLookup.hpp"
#include "runtime/sharedRuntime.hpp"
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#include "trace/traceMacros.hpp"
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class LibraryIntrinsic : public InlineCallGenerator {
  // Extend the set of intrinsics known to the runtime:
 public:
 private:
  bool             _is_virtual;
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  bool             _is_predicted;
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  bool             _does_virtual_dispatch;
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  vmIntrinsics::ID _intrinsic_id;

 public:
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  LibraryIntrinsic(ciMethod* m, bool is_virtual, bool is_predicted, bool does_virtual_dispatch, vmIntrinsics::ID id)
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    : InlineCallGenerator(m),
      _is_virtual(is_virtual),
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      _is_predicted(is_predicted),
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      _does_virtual_dispatch(does_virtual_dispatch),
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      _intrinsic_id(id)
  {
  }
  virtual bool is_intrinsic() const { return true; }
  virtual bool is_virtual()   const { return _is_virtual; }
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  virtual bool is_predicted()   const { return _is_predicted; }
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  virtual bool does_virtual_dispatch()   const { return _does_virtual_dispatch; }
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  virtual JVMState* generate(JVMState* jvms);
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  virtual Node* generate_predicate(JVMState* jvms);
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  vmIntrinsics::ID intrinsic_id() const { return _intrinsic_id; }
};


// Local helper class for LibraryIntrinsic:
class LibraryCallKit : public GraphKit {
 private:
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  LibraryIntrinsic* _intrinsic;     // the library intrinsic being called
  Node*             _result;        // the result node, if any
  int               _reexecute_sp;  // the stack pointer when bytecode needs to be reexecuted
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  const TypeOopPtr* sharpen_unsafe_type(Compile::AliasType* alias_type, const TypePtr *adr_type, bool is_native_ptr = false);

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 public:
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  LibraryCallKit(JVMState* jvms, LibraryIntrinsic* intrinsic)
    : GraphKit(jvms),
      _intrinsic(intrinsic),
      _result(NULL)
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  {
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    // Check if this is a root compile.  In that case we don't have a caller.
    if (!jvms->has_method()) {
      _reexecute_sp = sp();
    } else {
      // Find out how many arguments the interpreter needs when deoptimizing
      // and save the stack pointer value so it can used by uncommon_trap.
      // We find the argument count by looking at the declared signature.
      bool ignored_will_link;
      ciSignature* declared_signature = NULL;
      ciMethod* ignored_callee = caller()->get_method_at_bci(bci(), ignored_will_link, &declared_signature);
      const int nargs = declared_signature->arg_size_for_bc(caller()->java_code_at_bci(bci()));
      _reexecute_sp = sp() + nargs;  // "push" arguments back on stack
    }
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  }

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  virtual LibraryCallKit* is_LibraryCallKit() const { return (LibraryCallKit*)this; }

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  ciMethod*         caller()    const    { return jvms()->method(); }
  int               bci()       const    { return jvms()->bci(); }
  LibraryIntrinsic* intrinsic() const    { return _intrinsic; }
  vmIntrinsics::ID  intrinsic_id() const { return _intrinsic->intrinsic_id(); }
  ciMethod*         callee()    const    { return _intrinsic->method(); }

  bool try_to_inline();
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  Node* try_to_predicate();
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  void push_result() {
    // Push the result onto the stack.
    if (!stopped() && result() != NULL) {
      BasicType bt = result()->bottom_type()->basic_type();
      push_node(bt, result());
    }
  }

 private:
  void fatal_unexpected_iid(vmIntrinsics::ID iid) {
    fatal(err_msg_res("unexpected intrinsic %d: %s", iid, vmIntrinsics::name_at(iid)));
  }

  void  set_result(Node* n) { assert(_result == NULL, "only set once"); _result = n; }
  void  set_result(RegionNode* region, PhiNode* value);
  Node*     result() { return _result; }

  virtual int reexecute_sp() { return _reexecute_sp; }

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  // Helper functions to inline natives
  Node* generate_guard(Node* test, RegionNode* region, float true_prob);
  Node* generate_slow_guard(Node* test, RegionNode* region);
  Node* generate_fair_guard(Node* test, RegionNode* region);
  Node* generate_negative_guard(Node* index, RegionNode* region,
                                // resulting CastII of index:
                                Node* *pos_index = NULL);
  Node* generate_nonpositive_guard(Node* index, bool never_negative,
                                   // resulting CastII of index:
                                   Node* *pos_index = NULL);
  Node* generate_limit_guard(Node* offset, Node* subseq_length,
                             Node* array_length,
                             RegionNode* region);
  Node* generate_current_thread(Node* &tls_output);
  address basictype2arraycopy(BasicType t, Node *src_offset, Node *dest_offset,
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                              bool disjoint_bases, const char* &name, bool dest_uninitialized);
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  Node* load_mirror_from_klass(Node* klass);
  Node* load_klass_from_mirror_common(Node* mirror, bool never_see_null,
                                      RegionNode* region, int null_path,
                                      int offset);
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  Node* load_klass_from_mirror(Node* mirror, bool never_see_null,
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                               RegionNode* region, int null_path) {
    int offset = java_lang_Class::klass_offset_in_bytes();
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    return load_klass_from_mirror_common(mirror, never_see_null,
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                                         region, null_path,
                                         offset);
  }
  Node* load_array_klass_from_mirror(Node* mirror, bool never_see_null,
                                     RegionNode* region, int null_path) {
    int offset = java_lang_Class::array_klass_offset_in_bytes();
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    return load_klass_from_mirror_common(mirror, never_see_null,
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                                         region, null_path,
                                         offset);
  }
  Node* generate_access_flags_guard(Node* kls,
                                    int modifier_mask, int modifier_bits,
                                    RegionNode* region);
  Node* generate_interface_guard(Node* kls, RegionNode* region);
  Node* generate_array_guard(Node* kls, RegionNode* region) {
    return generate_array_guard_common(kls, region, false, false);
  }
  Node* generate_non_array_guard(Node* kls, RegionNode* region) {
    return generate_array_guard_common(kls, region, false, true);
  }
  Node* generate_objArray_guard(Node* kls, RegionNode* region) {
    return generate_array_guard_common(kls, region, true, false);
  }
  Node* generate_non_objArray_guard(Node* kls, RegionNode* region) {
    return generate_array_guard_common(kls, region, true, true);
  }
  Node* generate_array_guard_common(Node* kls, RegionNode* region,
                                    bool obj_array, bool not_array);
  Node* generate_virtual_guard(Node* obj_klass, RegionNode* slow_region);
  CallJavaNode* generate_method_call(vmIntrinsics::ID method_id,
                                     bool is_virtual = false, bool is_static = false);
  CallJavaNode* generate_method_call_static(vmIntrinsics::ID method_id) {
    return generate_method_call(method_id, false, true);
  }
  CallJavaNode* generate_method_call_virtual(vmIntrinsics::ID method_id) {
    return generate_method_call(method_id, true, false);
  }
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  Node * load_field_from_object(Node * fromObj, const char * fieldName, const char * fieldTypeString, bool is_exact, bool is_static);
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  Node* make_string_method_node(int opcode, Node* str1_start, Node* cnt1, Node* str2_start, Node* cnt2);
  Node* make_string_method_node(int opcode, Node* str1, Node* str2);
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  bool inline_string_compareTo();
  bool inline_string_indexOf();
  Node* string_indexOf(Node* string_object, ciTypeArray* target_array, jint offset, jint cache_i, jint md2_i);
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  bool inline_string_equals();
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  Node* round_double_node(Node* n);
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  bool runtime_math(const TypeFunc* call_type, address funcAddr, const char* funcName);
  bool inline_math_native(vmIntrinsics::ID id);
  bool inline_trig(vmIntrinsics::ID id);
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  bool inline_math(vmIntrinsics::ID id);
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  bool inline_math_mathExact(Node* math);
  bool inline_math_addExact();
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  bool inline_exp();
  bool inline_pow();
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  void finish_pow_exp(Node* result, Node* x, Node* y, const TypeFunc* call_type, address funcAddr, const char* funcName);
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  bool inline_min_max(vmIntrinsics::ID id);
  Node* generate_min_max(vmIntrinsics::ID id, Node* x, Node* y);
  // This returns Type::AnyPtr, RawPtr, or OopPtr.
  int classify_unsafe_addr(Node* &base, Node* &offset);
  Node* make_unsafe_address(Node* base, Node* offset);
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  // Helper for inline_unsafe_access.
  // Generates the guards that check whether the result of
  // Unsafe.getObject should be recorded in an SATB log buffer.
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  void insert_pre_barrier(Node* base_oop, Node* offset, Node* pre_val, bool need_mem_bar);
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  bool inline_unsafe_access(bool is_native_ptr, bool is_store, BasicType type, bool is_volatile);
  bool inline_unsafe_prefetch(bool is_native_ptr, bool is_store, bool is_static);
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  static bool klass_needs_init_guard(Node* kls);
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  bool inline_unsafe_allocate();
  bool inline_unsafe_copyMemory();
  bool inline_native_currentThread();
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#ifdef TRACE_HAVE_INTRINSICS
  bool inline_native_classID();
  bool inline_native_threadID();
#endif
  bool inline_native_time_funcs(address method, const char* funcName);
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  bool inline_native_isInterrupted();
  bool inline_native_Class_query(vmIntrinsics::ID id);
  bool inline_native_subtype_check();

  bool inline_native_newArray();
  bool inline_native_getLength();
  bool inline_array_copyOf(bool is_copyOfRange);
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  bool inline_array_equals();
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  void copy_to_clone(Node* obj, Node* alloc_obj, Node* obj_size, bool is_array, bool card_mark);
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  bool inline_native_clone(bool is_virtual);
  bool inline_native_Reflection_getCallerClass();
  // Helper function for inlining native object hash method
  bool inline_native_hashcode(bool is_virtual, bool is_static);
  bool inline_native_getClass();

  // Helper functions for inlining arraycopy
  bool inline_arraycopy();
  void generate_arraycopy(const TypePtr* adr_type,
                          BasicType basic_elem_type,
                          Node* src,  Node* src_offset,
                          Node* dest, Node* dest_offset,
                          Node* copy_length,
                          bool disjoint_bases = false,
                          bool length_never_negative = false,
                          RegionNode* slow_region = NULL);
  AllocateArrayNode* tightly_coupled_allocation(Node* ptr,
                                                RegionNode* slow_region);
  void generate_clear_array(const TypePtr* adr_type,
                            Node* dest,
                            BasicType basic_elem_type,
                            Node* slice_off,
                            Node* slice_len,
                            Node* slice_end);
  bool generate_block_arraycopy(const TypePtr* adr_type,
                                BasicType basic_elem_type,
                                AllocateNode* alloc,
                                Node* src,  Node* src_offset,
                                Node* dest, Node* dest_offset,
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                                Node* dest_size, bool dest_uninitialized);
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  void generate_slow_arraycopy(const TypePtr* adr_type,
                               Node* src,  Node* src_offset,
                               Node* dest, Node* dest_offset,
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                               Node* copy_length, bool dest_uninitialized);
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  Node* generate_checkcast_arraycopy(const TypePtr* adr_type,
                                     Node* dest_elem_klass,
                                     Node* src,  Node* src_offset,
                                     Node* dest, Node* dest_offset,
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                                     Node* copy_length, bool dest_uninitialized);
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  Node* generate_generic_arraycopy(const TypePtr* adr_type,
                                   Node* src,  Node* src_offset,
                                   Node* dest, Node* dest_offset,
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                                   Node* copy_length, bool dest_uninitialized);
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  void generate_unchecked_arraycopy(const TypePtr* adr_type,
                                    BasicType basic_elem_type,
                                    bool disjoint_bases,
                                    Node* src,  Node* src_offset,
                                    Node* dest, Node* dest_offset,
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                                    Node* copy_length, bool dest_uninitialized);
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  typedef enum { LS_xadd, LS_xchg, LS_cmpxchg } LoadStoreKind;
  bool inline_unsafe_load_store(BasicType type,  LoadStoreKind kind);
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  bool inline_unsafe_ordered_store(BasicType type);
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  bool inline_unsafe_fence(vmIntrinsics::ID id);
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  bool inline_fp_conversions(vmIntrinsics::ID id);
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  bool inline_number_methods(vmIntrinsics::ID id);
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  bool inline_reference_get();
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  bool inline_aescrypt_Block(vmIntrinsics::ID id);
  bool inline_cipherBlockChaining_AESCrypt(vmIntrinsics::ID id);
  Node* inline_cipherBlockChaining_AESCrypt_predicate(bool decrypting);
  Node* get_key_start_from_aescrypt_object(Node* aescrypt_object);
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  bool inline_encodeISOArray();
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  bool inline_updateCRC32();
  bool inline_updateBytesCRC32();
  bool inline_updateByteBufferCRC32();
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};


//---------------------------make_vm_intrinsic----------------------------
CallGenerator* Compile::make_vm_intrinsic(ciMethod* m, bool is_virtual) {
  vmIntrinsics::ID id = m->intrinsic_id();
  assert(id != vmIntrinsics::_none, "must be a VM intrinsic");

  if (DisableIntrinsic[0] != '\0'
      && strstr(DisableIntrinsic, vmIntrinsics::name_at(id)) != NULL) {
    // disabled by a user request on the command line:
    // example: -XX:DisableIntrinsic=_hashCode,_getClass
    return NULL;
  }

  if (!m->is_loaded()) {
    // do not attempt to inline unloaded methods
    return NULL;
  }

  // Only a few intrinsics implement a virtual dispatch.
  // They are expensive calls which are also frequently overridden.
  if (is_virtual) {
    switch (id) {
    case vmIntrinsics::_hashCode:
    case vmIntrinsics::_clone:
      // OK, Object.hashCode and Object.clone intrinsics come in both flavors
      break;
    default:
      return NULL;
    }
  }

  // -XX:-InlineNatives disables nearly all intrinsics:
  if (!InlineNatives) {
    switch (id) {
    case vmIntrinsics::_indexOf:
    case vmIntrinsics::_compareTo:
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    case vmIntrinsics::_equals:
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    case vmIntrinsics::_equalsC:
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    case vmIntrinsics::_getAndAddInt:
    case vmIntrinsics::_getAndAddLong:
    case vmIntrinsics::_getAndSetInt:
    case vmIntrinsics::_getAndSetLong:
    case vmIntrinsics::_getAndSetObject:
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    case vmIntrinsics::_loadFence:
    case vmIntrinsics::_storeFence:
    case vmIntrinsics::_fullFence:
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      break;  // InlineNatives does not control String.compareTo
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    case vmIntrinsics::_Reference_get:
      break;  // InlineNatives does not control Reference.get
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    default:
      return NULL;
    }
  }

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  bool is_predicted = false;
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  bool does_virtual_dispatch = false;
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  switch (id) {
  case vmIntrinsics::_compareTo:
    if (!SpecialStringCompareTo)  return NULL;
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    if (!Matcher::match_rule_supported(Op_StrComp))  return NULL;
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    break;
  case vmIntrinsics::_indexOf:
    if (!SpecialStringIndexOf)  return NULL;
    break;
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  case vmIntrinsics::_equals:
    if (!SpecialStringEquals)  return NULL;
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    if (!Matcher::match_rule_supported(Op_StrEquals))  return NULL;
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    break;
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  case vmIntrinsics::_equalsC:
    if (!SpecialArraysEquals)  return NULL;
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    if (!Matcher::match_rule_supported(Op_AryEq))  return NULL;
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    break;
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  case vmIntrinsics::_arraycopy:
    if (!InlineArrayCopy)  return NULL;
    break;
  case vmIntrinsics::_copyMemory:
    if (StubRoutines::unsafe_arraycopy() == NULL)  return NULL;
    if (!InlineArrayCopy)  return NULL;
    break;
  case vmIntrinsics::_hashCode:
    if (!InlineObjectHash)  return NULL;
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    does_virtual_dispatch = true;
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    break;
  case vmIntrinsics::_clone:
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    does_virtual_dispatch = true;
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  case vmIntrinsics::_copyOf:
  case vmIntrinsics::_copyOfRange:
    if (!InlineObjectCopy)  return NULL;
    // These also use the arraycopy intrinsic mechanism:
    if (!InlineArrayCopy)  return NULL;
    break;
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  case vmIntrinsics::_encodeISOArray:
    if (!SpecialEncodeISOArray)  return NULL;
    if (!Matcher::match_rule_supported(Op_EncodeISOArray))  return NULL;
    break;
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  case vmIntrinsics::_checkIndex:
    // We do not intrinsify this.  The optimizer does fine with it.
    return NULL;

  case vmIntrinsics::_getCallerClass:
    if (!UseNewReflection)  return NULL;
    if (!InlineReflectionGetCallerClass)  return NULL;
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    if (SystemDictionary::reflect_CallerSensitive_klass() == NULL)  return NULL;
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    break;

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  case vmIntrinsics::_bitCount_i:
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    if (!Matcher::match_rule_supported(Op_PopCountI)) return NULL;
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    break;

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  case vmIntrinsics::_bitCount_l:
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    if (!Matcher::match_rule_supported(Op_PopCountL)) return NULL;
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    break;

  case vmIntrinsics::_numberOfLeadingZeros_i:
    if (!Matcher::match_rule_supported(Op_CountLeadingZerosI)) return NULL;
    break;

  case vmIntrinsics::_numberOfLeadingZeros_l:
    if (!Matcher::match_rule_supported(Op_CountLeadingZerosL)) return NULL;
    break;

  case vmIntrinsics::_numberOfTrailingZeros_i:
    if (!Matcher::match_rule_supported(Op_CountTrailingZerosI)) return NULL;
    break;

  case vmIntrinsics::_numberOfTrailingZeros_l:
    if (!Matcher::match_rule_supported(Op_CountTrailingZerosL)) return NULL;
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    break;

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  case vmIntrinsics::_reverseBytes_c:
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    if (!Matcher::match_rule_supported(Op_ReverseBytesUS)) return NULL;
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    break;
  case vmIntrinsics::_reverseBytes_s:
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    if (!Matcher::match_rule_supported(Op_ReverseBytesS))  return NULL;
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    break;
  case vmIntrinsics::_reverseBytes_i:
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    if (!Matcher::match_rule_supported(Op_ReverseBytesI))  return NULL;
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    break;
  case vmIntrinsics::_reverseBytes_l:
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    if (!Matcher::match_rule_supported(Op_ReverseBytesL))  return NULL;
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    break;

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  case vmIntrinsics::_Reference_get:
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    // Use the intrinsic version of Reference.get() so that the value in
    // the referent field can be registered by the G1 pre-barrier code.
    // Also add memory barrier to prevent commoning reads from this field
    // across safepoint since GC can change it value.
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    break;

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  case vmIntrinsics::_compareAndSwapObject:
#ifdef _LP64
    if (!UseCompressedOops && !Matcher::match_rule_supported(Op_CompareAndSwapP)) return NULL;
#endif
    break;

  case vmIntrinsics::_compareAndSwapLong:
    if (!Matcher::match_rule_supported(Op_CompareAndSwapL)) return NULL;
    break;

  case vmIntrinsics::_getAndAddInt:
    if (!Matcher::match_rule_supported(Op_GetAndAddI)) return NULL;
    break;

  case vmIntrinsics::_getAndAddLong:
    if (!Matcher::match_rule_supported(Op_GetAndAddL)) return NULL;
    break;

  case vmIntrinsics::_getAndSetInt:
    if (!Matcher::match_rule_supported(Op_GetAndSetI)) return NULL;
    break;

  case vmIntrinsics::_getAndSetLong:
    if (!Matcher::match_rule_supported(Op_GetAndSetL)) return NULL;
    break;

  case vmIntrinsics::_getAndSetObject:
#ifdef _LP64
    if (!UseCompressedOops && !Matcher::match_rule_supported(Op_GetAndSetP)) return NULL;
    if (UseCompressedOops && !Matcher::match_rule_supported(Op_GetAndSetN)) return NULL;
    break;
#else
    if (!Matcher::match_rule_supported(Op_GetAndSetP)) return NULL;
    break;
#endif

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  case vmIntrinsics::_aescrypt_encryptBlock:
  case vmIntrinsics::_aescrypt_decryptBlock:
    if (!UseAESIntrinsics) return NULL;
    break;

  case vmIntrinsics::_cipherBlockChaining_encryptAESCrypt:
  case vmIntrinsics::_cipherBlockChaining_decryptAESCrypt:
    if (!UseAESIntrinsics) return NULL;
    // these two require the predicated logic
    is_predicted = true;
    break;

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  case vmIntrinsics::_updateCRC32:
  case vmIntrinsics::_updateBytesCRC32:
  case vmIntrinsics::_updateByteBufferCRC32:
    if (!UseCRC32Intrinsics) return NULL;
    break;

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  case vmIntrinsics::_addExact:
    if (!Matcher::match_rule_supported(Op_AddExactI)) {
      return NULL;
    }
    if (!UseMathExactIntrinsics) {
      return NULL;
    }
    break;

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 default:
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    assert(id <= vmIntrinsics::LAST_COMPILER_INLINE, "caller responsibility");
    assert(id != vmIntrinsics::_Object_init && id != vmIntrinsics::_invoke, "enum out of order?");
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    break;
  }

  // -XX:-InlineClassNatives disables natives from the Class class.
  // The flag applies to all reflective calls, notably Array.newArray
  // (visible to Java programmers as Array.newInstance).
  if (m->holder()->name() == ciSymbol::java_lang_Class() ||
      m->holder()->name() == ciSymbol::java_lang_reflect_Array()) {
    if (!InlineClassNatives)  return NULL;
  }

  // -XX:-InlineThreadNatives disables natives from the Thread class.
  if (m->holder()->name() == ciSymbol::java_lang_Thread()) {
    if (!InlineThreadNatives)  return NULL;
  }

  // -XX:-InlineMathNatives disables natives from the Math,Float and Double classes.
  if (m->holder()->name() == ciSymbol::java_lang_Math() ||
      m->holder()->name() == ciSymbol::java_lang_Float() ||
      m->holder()->name() == ciSymbol::java_lang_Double()) {
    if (!InlineMathNatives)  return NULL;
  }

  // -XX:-InlineUnsafeOps disables natives from the Unsafe class.
  if (m->holder()->name() == ciSymbol::sun_misc_Unsafe()) {
    if (!InlineUnsafeOps)  return NULL;
  }

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  return new LibraryIntrinsic(m, is_virtual, is_predicted, does_virtual_dispatch, (vmIntrinsics::ID) id);
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}

//----------------------register_library_intrinsics-----------------------
// Initialize this file's data structures, for each Compile instance.
void Compile::register_library_intrinsics() {
  // Nothing to do here.
}

JVMState* LibraryIntrinsic::generate(JVMState* jvms) {
  LibraryCallKit kit(jvms, this);
  Compile* C = kit.C;
  int nodes = C->unique();
#ifndef PRODUCT
564
  if ((C->print_intrinsics() || C->print_inlining()) && Verbose) {
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    char buf[1000];
    const char* str = vmIntrinsics::short_name_as_C_string(intrinsic_id(), buf, sizeof(buf));
    tty->print_cr("Intrinsic %s", str);
  }
#endif
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  ciMethod* callee = kit.callee();
  const int bci    = kit.bci();
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  // Try to inline the intrinsic.
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  if (kit.try_to_inline()) {
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    if (C->print_intrinsics() || C->print_inlining()) {
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      C->print_inlining(callee, jvms->depth() - 1, bci, is_virtual() ? "(intrinsic, virtual)" : "(intrinsic)");
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    }
    C->gather_intrinsic_statistics(intrinsic_id(), is_virtual(), Compile::_intrinsic_worked);
    if (C->log()) {
      C->log()->elem("intrinsic id='%s'%s nodes='%d'",
                     vmIntrinsics::name_at(intrinsic_id()),
                     (is_virtual() ? " virtual='1'" : ""),
                     C->unique() - nodes);
    }
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    // Push the result from the inlined method onto the stack.
    kit.push_result();
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    return kit.transfer_exceptions_into_jvms();
  }

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  // The intrinsic bailed out
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  if (C->print_intrinsics() || C->print_inlining()) {
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    if (jvms->has_method()) {
      // Not a root compile.
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      const char* msg = is_virtual() ? "failed to inline (intrinsic, virtual)" : "failed to inline (intrinsic)";
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      C->print_inlining(callee, jvms->depth() - 1, bci, msg);
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    } else {
      // Root compile
      tty->print("Did not generate intrinsic %s%s at bci:%d in",
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               vmIntrinsics::name_at(intrinsic_id()),
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               (is_virtual() ? " (virtual)" : ""), bci);
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    }
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  }
  C->gather_intrinsic_statistics(intrinsic_id(), is_virtual(), Compile::_intrinsic_failed);
  return NULL;
}

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Node* LibraryIntrinsic::generate_predicate(JVMState* jvms) {
  LibraryCallKit kit(jvms, this);
  Compile* C = kit.C;
  int nodes = C->unique();
#ifndef PRODUCT
  assert(is_predicted(), "sanity");
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  if ((C->print_intrinsics() || C->print_inlining()) && Verbose) {
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    char buf[1000];
    const char* str = vmIntrinsics::short_name_as_C_string(intrinsic_id(), buf, sizeof(buf));
    tty->print_cr("Predicate for intrinsic %s", str);
  }
#endif
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  ciMethod* callee = kit.callee();
  const int bci    = kit.bci();
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  Node* slow_ctl = kit.try_to_predicate();
  if (!kit.failing()) {
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    if (C->print_intrinsics() || C->print_inlining()) {
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      C->print_inlining(callee, jvms->depth() - 1, bci, is_virtual() ? "(intrinsic, virtual)" : "(intrinsic)");
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    }
    C->gather_intrinsic_statistics(intrinsic_id(), is_virtual(), Compile::_intrinsic_worked);
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    if (C->log()) {
      C->log()->elem("predicate_intrinsic id='%s'%s nodes='%d'",
                     vmIntrinsics::name_at(intrinsic_id()),
                     (is_virtual() ? " virtual='1'" : ""),
                     C->unique() - nodes);
    }
    return slow_ctl; // Could be NULL if the check folds.
  }

  // The intrinsic bailed out
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  if (C->print_intrinsics() || C->print_inlining()) {
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    if (jvms->has_method()) {
      // Not a root compile.
      const char* msg = "failed to generate predicate for intrinsic";
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      C->print_inlining(kit.callee(), jvms->depth() - 1, bci, msg);
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    } else {
      // Root compile
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      C->print_inlining_stream()->print("Did not generate predicate for intrinsic %s%s at bci:%d in",
                                        vmIntrinsics::name_at(intrinsic_id()),
                                        (is_virtual() ? " (virtual)" : ""), bci);
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    }
  }
  C->gather_intrinsic_statistics(intrinsic_id(), is_virtual(), Compile::_intrinsic_failed);
  return NULL;
}

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bool LibraryCallKit::try_to_inline() {
  // Handle symbolic names for otherwise undistinguished boolean switches:
  const bool is_store       = true;
  const bool is_native_ptr  = true;
  const bool is_static      = true;
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  const bool is_volatile    = true;
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  if (!jvms()->has_method()) {
    // Root JVMState has a null method.
    assert(map()->memory()->Opcode() == Op_Parm, "");
    // Insert the memory aliasing node
    set_all_memory(reset_memory());
  }
  assert(merged_memory(), "");

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  switch (intrinsic_id()) {
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  case vmIntrinsics::_hashCode:                 return inline_native_hashcode(intrinsic()->is_virtual(), !is_static);
  case vmIntrinsics::_identityHashCode:         return inline_native_hashcode(/*!virtual*/ false,         is_static);
  case vmIntrinsics::_getClass:                 return inline_native_getClass();
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  case vmIntrinsics::_dsin:
  case vmIntrinsics::_dcos:
  case vmIntrinsics::_dtan:
  case vmIntrinsics::_dabs:
  case vmIntrinsics::_datan2:
  case vmIntrinsics::_dsqrt:
  case vmIntrinsics::_dexp:
  case vmIntrinsics::_dlog:
  case vmIntrinsics::_dlog10:
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  case vmIntrinsics::_dpow:                     return inline_math_native(intrinsic_id());
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  case vmIntrinsics::_min:
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  case vmIntrinsics::_max:                      return inline_min_max(intrinsic_id());

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  case vmIntrinsics::_addExact:                 return inline_math_addExact();

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  case vmIntrinsics::_arraycopy:                return inline_arraycopy();

  case vmIntrinsics::_compareTo:                return inline_string_compareTo();
  case vmIntrinsics::_indexOf:                  return inline_string_indexOf();
  case vmIntrinsics::_equals:                   return inline_string_equals();

  case vmIntrinsics::_getObject:                return inline_unsafe_access(!is_native_ptr, !is_store, T_OBJECT,  !is_volatile);
  case vmIntrinsics::_getBoolean:               return inline_unsafe_access(!is_native_ptr, !is_store, T_BOOLEAN, !is_volatile);
  case vmIntrinsics::_getByte:                  return inline_unsafe_access(!is_native_ptr, !is_store, T_BYTE,    !is_volatile);
  case vmIntrinsics::_getShort:                 return inline_unsafe_access(!is_native_ptr, !is_store, T_SHORT,   !is_volatile);
  case vmIntrinsics::_getChar:                  return inline_unsafe_access(!is_native_ptr, !is_store, T_CHAR,    !is_volatile);
  case vmIntrinsics::_getInt:                   return inline_unsafe_access(!is_native_ptr, !is_store, T_INT,     !is_volatile);
  case vmIntrinsics::_getLong:                  return inline_unsafe_access(!is_native_ptr, !is_store, T_LONG,    !is_volatile);
  case vmIntrinsics::_getFloat:                 return inline_unsafe_access(!is_native_ptr, !is_store, T_FLOAT,   !is_volatile);
  case vmIntrinsics::_getDouble:                return inline_unsafe_access(!is_native_ptr, !is_store, T_DOUBLE,  !is_volatile);

  case vmIntrinsics::_putObject:                return inline_unsafe_access(!is_native_ptr,  is_store, T_OBJECT,  !is_volatile);
  case vmIntrinsics::_putBoolean:               return inline_unsafe_access(!is_native_ptr,  is_store, T_BOOLEAN, !is_volatile);
  case vmIntrinsics::_putByte:                  return inline_unsafe_access(!is_native_ptr,  is_store, T_BYTE,    !is_volatile);
  case vmIntrinsics::_putShort:                 return inline_unsafe_access(!is_native_ptr,  is_store, T_SHORT,   !is_volatile);
  case vmIntrinsics::_putChar:                  return inline_unsafe_access(!is_native_ptr,  is_store, T_CHAR,    !is_volatile);
  case vmIntrinsics::_putInt:                   return inline_unsafe_access(!is_native_ptr,  is_store, T_INT,     !is_volatile);
  case vmIntrinsics::_putLong:                  return inline_unsafe_access(!is_native_ptr,  is_store, T_LONG,    !is_volatile);
  case vmIntrinsics::_putFloat:                 return inline_unsafe_access(!is_native_ptr,  is_store, T_FLOAT,   !is_volatile);
  case vmIntrinsics::_putDouble:                return inline_unsafe_access(!is_native_ptr,  is_store, T_DOUBLE,  !is_volatile);

  case vmIntrinsics::_getByte_raw:              return inline_unsafe_access( is_native_ptr, !is_store, T_BYTE,    !is_volatile);
  case vmIntrinsics::_getShort_raw:             return inline_unsafe_access( is_native_ptr, !is_store, T_SHORT,   !is_volatile);
  case vmIntrinsics::_getChar_raw:              return inline_unsafe_access( is_native_ptr, !is_store, T_CHAR,    !is_volatile);
  case vmIntrinsics::_getInt_raw:               return inline_unsafe_access( is_native_ptr, !is_store, T_INT,     !is_volatile);
  case vmIntrinsics::_getLong_raw:              return inline_unsafe_access( is_native_ptr, !is_store, T_LONG,    !is_volatile);
  case vmIntrinsics::_getFloat_raw:             return inline_unsafe_access( is_native_ptr, !is_store, T_FLOAT,   !is_volatile);
  case vmIntrinsics::_getDouble_raw:            return inline_unsafe_access( is_native_ptr, !is_store, T_DOUBLE,  !is_volatile);
  case vmIntrinsics::_getAddress_raw:           return inline_unsafe_access( is_native_ptr, !is_store, T_ADDRESS, !is_volatile);

  case vmIntrinsics::_putByte_raw:              return inline_unsafe_access( is_native_ptr,  is_store, T_BYTE,    !is_volatile);
  case vmIntrinsics::_putShort_raw:             return inline_unsafe_access( is_native_ptr,  is_store, T_SHORT,   !is_volatile);
  case vmIntrinsics::_putChar_raw:              return inline_unsafe_access( is_native_ptr,  is_store, T_CHAR,    !is_volatile);
  case vmIntrinsics::_putInt_raw:               return inline_unsafe_access( is_native_ptr,  is_store, T_INT,     !is_volatile);
  case vmIntrinsics::_putLong_raw:              return inline_unsafe_access( is_native_ptr,  is_store, T_LONG,    !is_volatile);
  case vmIntrinsics::_putFloat_raw:             return inline_unsafe_access( is_native_ptr,  is_store, T_FLOAT,   !is_volatile);
  case vmIntrinsics::_putDouble_raw:            return inline_unsafe_access( is_native_ptr,  is_store, T_DOUBLE,  !is_volatile);
  case vmIntrinsics::_putAddress_raw:           return inline_unsafe_access( is_native_ptr,  is_store, T_ADDRESS, !is_volatile);

  case vmIntrinsics::_getObjectVolatile:        return inline_unsafe_access(!is_native_ptr, !is_store, T_OBJECT,   is_volatile);
  case vmIntrinsics::_getBooleanVolatile:       return inline_unsafe_access(!is_native_ptr, !is_store, T_BOOLEAN,  is_volatile);
  case vmIntrinsics::_getByteVolatile:          return inline_unsafe_access(!is_native_ptr, !is_store, T_BYTE,     is_volatile);
  case vmIntrinsics::_getShortVolatile:         return inline_unsafe_access(!is_native_ptr, !is_store, T_SHORT,    is_volatile);
  case vmIntrinsics::_getCharVolatile:          return inline_unsafe_access(!is_native_ptr, !is_store, T_CHAR,     is_volatile);
  case vmIntrinsics::_getIntVolatile:           return inline_unsafe_access(!is_native_ptr, !is_store, T_INT,      is_volatile);
  case vmIntrinsics::_getLongVolatile:          return inline_unsafe_access(!is_native_ptr, !is_store, T_LONG,     is_volatile);
  case vmIntrinsics::_getFloatVolatile:         return inline_unsafe_access(!is_native_ptr, !is_store, T_FLOAT,    is_volatile);
  case vmIntrinsics::_getDoubleVolatile:        return inline_unsafe_access(!is_native_ptr, !is_store, T_DOUBLE,   is_volatile);

  case vmIntrinsics::_putObjectVolatile:        return inline_unsafe_access(!is_native_ptr,  is_store, T_OBJECT,   is_volatile);
  case vmIntrinsics::_putBooleanVolatile:       return inline_unsafe_access(!is_native_ptr,  is_store, T_BOOLEAN,  is_volatile);
  case vmIntrinsics::_putByteVolatile:          return inline_unsafe_access(!is_native_ptr,  is_store, T_BYTE,     is_volatile);
  case vmIntrinsics::_putShortVolatile:         return inline_unsafe_access(!is_native_ptr,  is_store, T_SHORT,    is_volatile);
  case vmIntrinsics::_putCharVolatile:          return inline_unsafe_access(!is_native_ptr,  is_store, T_CHAR,     is_volatile);
  case vmIntrinsics::_putIntVolatile:           return inline_unsafe_access(!is_native_ptr,  is_store, T_INT,      is_volatile);
  case vmIntrinsics::_putLongVolatile:          return inline_unsafe_access(!is_native_ptr,  is_store, T_LONG,     is_volatile);
  case vmIntrinsics::_putFloatVolatile:         return inline_unsafe_access(!is_native_ptr,  is_store, T_FLOAT,    is_volatile);
  case vmIntrinsics::_putDoubleVolatile:        return inline_unsafe_access(!is_native_ptr,  is_store, T_DOUBLE,   is_volatile);

  case vmIntrinsics::_prefetchRead:             return inline_unsafe_prefetch(!is_native_ptr, !is_store, !is_static);
  case vmIntrinsics::_prefetchWrite:            return inline_unsafe_prefetch(!is_native_ptr,  is_store, !is_static);
  case vmIntrinsics::_prefetchReadStatic:       return inline_unsafe_prefetch(!is_native_ptr, !is_store,  is_static);
  case vmIntrinsics::_prefetchWriteStatic:      return inline_unsafe_prefetch(!is_native_ptr,  is_store,  is_static);

  case vmIntrinsics::_compareAndSwapObject:     return inline_unsafe_load_store(T_OBJECT, LS_cmpxchg);
  case vmIntrinsics::_compareAndSwapInt:        return inline_unsafe_load_store(T_INT,    LS_cmpxchg);
  case vmIntrinsics::_compareAndSwapLong:       return inline_unsafe_load_store(T_LONG,   LS_cmpxchg);

  case vmIntrinsics::_putOrderedObject:         return inline_unsafe_ordered_store(T_OBJECT);
  case vmIntrinsics::_putOrderedInt:            return inline_unsafe_ordered_store(T_INT);
  case vmIntrinsics::_putOrderedLong:           return inline_unsafe_ordered_store(T_LONG);

  case vmIntrinsics::_getAndAddInt:             return inline_unsafe_load_store(T_INT,    LS_xadd);
  case vmIntrinsics::_getAndAddLong:            return inline_unsafe_load_store(T_LONG,   LS_xadd);
  case vmIntrinsics::_getAndSetInt:             return inline_unsafe_load_store(T_INT,    LS_xchg);
  case vmIntrinsics::_getAndSetLong:            return inline_unsafe_load_store(T_LONG,   LS_xchg);
  case vmIntrinsics::_getAndSetObject:          return inline_unsafe_load_store(T_OBJECT, LS_xchg);

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  case vmIntrinsics::_loadFence:
  case vmIntrinsics::_storeFence:
  case vmIntrinsics::_fullFence:                return inline_unsafe_fence(intrinsic_id());

778 779
  case vmIntrinsics::_currentThread:            return inline_native_currentThread();
  case vmIntrinsics::_isInterrupted:            return inline_native_isInterrupted();
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781
#ifdef TRACE_HAVE_INTRINSICS
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  case vmIntrinsics::_classID:                  return inline_native_classID();
  case vmIntrinsics::_threadID:                 return inline_native_threadID();
  case vmIntrinsics::_counterTime:              return inline_native_time_funcs(CAST_FROM_FN_PTR(address, TRACE_TIME_METHOD), "counterTime");
785
#endif
786 787 788 789 790 791 792 793 794 795 796 797
  case vmIntrinsics::_currentTimeMillis:        return inline_native_time_funcs(CAST_FROM_FN_PTR(address, os::javaTimeMillis), "currentTimeMillis");
  case vmIntrinsics::_nanoTime:                 return inline_native_time_funcs(CAST_FROM_FN_PTR(address, os::javaTimeNanos), "nanoTime");
  case vmIntrinsics::_allocateInstance:         return inline_unsafe_allocate();
  case vmIntrinsics::_copyMemory:               return inline_unsafe_copyMemory();
  case vmIntrinsics::_newArray:                 return inline_native_newArray();
  case vmIntrinsics::_getLength:                return inline_native_getLength();
  case vmIntrinsics::_copyOf:                   return inline_array_copyOf(false);
  case vmIntrinsics::_copyOfRange:              return inline_array_copyOf(true);
  case vmIntrinsics::_equalsC:                  return inline_array_equals();
  case vmIntrinsics::_clone:                    return inline_native_clone(intrinsic()->is_virtual());

  case vmIntrinsics::_isAssignableFrom:         return inline_native_subtype_check();
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  case vmIntrinsics::_isInstance:
  case vmIntrinsics::_getModifiers:
  case vmIntrinsics::_isInterface:
  case vmIntrinsics::_isArray:
  case vmIntrinsics::_isPrimitive:
  case vmIntrinsics::_getSuperclass:
  case vmIntrinsics::_getComponentType:
806
  case vmIntrinsics::_getClassAccessFlags:      return inline_native_Class_query(intrinsic_id());
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  case vmIntrinsics::_floatToRawIntBits:
  case vmIntrinsics::_floatToIntBits:
  case vmIntrinsics::_intBitsToFloat:
  case vmIntrinsics::_doubleToRawLongBits:
  case vmIntrinsics::_doubleToLongBits:
813
  case vmIntrinsics::_longBitsToDouble:         return inline_fp_conversions(intrinsic_id());
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  case vmIntrinsics::_numberOfLeadingZeros_i:
  case vmIntrinsics::_numberOfLeadingZeros_l:
  case vmIntrinsics::_numberOfTrailingZeros_i:
  case vmIntrinsics::_numberOfTrailingZeros_l:
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  case vmIntrinsics::_bitCount_i:
  case vmIntrinsics::_bitCount_l:
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  case vmIntrinsics::_reverseBytes_i:
  case vmIntrinsics::_reverseBytes_l:
823
  case vmIntrinsics::_reverseBytes_s:
824
  case vmIntrinsics::_reverseBytes_c:           return inline_number_methods(intrinsic_id());
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826
  case vmIntrinsics::_getCallerClass:           return inline_native_Reflection_getCallerClass();
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  case vmIntrinsics::_Reference_get:            return inline_reference_get();
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830
  case vmIntrinsics::_aescrypt_encryptBlock:
831
  case vmIntrinsics::_aescrypt_decryptBlock:    return inline_aescrypt_Block(intrinsic_id());
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  case vmIntrinsics::_cipherBlockChaining_encryptAESCrypt:
  case vmIntrinsics::_cipherBlockChaining_decryptAESCrypt:
    return inline_cipherBlockChaining_AESCrypt(intrinsic_id());

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  case vmIntrinsics::_encodeISOArray:
    return inline_encodeISOArray();

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  case vmIntrinsics::_updateCRC32:
    return inline_updateCRC32();
  case vmIntrinsics::_updateBytesCRC32:
    return inline_updateBytesCRC32();
  case vmIntrinsics::_updateByteBufferCRC32:
    return inline_updateByteBufferCRC32();

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  default:
    // If you get here, it may be that someone has added a new intrinsic
    // to the list in vmSymbols.hpp without implementing it here.
#ifndef PRODUCT
    if ((PrintMiscellaneous && (Verbose || WizardMode)) || PrintOpto) {
      tty->print_cr("*** Warning: Unimplemented intrinsic %s(%d)",
                    vmIntrinsics::name_at(intrinsic_id()), intrinsic_id());
    }
#endif
    return false;
  }
}

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Node* LibraryCallKit::try_to_predicate() {
  if (!jvms()->has_method()) {
    // Root JVMState has a null method.
    assert(map()->memory()->Opcode() == Op_Parm, "");
    // Insert the memory aliasing node
    set_all_memory(reset_memory());
  }
  assert(merged_memory(), "");

  switch (intrinsic_id()) {
  case vmIntrinsics::_cipherBlockChaining_encryptAESCrypt:
    return inline_cipherBlockChaining_AESCrypt_predicate(false);
  case vmIntrinsics::_cipherBlockChaining_decryptAESCrypt:
    return inline_cipherBlockChaining_AESCrypt_predicate(true);

  default:
    // If you get here, it may be that someone has added a new intrinsic
    // to the list in vmSymbols.hpp without implementing it here.
#ifndef PRODUCT
    if ((PrintMiscellaneous && (Verbose || WizardMode)) || PrintOpto) {
      tty->print_cr("*** Warning: Unimplemented predicate for intrinsic %s(%d)",
                    vmIntrinsics::name_at(intrinsic_id()), intrinsic_id());
    }
#endif
    Node* slow_ctl = control();
    set_control(top()); // No fast path instrinsic
    return slow_ctl;
  }
}

890
//------------------------------set_result-------------------------------
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// Helper function for finishing intrinsics.
892
void LibraryCallKit::set_result(RegionNode* region, PhiNode* value) {
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  record_for_igvn(region);
  set_control(_gvn.transform(region));
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  set_result( _gvn.transform(value));
  assert(value->type()->basic_type() == result()->bottom_type()->basic_type(), "sanity");
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}

//------------------------------generate_guard---------------------------
// Helper function for generating guarded fast-slow graph structures.
// The given 'test', if true, guards a slow path.  If the test fails
// then a fast path can be taken.  (We generally hope it fails.)
// In all cases, GraphKit::control() is updated to the fast path.
// The returned value represents the control for the slow path.
// The return value is never 'top'; it is either a valid control
// or NULL if it is obvious that the slow path can never be taken.
// Also, if region and the slow control are not NULL, the slow edge
// is appended to the region.
Node* LibraryCallKit::generate_guard(Node* test, RegionNode* region, float true_prob) {
  if (stopped()) {
    // Already short circuited.
    return NULL;
  }

  // Build an if node and its projections.
  // If test is true we take the slow path, which we assume is uncommon.
  if (_gvn.type(test) == TypeInt::ZERO) {
    // The slow branch is never taken.  No need to build this guard.
    return NULL;
  }

  IfNode* iff = create_and_map_if(control(), test, true_prob, COUNT_UNKNOWN);

924
  Node* if_slow = _gvn.transform(new (C) IfTrueNode(iff));
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  if (if_slow == top()) {
    // The slow branch is never taken.  No need to build this guard.
    return NULL;
  }

  if (region != NULL)
    region->add_req(if_slow);

933
  Node* if_fast = _gvn.transform(new (C) IfFalseNode(iff));
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  set_control(if_fast);

  return if_slow;
}

inline Node* LibraryCallKit::generate_slow_guard(Node* test, RegionNode* region) {
  return generate_guard(test, region, PROB_UNLIKELY_MAG(3));
}
inline Node* LibraryCallKit::generate_fair_guard(Node* test, RegionNode* region) {
  return generate_guard(test, region, PROB_FAIR);
}

inline Node* LibraryCallKit::generate_negative_guard(Node* index, RegionNode* region,
                                                     Node* *pos_index) {
  if (stopped())
    return NULL;                // already stopped
  if (_gvn.type(index)->higher_equal(TypeInt::POS)) // [0,maxint]
    return NULL;                // index is already adequately typed
952 953
  Node* cmp_lt = _gvn.transform(new (C) CmpINode(index, intcon(0)));
  Node* bol_lt = _gvn.transform(new (C) BoolNode(cmp_lt, BoolTest::lt));
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  Node* is_neg = generate_guard(bol_lt, region, PROB_MIN);
  if (is_neg != NULL && pos_index != NULL) {
    // Emulate effect of Parse::adjust_map_after_if.
957
    Node* ccast = new (C) CastIINode(index, TypeInt::POS);
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    ccast->set_req(0, control());
    (*pos_index) = _gvn.transform(ccast);
  }
  return is_neg;
}

inline Node* LibraryCallKit::generate_nonpositive_guard(Node* index, bool never_negative,
                                                        Node* *pos_index) {
  if (stopped())
    return NULL;                // already stopped
  if (_gvn.type(index)->higher_equal(TypeInt::POS1)) // [1,maxint]
    return NULL;                // index is already adequately typed
970
  Node* cmp_le = _gvn.transform(new (C) CmpINode(index, intcon(0)));
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  BoolTest::mask le_or_eq = (never_negative ? BoolTest::eq : BoolTest::le);
972
  Node* bol_le = _gvn.transform(new (C) BoolNode(cmp_le, le_or_eq));
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  Node* is_notp = generate_guard(bol_le, NULL, PROB_MIN);
  if (is_notp != NULL && pos_index != NULL) {
    // Emulate effect of Parse::adjust_map_after_if.
976
    Node* ccast = new (C) CastIINode(index, TypeInt::POS1);
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    ccast->set_req(0, control());
    (*pos_index) = _gvn.transform(ccast);
  }
  return is_notp;
}

// Make sure that 'position' is a valid limit index, in [0..length].
// There are two equivalent plans for checking this:
//   A. (offset + copyLength)  unsigned<=  arrayLength
//   B. offset  <=  (arrayLength - copyLength)
// We require that all of the values above, except for the sum and
// difference, are already known to be non-negative.
// Plan A is robust in the face of overflow, if offset and copyLength
// are both hugely positive.
//
// Plan B is less direct and intuitive, but it does not overflow at
// all, since the difference of two non-negatives is always
// representable.  Whenever Java methods must perform the equivalent
// check they generally use Plan B instead of Plan A.
// For the moment we use Plan A.
inline Node* LibraryCallKit::generate_limit_guard(Node* offset,
                                                  Node* subseq_length,
                                                  Node* array_length,
                                                  RegionNode* region) {
  if (stopped())
    return NULL;                // already stopped
  bool zero_offset = _gvn.type(offset) == TypeInt::ZERO;
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  if (zero_offset && subseq_length->eqv_uncast(array_length))
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    return NULL;                // common case of whole-array copy
  Node* last = subseq_length;
  if (!zero_offset)             // last += offset
1008 1009 1010
    last = _gvn.transform(new (C) AddINode(last, offset));
  Node* cmp_lt = _gvn.transform(new (C) CmpUNode(array_length, last));
  Node* bol_lt = _gvn.transform(new (C) BoolNode(cmp_lt, BoolTest::lt));
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  Node* is_over = generate_guard(bol_lt, region, PROB_MIN);
  return is_over;
}


//--------------------------generate_current_thread--------------------
Node* LibraryCallKit::generate_current_thread(Node* &tls_output) {
  ciKlass*    thread_klass = env()->Thread_klass();
  const Type* thread_type  = TypeOopPtr::make_from_klass(thread_klass)->cast_to_ptr_type(TypePtr::NotNull);
1020
  Node* thread = _gvn.transform(new (C) ThreadLocalNode());
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  Node* p = basic_plus_adr(top()/*!oop*/, thread, in_bytes(JavaThread::threadObj_offset()));
  Node* threadObj = make_load(NULL, p, thread_type, T_OBJECT);
  tls_output = thread;
  return threadObj;
}


1028
//------------------------------make_string_method_node------------------------
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// Helper method for String intrinsic functions. This version is called
// with str1 and str2 pointing to String object nodes.
//
Node* LibraryCallKit::make_string_method_node(int opcode, Node* str1, Node* str2) {
1033 1034
  Node* no_ctrl = NULL;

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  // Get start addr of string
  Node* str1_value   = load_String_value(no_ctrl, str1);
  Node* str1_offset  = load_String_offset(no_ctrl, str1);
1038 1039
  Node* str1_start   = array_element_address(str1_value, str1_offset, T_CHAR);

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  // Get length of string 1
  Node* str1_len  = load_String_length(no_ctrl, str1);

  Node* str2_value   = load_String_value(no_ctrl, str2);
  Node* str2_offset  = load_String_offset(no_ctrl, str2);
1045 1046
  Node* str2_start   = array_element_address(str2_value, str2_offset, T_CHAR);

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  Node* str2_len = NULL;
  Node* result = NULL;

  switch (opcode) {
  case Op_StrIndexOf:
    // Get length of string 2
    str2_len = load_String_length(no_ctrl, str2);

1055
    result = new (C) StrIndexOfNode(control(), memory(TypeAryPtr::CHARS),
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                                 str1_start, str1_len, str2_start, str2_len);
    break;
  case Op_StrComp:
    // Get length of string 2
    str2_len = load_String_length(no_ctrl, str2);

1062
    result = new (C) StrCompNode(control(), memory(TypeAryPtr::CHARS),
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                                 str1_start, str1_len, str2_start, str2_len);
    break;
  case Op_StrEquals:
1066
    result = new (C) StrEqualsNode(control(), memory(TypeAryPtr::CHARS),
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                               str1_start, str2_start, str1_len);
    break;
  default:
    ShouldNotReachHere();
    return NULL;
  }

  // All these intrinsics have checks.
  C->set_has_split_ifs(true); // Has chance for split-if optimization

  return _gvn.transform(result);
}

// Helper method for String intrinsic functions. This version is called
// with str1 and str2 pointing to char[] nodes, with cnt1 and cnt2 pointing
// to Int nodes containing the lenghts of str1 and str2.
//
Node* LibraryCallKit::make_string_method_node(int opcode, Node* str1_start, Node* cnt1, Node* str2_start, Node* cnt2) {
1085 1086 1087
  Node* result = NULL;
  switch (opcode) {
  case Op_StrIndexOf:
1088
    result = new (C) StrIndexOfNode(control(), memory(TypeAryPtr::CHARS),
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                                 str1_start, cnt1, str2_start, cnt2);
1090 1091
    break;
  case Op_StrComp:
1092
    result = new (C) StrCompNode(control(), memory(TypeAryPtr::CHARS),
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                                 str1_start, cnt1, str2_start, cnt2);
1094 1095
    break;
  case Op_StrEquals:
1096
    result = new (C) StrEqualsNode(control(), memory(TypeAryPtr::CHARS),
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                                 str1_start, str2_start, cnt1);
1098 1099 1100 1101 1102 1103 1104 1105 1106 1107 1108 1109
    break;
  default:
    ShouldNotReachHere();
    return NULL;
  }

  // All these intrinsics have checks.
  C->set_has_split_ifs(true); // Has chance for split-if optimization

  return _gvn.transform(result);
}

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//------------------------------inline_string_compareTo------------------------
1111
// public int java.lang.String.compareTo(String anotherString);
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bool LibraryCallKit::inline_string_compareTo() {
1113 1114
  Node* receiver = null_check(argument(0));
  Node* arg      = null_check(argument(1));
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  if (stopped()) {
    return true;
  }
1118
  set_result(make_string_method_node(Op_StrComp, receiver, arg));
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  return true;
}

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//------------------------------inline_string_equals------------------------
bool LibraryCallKit::inline_string_equals() {
1124 1125 1126 1127
  Node* receiver = null_check_receiver();
  // NOTE: Do not null check argument for String.equals() because spec
  // allows to specify NULL as argument.
  Node* argument = this->argument(1);
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  if (stopped()) {
    return true;
  }

1132
  // paths (plus control) merge
1133 1134
  RegionNode* region = new (C) RegionNode(5);
  Node* phi = new (C) PhiNode(region, TypeInt::BOOL);
1135 1136

  // does source == target string?
1137 1138
  Node* cmp = _gvn.transform(new (C) CmpPNode(receiver, argument));
  Node* bol = _gvn.transform(new (C) BoolNode(cmp, BoolTest::eq));
1139 1140 1141 1142 1143 1144 1145 1146

  Node* if_eq = generate_slow_guard(bol, NULL);
  if (if_eq != NULL) {
    // receiver == argument
    phi->init_req(2, intcon(1));
    region->init_req(2, if_eq);
  }

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  // get String klass for instanceOf
  ciInstanceKlass* klass = env()->String_klass();

1150 1151
  if (!stopped()) {
    Node* inst = gen_instanceof(argument, makecon(TypeKlassPtr::make(klass)));
1152 1153
    Node* cmp  = _gvn.transform(new (C) CmpINode(inst, intcon(1)));
    Node* bol  = _gvn.transform(new (C) BoolNode(cmp, BoolTest::ne));
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1155 1156
    Node* inst_false = generate_guard(bol, NULL, PROB_MIN);
    //instanceOf == true, fallthrough
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1158 1159 1160 1161 1162
    if (inst_false != NULL) {
      phi->init_req(3, intcon(0));
      region->init_req(3, inst_false);
    }
  }
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1164
  if (!stopped()) {
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    const TypeOopPtr* string_type = TypeOopPtr::make_from_klass(klass);

1167
    // Properly cast the argument to String
1168
    argument = _gvn.transform(new (C) CheckCastPPNode(control(), argument, string_type));
1169 1170
    // This path is taken only when argument's type is String:NotNull.
    argument = cast_not_null(argument, false);
1171

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    Node* no_ctrl = NULL;

    // Get start addr of receiver
    Node* receiver_val    = load_String_value(no_ctrl, receiver);
    Node* receiver_offset = load_String_offset(no_ctrl, receiver);
    Node* receiver_start = array_element_address(receiver_val, receiver_offset, T_CHAR);

    // Get length of receiver
    Node* receiver_cnt  = load_String_length(no_ctrl, receiver);
1181

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    // Get start addr of argument
1183
    Node* argument_val    = load_String_value(no_ctrl, argument);
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    Node* argument_offset = load_String_offset(no_ctrl, argument);
    Node* argument_start = array_element_address(argument_val, argument_offset, T_CHAR);

    // Get length of argument
    Node* argument_cnt  = load_String_length(no_ctrl, argument);
1189 1190

    // Check for receiver count != argument count
1191 1192
    Node* cmp = _gvn.transform(new(C) CmpINode(receiver_cnt, argument_cnt));
    Node* bol = _gvn.transform(new(C) BoolNode(cmp, BoolTest::ne));
1193 1194 1195 1196 1197
    Node* if_ne = generate_slow_guard(bol, NULL);
    if (if_ne != NULL) {
      phi->init_req(4, intcon(0));
      region->init_req(4, if_ne);
    }
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    // Check for count == 0 is done by assembler code for StrEquals.
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    if (!stopped()) {
      Node* equals = make_string_method_node(Op_StrEquals, receiver_start, receiver_cnt, argument_start, argument_cnt);
      phi->init_req(1, equals);
      region->init_req(1, control());
    }
1206
  }
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  // post merge
  set_control(_gvn.transform(region));
  record_for_igvn(region);

1212
  set_result(_gvn.transform(phi));
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  return true;
}

1216 1217
//------------------------------inline_array_equals----------------------------
bool LibraryCallKit::inline_array_equals() {
1218 1219 1220
  Node* arg1 = argument(0);
  Node* arg2 = argument(1);
  set_result(_gvn.transform(new (C) AryEqNode(control(), memory(TypeAryPtr::CHARS), arg1, arg2)));
1221 1222 1223
  return true;
}

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// Java version of String.indexOf(constant string)
// class StringDecl {
//   StringDecl(char[] ca) {
//     offset = 0;
//     count = ca.length;
//     value = ca;
//   }
//   int offset;
//   int count;
//   char[] value;
// }
//
// static int string_indexOf_J(StringDecl string_object, char[] target_object,
//                             int targetOffset, int cache_i, int md2) {
//   int cache = cache_i;
//   int sourceOffset = string_object.offset;
//   int sourceCount = string_object.count;
//   int targetCount = target_object.length;
//
//   int targetCountLess1 = targetCount - 1;
//   int sourceEnd = sourceOffset + sourceCount - targetCountLess1;
//
//   char[] source = string_object.value;
//   char[] target = target_object;
//   int lastChar = target[targetCountLess1];
//
//  outer_loop:
//   for (int i = sourceOffset; i < sourceEnd; ) {
//     int src = source[i + targetCountLess1];
//     if (src == lastChar) {
//       // With random strings and a 4-character alphabet,
//       // reverse matching at this point sets up 0.8% fewer
//       // frames, but (paradoxically) makes 0.3% more probes.
//       // Since those probes are nearer the lastChar probe,
//       // there is may be a net D$ win with reverse matching.
//       // But, reversing loop inhibits unroll of inner loop
//       // for unknown reason.  So, does running outer loop from
//       // (sourceOffset - targetCountLess1) to (sourceOffset + sourceCount)
//       for (int j = 0; j < targetCountLess1; j++) {
//         if (target[targetOffset + j] != source[i+j]) {
//           if ((cache & (1 << source[i+j])) == 0) {
//             if (md2 < j+1) {
//               i += j+1;
//               continue outer_loop;
//             }
//           }
//           i += md2;
//           continue outer_loop;
//         }
//       }
//       return i - sourceOffset;
//     }
//     if ((cache & (1 << src)) == 0) {
//       i += targetCountLess1;
//     } // using "i += targetCount;" and an "else i++;" causes a jump to jump.
//     i++;
//   }
//   return -1;
// }

//------------------------------string_indexOf------------------------
Node* LibraryCallKit::string_indexOf(Node* string_object, ciTypeArray* target_array, jint targetOffset_i,
                                     jint cache_i, jint md2_i) {

  Node* no_ctrl  = NULL;
  float likely   = PROB_LIKELY(0.9);
  float unlikely = PROB_UNLIKELY(0.9);

1292
  const int nargs = 0; // no arguments to push back for uncommon trap in predicate
1293

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  Node* source        = load_String_value(no_ctrl, string_object);
  Node* sourceOffset  = load_String_offset(no_ctrl, string_object);
  Node* sourceCount   = load_String_length(no_ctrl, string_object);
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1298
  Node* target = _gvn.transform( makecon(TypeOopPtr::make_from_constant(target_array, true)));
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  jint target_length = target_array->length();
  const TypeAry* target_array_type = TypeAry::make(TypeInt::CHAR, TypeInt::make(0, target_length, Type::WidenMin));
  const TypeAryPtr* target_type = TypeAryPtr::make(TypePtr::BotPTR, target_array_type, target_array->klass(), true, Type::OffsetBot);

1303 1304 1305 1306 1307
  // String.value field is known to be @Stable.
  if (UseImplicitStableValues) {
    target = cast_array_to_stable(target, target_type);
  }

1308
  IdealKit kit(this, false, true);
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#define __ kit.
  Node* zero             = __ ConI(0);
  Node* one              = __ ConI(1);
  Node* cache            = __ ConI(cache_i);
  Node* md2              = __ ConI(md2_i);
  Node* lastChar         = __ ConI(target_array->char_at(target_length - 1));
  Node* targetCount      = __ ConI(target_length);
  Node* targetCountLess1 = __ ConI(target_length - 1);
  Node* targetOffset     = __ ConI(targetOffset_i);
  Node* sourceEnd        = __ SubI(__ AddI(sourceOffset, sourceCount), targetCountLess1);

1320
  IdealVariable rtn(kit), i(kit), j(kit); __ declarations_done();
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  Node* outer_loop = __ make_label(2 /* goto */);
  Node* return_    = __ make_label(1);

  __ set(rtn,__ ConI(-1));
1325
  __ loop(this, nargs, i, sourceOffset, BoolTest::lt, sourceEnd); {
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       Node* i2  = __ AddI(__ value(i), targetCountLess1);
       // pin to prohibit loading of "next iteration" value which may SEGV (rare)
       Node* src = load_array_element(__ ctrl(), source, i2, TypeAryPtr::CHARS);
       __ if_then(src, BoolTest::eq, lastChar, unlikely); {
1330
         __ loop(this, nargs, j, zero, BoolTest::lt, targetCountLess1); {
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              Node* tpj = __ AddI(targetOffset, __ value(j));
              Node* targ = load_array_element(no_ctrl, target, tpj, target_type);
              Node* ipj  = __ AddI(__ value(i), __ value(j));
              Node* src2 = load_array_element(no_ctrl, source, ipj, TypeAryPtr::CHARS);
              __ if_then(targ, BoolTest::ne, src2); {
                __ if_then(__ AndI(cache, __ LShiftI(one, src2)), BoolTest::eq, zero); {
                  __ if_then(md2, BoolTest::lt, __ AddI(__ value(j), one)); {
                    __ increment(i, __ AddI(__ value(j), one));
                    __ goto_(outer_loop);
                  } __ end_if(); __ dead(j);
                }__ end_if(); __ dead(j);
                __ increment(i, md2);
                __ goto_(outer_loop);
              }__ end_if();
              __ increment(j, one);
         }__ end_loop(); __ dead(j);
         __ set(rtn, __ SubI(__ value(i), sourceOffset)); __ dead(i);
         __ goto_(return_);
       }__ end_if();
       __ if_then(__ AndI(cache, __ LShiftI(one, src)), BoolTest::eq, zero, likely); {
         __ increment(i, targetCountLess1);
       }__ end_if();
       __ increment(i, one);
       __ bind(outer_loop);
  }__ end_loop(); __ dead(i);
  __ bind(return_);

1358
  // Final sync IdealKit and GraphKit.
1359
  final_sync(kit);
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  Node* result = __ value(rtn);
#undef __
  C->set_has_loops(true);
  return result;
}

//------------------------------inline_string_indexOf------------------------
bool LibraryCallKit::inline_string_indexOf() {
1368 1369
  Node* receiver = argument(0);
  Node* arg      = argument(1);
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  Node* result;
1372 1373
  // Disable the use of pcmpestri until it can be guaranteed that
  // the load doesn't cross into the uncommited space.
1374
  if (Matcher::has_match_rule(Op_StrIndexOf) &&
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      UseSSE42Intrinsics) {
    // Generate SSE4.2 version of indexOf
    // We currently only have match rules that use SSE4.2

1379 1380
    receiver = null_check(receiver);
    arg      = null_check(arg);
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    if (stopped()) {
      return true;
    }
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1385 1386 1387
    ciInstanceKlass* str_klass = env()->String_klass();
    const TypeOopPtr* string_type = TypeOopPtr::make_from_klass(str_klass);

1388
    // Make the merge point
1389 1390
    RegionNode* result_rgn = new (C) RegionNode(4);
    Node*       result_phi = new (C) PhiNode(result_rgn, TypeInt::INT);
1391 1392
    Node* no_ctrl  = NULL;

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    // Get start addr of source string
    Node* source = load_String_value(no_ctrl, receiver);
    Node* source_offset = load_String_offset(no_ctrl, receiver);
    Node* source_start = array_element_address(source, source_offset, T_CHAR);

    // Get length of source string
    Node* source_cnt  = load_String_length(no_ctrl, receiver);

    // Get start addr of substring
1402 1403
    Node* substr = load_String_value(no_ctrl, arg);
    Node* substr_offset = load_String_offset(no_ctrl, arg);
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    Node* substr_start = array_element_address(substr, substr_offset, T_CHAR);
1405

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    // Get length of source string
1407
    Node* substr_cnt  = load_String_length(no_ctrl, arg);
1408 1409

    // Check for substr count > string count
1410 1411
    Node* cmp = _gvn.transform(new(C) CmpINode(substr_cnt, source_cnt));
    Node* bol = _gvn.transform(new(C) BoolNode(cmp, BoolTest::gt));
1412 1413 1414 1415 1416 1417
    Node* if_gt = generate_slow_guard(bol, NULL);
    if (if_gt != NULL) {
      result_phi->init_req(2, intcon(-1));
      result_rgn->init_req(2, if_gt);
    }

1418 1419
    if (!stopped()) {
      // Check for substr count == 0
1420 1421
      cmp = _gvn.transform(new(C) CmpINode(substr_cnt, intcon(0)));
      bol = _gvn.transform(new(C) BoolNode(cmp, BoolTest::eq));
1422 1423 1424 1425 1426 1427 1428
      Node* if_zero = generate_slow_guard(bol, NULL);
      if (if_zero != NULL) {
        result_phi->init_req(3, intcon(0));
        result_rgn->init_req(3, if_zero);
      }
    }

1429
    if (!stopped()) {
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      result = make_string_method_node(Op_StrIndexOf, source_start, source_cnt, substr_start, substr_cnt);
1431 1432 1433 1434 1435 1436 1437
      result_phi->init_req(1, result);
      result_rgn->init_req(1, control());
    }
    set_control(_gvn.transform(result_rgn));
    record_for_igvn(result_rgn);
    result = _gvn.transform(result_phi);

1438 1439
  } else { // Use LibraryCallKit::string_indexOf
    // don't intrinsify if argument isn't a constant string.
1440
    if (!arg->is_Con()) {
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     return false;
    }
1443
    const TypeOopPtr* str_type = _gvn.type(arg)->isa_oopptr();
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    if (str_type == NULL) {
      return false;
    }
    ciInstanceKlass* klass = env()->String_klass();
    ciObject* str_const = str_type->const_oop();
    if (str_const == NULL || str_const->klass() != klass) {
      return false;
    }
    ciInstance* str = str_const->as_instance();
    assert(str != NULL, "must be instance");

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    ciObject* v = str->field_value_by_offset(java_lang_String::value_offset_in_bytes()).as_object();
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    ciTypeArray* pat = v->as_type_array(); // pattern (argument) character array

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    int o;
    int c;
    if (java_lang_String::has_offset_field()) {
      o = str->field_value_by_offset(java_lang_String::offset_offset_in_bytes()).as_int();
      c = str->field_value_by_offset(java_lang_String::count_offset_in_bytes()).as_int();
    } else {
      o = 0;
      c = pat->length();
    }

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    // constant strings have no offset and count == length which
    // simplifies the resulting code somewhat so lets optimize for that.
    if (o != 0 || c != pat->length()) {
     return false;
    }
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1474 1475
    receiver = null_check(receiver, T_OBJECT);
    // NOTE: No null check on the argument is needed since it's a constant String oop.
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    if (stopped()) {
1477
      return true;
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    }
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    // The null string as a pattern always returns 0 (match at beginning of string)
    if (c == 0) {
1482
      set_result(intcon(0));
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      return true;
    }
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    // Generate default indexOf
    jchar lastChar = pat->char_at(o + (c - 1));
    int cache = 0;
    int i;
    for (i = 0; i < c - 1; i++) {
      assert(i < pat->length(), "out of range");
      cache |= (1 << (pat->char_at(o + i) & (sizeof(cache) * BitsPerByte - 1)));
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    }
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    int md2 = c;
    for (i = 0; i < c - 1; i++) {
      assert(i < pat->length(), "out of range");
      if (pat->char_at(o + i) == lastChar) {
        md2 = (c - 1) - i;
      }
    }

    result = string_indexOf(receiver, pat, o, cache, md2);
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  }
1505
  set_result(result);
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  return true;
}

1509 1510 1511 1512 1513 1514 1515 1516 1517 1518 1519 1520 1521 1522 1523 1524 1525
//--------------------------round_double_node--------------------------------
// Round a double node if necessary.
Node* LibraryCallKit::round_double_node(Node* n) {
  if (Matcher::strict_fp_requires_explicit_rounding && UseSSE <= 1)
    n = _gvn.transform(new (C) RoundDoubleNode(0, n));
  return n;
}

//------------------------------inline_math-----------------------------------
// public static double Math.abs(double)
// public static double Math.sqrt(double)
// public static double Math.log(double)
// public static double Math.log10(double)
bool LibraryCallKit::inline_math(vmIntrinsics::ID id) {
  Node* arg = round_double_node(argument(0));
  Node* n;
  switch (id) {
1526 1527 1528 1529
  case vmIntrinsics::_dabs:   n = new (C) AbsDNode(                arg);  break;
  case vmIntrinsics::_dsqrt:  n = new (C) SqrtDNode(C, control(),  arg);  break;
  case vmIntrinsics::_dlog:   n = new (C) LogDNode(C, control(),   arg);  break;
  case vmIntrinsics::_dlog10: n = new (C) Log10DNode(C, control(), arg);  break;
1530 1531 1532 1533
  default:  fatal_unexpected_iid(id);  break;
  }
  set_result(_gvn.transform(n));
  return true;
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}

//------------------------------inline_trig----------------------------------
// Inline sin/cos/tan instructions, if possible.  If rounding is required, do
// argument reduction which will turn into a fast/slow diamond.
bool LibraryCallKit::inline_trig(vmIntrinsics::ID id) {
1540 1541
  Node* arg = round_double_node(argument(0));
  Node* n = NULL;
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  switch (id) {
1544 1545 1546
  case vmIntrinsics::_dsin:  n = new (C) SinDNode(C, control(), arg);  break;
  case vmIntrinsics::_dcos:  n = new (C) CosDNode(C, control(), arg);  break;
  case vmIntrinsics::_dtan:  n = new (C) TanDNode(C, control(), arg);  break;
1547
  default:  fatal_unexpected_iid(id);  break;
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  }
1549
  n = _gvn.transform(n);
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1550 1551

  // Rounding required?  Check for argument reduction!
1552
  if (Matcher::strict_fp_requires_explicit_rounding) {
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    static const double     pi_4 =  0.7853981633974483;
    static const double neg_pi_4 = -0.7853981633974483;
    // pi/2 in 80-bit extended precision
    // static const unsigned char pi_2_bits_x[] = {0x35,0xc2,0x68,0x21,0xa2,0xda,0x0f,0xc9,0xff,0x3f,0x00,0x00,0x00,0x00,0x00,0x00};
    // -pi/2 in 80-bit extended precision
    // static const unsigned char neg_pi_2_bits_x[] = {0x35,0xc2,0x68,0x21,0xa2,0xda,0x0f,0xc9,0xff,0xbf,0x00,0x00,0x00,0x00,0x00,0x00};
    // Cutoff value for using this argument reduction technique
    //static const double    pi_2_minus_epsilon =  1.564660403643354;
    //static const double neg_pi_2_plus_epsilon = -1.564660403643354;

    // Pseudocode for sin:
    // if (x <= Math.PI / 4.0) {
    //   if (x >= -Math.PI / 4.0) return  fsin(x);
    //   if (x >= -Math.PI / 2.0) return -fcos(x + Math.PI / 2.0);
    // } else {
    //   if (x <=  Math.PI / 2.0) return  fcos(x - Math.PI / 2.0);
    // }
    // return StrictMath.sin(x);

    // Pseudocode for cos:
    // if (x <= Math.PI / 4.0) {
    //   if (x >= -Math.PI / 4.0) return  fcos(x);
    //   if (x >= -Math.PI / 2.0) return  fsin(x + Math.PI / 2.0);
    // } else {
    //   if (x <=  Math.PI / 2.0) return -fsin(x - Math.PI / 2.0);
    // }
    // return StrictMath.cos(x);

    // Actually, sticking in an 80-bit Intel value into C2 will be tough; it
    // requires a special machine instruction to load it.  Instead we'll try
    // the 'easy' case.  If we really need the extra range +/- PI/2 we'll
    // probably do the math inside the SIN encoding.

    // Make the merge point
1587 1588
    RegionNode* r = new (C) RegionNode(3);
    Node* phi = new (C) PhiNode(r, Type::DOUBLE);
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    // Flatten arg so we need only 1 test
1591
    Node *abs = _gvn.transform(new (C) AbsDNode(arg));
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    // Node for PI/4 constant
    Node *pi4 = makecon(TypeD::make(pi_4));
    // Check PI/4 : abs(arg)
1595
    Node *cmp = _gvn.transform(new (C) CmpDNode(pi4,abs));
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    // Check: If PI/4 < abs(arg) then go slow
1597
    Node *bol = _gvn.transform(new (C) BoolNode( cmp, BoolTest::lt ));
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    // Branch either way
    IfNode *iff = create_and_xform_if(control(),bol, PROB_STATIC_FREQUENT, COUNT_UNKNOWN);
    set_control(opt_iff(r,iff));

    // Set fast path result
1603
    phi->init_req(2, n);
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    // Slow path - non-blocking leaf call
    Node* call = NULL;
    switch (id) {
    case vmIntrinsics::_dsin:
      call = make_runtime_call(RC_LEAF, OptoRuntime::Math_D_D_Type(),
                               CAST_FROM_FN_PTR(address, SharedRuntime::dsin),
                               "Sin", NULL, arg, top());
      break;
    case vmIntrinsics::_dcos:
      call = make_runtime_call(RC_LEAF, OptoRuntime::Math_D_D_Type(),
                               CAST_FROM_FN_PTR(address, SharedRuntime::dcos),
                               "Cos", NULL, arg, top());
      break;
    case vmIntrinsics::_dtan:
      call = make_runtime_call(RC_LEAF, OptoRuntime::Math_D_D_Type(),
                               CAST_FROM_FN_PTR(address, SharedRuntime::dtan),
                               "Tan", NULL, arg, top());
      break;
    }
    assert(control()->in(0) == call, "");
1625 1626 1627
    Node* slow_result = _gvn.transform(new (C) ProjNode(call, TypeFunc::Parms));
    r->init_req(1, control());
    phi->init_req(1, slow_result);
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    // Post-merge
    set_control(_gvn.transform(r));
    record_for_igvn(r);
1632
    n = _gvn.transform(phi);
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    C->set_has_split_ifs(true); // Has chance for split-if optimization
  }
1636
  set_result(n);
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  return true;
}

1640 1641 1642 1643 1644
void LibraryCallKit::finish_pow_exp(Node* result, Node* x, Node* y, const TypeFunc* call_type, address funcAddr, const char* funcName) {
  //-------------------
  //result=(result.isNaN())? funcAddr():result;
  // Check: If isNaN() by checking result!=result? then either trap
  // or go to runtime
1645
  Node* cmpisnan = _gvn.transform(new (C) CmpDNode(result, result));
1646
  // Build the boolean node
1647
  Node* bolisnum = _gvn.transform(new (C) BoolNode(cmpisnan, BoolTest::eq));
1648 1649

  if (!too_many_traps(Deoptimization::Reason_intrinsic)) {
1650
    { BuildCutout unless(this, bolisnum, PROB_STATIC_FREQUENT);
1651 1652 1653 1654 1655
      // The pow or exp intrinsic returned a NaN, which requires a call
      // to the runtime.  Recompile with the runtime call.
      uncommon_trap(Deoptimization::Reason_intrinsic,
                    Deoptimization::Action_make_not_entrant);
    }
1656
    set_result(result);
1657 1658 1659 1660 1661
  } else {
    // If this inlining ever returned NaN in the past, we compile a call
    // to the runtime to properly handle corner cases

    IfNode* iff = create_and_xform_if(control(), bolisnum, PROB_STATIC_FREQUENT, COUNT_UNKNOWN);
1662 1663
    Node* if_slow = _gvn.transform(new (C) IfFalseNode(iff));
    Node* if_fast = _gvn.transform(new (C) IfTrueNode(iff));
1664 1665

    if (!if_slow->is_top()) {
1666
      RegionNode* result_region = new (C) RegionNode(3);
1667
      PhiNode*    result_val = new (C) PhiNode(result_region, Type::DOUBLE);
1668 1669 1670 1671 1672 1673 1674 1675 1676 1677

      result_region->init_req(1, if_fast);
      result_val->init_req(1, result);

      set_control(if_slow);

      const TypePtr* no_memory_effects = NULL;
      Node* rt = make_runtime_call(RC_LEAF, call_type, funcAddr, funcName,
                                   no_memory_effects,
                                   x, top(), y, y ? top() : NULL);
1678
      Node* value = _gvn.transform(new (C) ProjNode(rt, TypeFunc::Parms+0));
1679
#ifdef ASSERT
1680
      Node* value_top = _gvn.transform(new (C) ProjNode(rt, TypeFunc::Parms+1));
1681 1682 1683 1684 1685
      assert(value_top == top(), "second value must be top");
#endif

      result_region->init_req(2, control());
      result_val->init_req(2, value);
1686
      set_result(result_region, result_val);
1687
    } else {
1688
      set_result(result);
1689 1690 1691 1692
    }
  }
}

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1693 1694 1695
//------------------------------inline_exp-------------------------------------
// Inline exp instructions, if possible.  The Intel hardware only misses
// really odd corner cases (+/- Infinity).  Just uncommon-trap them.
1696 1697
bool LibraryCallKit::inline_exp() {
  Node* arg = round_double_node(argument(0));
1698
  Node* n   = _gvn.transform(new (C) ExpDNode(C, control(), arg));
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1700
  finish_pow_exp(n, arg, NULL, OptoRuntime::Math_D_D_Type(), CAST_FROM_FN_PTR(address, SharedRuntime::dexp), "EXP");
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1701 1702 1703 1704 1705 1706 1707

  C->set_has_split_ifs(true); // Has chance for split-if optimization
  return true;
}

//------------------------------inline_pow-------------------------------------
// Inline power instructions, if possible.
1708
bool LibraryCallKit::inline_pow() {
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1709 1710
  // Pseudocode for pow
  // if (x <= 0.0) {
1711 1712 1713 1714
  //   long longy = (long)y;
  //   if ((double)longy == y) { // if y is long
  //     if (y + 1 == y) longy = 0; // huge number: even
  //     result = ((1&longy) == 0)?-DPow(abs(x), y):DPow(abs(x), y);
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1715 1716 1717 1718 1719 1720 1721
  //   } else {
  //     result = NaN;
  //   }
  // } else {
  //   result = DPow(x,y);
  // }
  // if (result != result)?  {
1722
  //   result = uncommon_trap() or runtime_call();
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1723 1724 1725
  // }
  // return result;

1726 1727
  Node* x = round_double_node(argument(0));
  Node* y = round_double_node(argument(2));
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1728

1729
  Node* result = NULL;
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1730

1731 1732
  if (!too_many_traps(Deoptimization::Reason_intrinsic)) {
    // Short form: skip the fancy tests and just check for NaN result.
1733
    result = _gvn.transform(new (C) PowDNode(C, control(), x, y));
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1734
  } else {
1735 1736
    // If this inlining ever returned NaN in the past, include all
    // checks + call to the runtime.
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1737 1738 1739

    // Set the merge point for If node with condition of (x <= 0.0)
    // There are four possible paths to region node and phi node
1740 1741
    RegionNode *r = new (C) RegionNode(4);
    Node *phi = new (C) PhiNode(r, Type::DOUBLE);
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1742 1743 1744 1745 1746

    // Build the first if node: if (x <= 0.0)
    // Node for 0 constant
    Node *zeronode = makecon(TypeD::ZERO);
    // Check x:0
1747
    Node *cmp = _gvn.transform(new (C) CmpDNode(x, zeronode));
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    // Check: If (x<=0) then go complex path
1749
    Node *bol1 = _gvn.transform(new (C) BoolNode( cmp, BoolTest::le ));
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1750 1751 1752
    // Branch either way
    IfNode *if1 = create_and_xform_if(control(),bol1, PROB_STATIC_INFREQUENT, COUNT_UNKNOWN);
    // Fast path taken; set region slot 3
1753
    Node *fast_taken = _gvn.transform(new (C) IfFalseNode(if1));
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    r->init_req(3,fast_taken); // Capture fast-control

    // Fast path not-taken, i.e. slow path
1757
    Node *complex_path = _gvn.transform(new (C) IfTrueNode(if1));
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1758 1759

    // Set fast path result
1760
    Node *fast_result = _gvn.transform(new (C) PowDNode(C, control(), x, y));
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1761 1762 1763
    phi->init_req(3, fast_result);

    // Complex path
1764 1765
    // Build the second if node (if y is long)
    // Node for (long)y
1766
    Node *longy = _gvn.transform(new (C) ConvD2LNode(y));
1767
    // Node for (double)((long) y)
1768
    Node *doublelongy= _gvn.transform(new (C) ConvL2DNode(longy));
1769
    // Check (double)((long) y) : y
1770
    Node *cmplongy= _gvn.transform(new (C) CmpDNode(doublelongy, y));
1771 1772
    // Check if (y isn't long) then go to slow path

1773
    Node *bol2 = _gvn.transform(new (C) BoolNode( cmplongy, BoolTest::ne ));
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    // Branch either way
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1775
    IfNode *if2 = create_and_xform_if(complex_path,bol2, PROB_STATIC_INFREQUENT, COUNT_UNKNOWN);
1776
    Node* ylong_path = _gvn.transform(new (C) IfFalseNode(if2));
1777

1778
    Node *slow_path = _gvn.transform(new (C) IfTrueNode(if2));
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1779

1780
    // Calculate DPow(abs(x), y)*(1 & (long)y)
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1781
    // Node for constant 1
1782 1783
    Node *conone = longcon(1);
    // 1& (long)y
1784
    Node *signnode= _gvn.transform(new (C) AndLNode(conone, longy));
1785 1786 1787 1788 1789 1790 1791

    // A huge number is always even. Detect a huge number by checking
    // if y + 1 == y and set integer to be tested for parity to 0.
    // Required for corner case:
    // (long)9.223372036854776E18 = max_jlong
    // (double)(long)9.223372036854776E18 = 9.223372036854776E18
    // max_jlong is odd but 9.223372036854776E18 is even
1792
    Node* yplus1 = _gvn.transform(new (C) AddDNode(y, makecon(TypeD::make(1))));
1793
    Node *cmpyplus1= _gvn.transform(new (C) CmpDNode(yplus1, y));
1794
    Node *bolyplus1 = _gvn.transform(new (C) BoolNode( cmpyplus1, BoolTest::eq ));
1795 1796 1797 1798 1799
    Node* correctedsign = NULL;
    if (ConditionalMoveLimit != 0) {
      correctedsign = _gvn.transform( CMoveNode::make(C, NULL, bolyplus1, signnode, longcon(0), TypeLong::LONG));
    } else {
      IfNode *ifyplus1 = create_and_xform_if(ylong_path,bolyplus1, PROB_FAIR, COUNT_UNKNOWN);
1800 1801
      RegionNode *r = new (C) RegionNode(3);
      Node *phi = new (C) PhiNode(r, TypeLong::LONG);
1802 1803
      r->init_req(1, _gvn.transform(new (C) IfFalseNode(ifyplus1)));
      r->init_req(2, _gvn.transform(new (C) IfTrueNode(ifyplus1)));
1804 1805 1806 1807 1808 1809 1810
      phi->init_req(1, signnode);
      phi->init_req(2, longcon(0));
      correctedsign = _gvn.transform(phi);
      ylong_path = _gvn.transform(r);
      record_for_igvn(r);
    }

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1811
    // zero node
1812 1813
    Node *conzero = longcon(0);
    // Check (1&(long)y)==0?
1814
    Node *cmpeq1 = _gvn.transform(new (C) CmpLNode(correctedsign, conzero));
1815
    // Check if (1&(long)y)!=0?, if so the result is negative
1816
    Node *bol3 = _gvn.transform(new (C) BoolNode( cmpeq1, BoolTest::ne ));
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1817
    // abs(x)
1818
    Node *absx=_gvn.transform(new (C) AbsDNode(x));
D
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1819
    // abs(x)^y
1820
    Node *absxpowy = _gvn.transform(new (C) PowDNode(C, control(), absx, y));
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    // -abs(x)^y
1822
    Node *negabsxpowy = _gvn.transform(new (C) NegDNode (absxpowy));
1823 1824 1825 1826 1827 1828
    // (1&(long)y)==1?-DPow(abs(x), y):DPow(abs(x), y)
    Node *signresult = NULL;
    if (ConditionalMoveLimit != 0) {
      signresult = _gvn.transform( CMoveNode::make(C, NULL, bol3, absxpowy, negabsxpowy, Type::DOUBLE));
    } else {
      IfNode *ifyeven = create_and_xform_if(ylong_path,bol3, PROB_FAIR, COUNT_UNKNOWN);
1829 1830
      RegionNode *r = new (C) RegionNode(3);
      Node *phi = new (C) PhiNode(r, Type::DOUBLE);
1831 1832
      r->init_req(1, _gvn.transform(new (C) IfFalseNode(ifyeven)));
      r->init_req(2, _gvn.transform(new (C) IfTrueNode(ifyeven)));
1833 1834 1835 1836 1837 1838
      phi->init_req(1, absxpowy);
      phi->init_req(2, negabsxpowy);
      signresult = _gvn.transform(phi);
      ylong_path = _gvn.transform(r);
      record_for_igvn(r);
    }
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    // Set complex path fast result
1840
    r->init_req(2, ylong_path);
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    phi->init_req(2, signresult);

    static const jlong nan_bits = CONST64(0x7ff8000000000000);
    Node *slow_result = makecon(TypeD::make(*(double*)&nan_bits)); // return NaN
    r->init_req(1,slow_path);
    phi->init_req(1,slow_result);

    // Post merge
    set_control(_gvn.transform(r));
    record_for_igvn(r);
1851
    result = _gvn.transform(phi);
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  }

1854
  finish_pow_exp(result, x, y, OptoRuntime::Math_DD_D_Type(), CAST_FROM_FN_PTR(address, SharedRuntime::dpow), "POW");
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  C->set_has_split_ifs(true); // Has chance for split-if optimization
  return true;
}

//------------------------------runtime_math-----------------------------
bool LibraryCallKit::runtime_math(const TypeFunc* call_type, address funcAddr, const char* funcName) {
  assert(call_type == OptoRuntime::Math_DD_D_Type() || call_type == OptoRuntime::Math_D_D_Type(),
         "must be (DD)D or (D)D type");

  // Inputs
1866 1867
  Node* a = round_double_node(argument(0));
  Node* b = (call_type == OptoRuntime::Math_DD_D_Type()) ? round_double_node(argument(2)) : NULL;
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  const TypePtr* no_memory_effects = NULL;
  Node* trig = make_runtime_call(RC_LEAF, call_type, funcAddr, funcName,
                                 no_memory_effects,
                                 a, top(), b, b ? top() : NULL);
1873
  Node* value = _gvn.transform(new (C) ProjNode(trig, TypeFunc::Parms+0));
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#ifdef ASSERT
1875
  Node* value_top = _gvn.transform(new (C) ProjNode(trig, TypeFunc::Parms+1));
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  assert(value_top == top(), "second value must be top");
#endif

1879
  set_result(value);
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  return true;
}

//------------------------------inline_math_native-----------------------------
bool LibraryCallKit::inline_math_native(vmIntrinsics::ID id) {
1885
#define FN_PTR(f) CAST_FROM_FN_PTR(address, f)
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  switch (id) {
    // These intrinsics are not properly supported on all hardware
1888 1889 1890 1891 1892 1893 1894 1895 1896 1897 1898
  case vmIntrinsics::_dcos:   return Matcher::has_match_rule(Op_CosD)   ? inline_trig(id) :
    runtime_math(OptoRuntime::Math_D_D_Type(), FN_PTR(SharedRuntime::dcos),   "COS");
  case vmIntrinsics::_dsin:   return Matcher::has_match_rule(Op_SinD)   ? inline_trig(id) :
    runtime_math(OptoRuntime::Math_D_D_Type(), FN_PTR(SharedRuntime::dsin),   "SIN");
  case vmIntrinsics::_dtan:   return Matcher::has_match_rule(Op_TanD)   ? inline_trig(id) :
    runtime_math(OptoRuntime::Math_D_D_Type(), FN_PTR(SharedRuntime::dtan),   "TAN");

  case vmIntrinsics::_dlog:   return Matcher::has_match_rule(Op_LogD)   ? inline_math(id) :
    runtime_math(OptoRuntime::Math_D_D_Type(), FN_PTR(SharedRuntime::dlog),   "LOG");
  case vmIntrinsics::_dlog10: return Matcher::has_match_rule(Op_Log10D) ? inline_math(id) :
    runtime_math(OptoRuntime::Math_D_D_Type(), FN_PTR(SharedRuntime::dlog10), "LOG10");
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    // These intrinsics are supported on all hardware
1901 1902
  case vmIntrinsics::_dsqrt:  return Matcher::has_match_rule(Op_SqrtD)  ? inline_math(id) : false;
  case vmIntrinsics::_dabs:   return Matcher::has_match_rule(Op_AbsD)   ? inline_math(id) : false;
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1904 1905 1906 1907 1908
  case vmIntrinsics::_dexp:   return Matcher::has_match_rule(Op_ExpD)   ? inline_exp()    :
    runtime_math(OptoRuntime::Math_D_D_Type(),  FN_PTR(SharedRuntime::dexp),  "EXP");
  case vmIntrinsics::_dpow:   return Matcher::has_match_rule(Op_PowD)   ? inline_pow()    :
    runtime_math(OptoRuntime::Math_DD_D_Type(), FN_PTR(SharedRuntime::dpow),  "POW");
#undef FN_PTR
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   // These intrinsics are not yet correctly implemented
  case vmIntrinsics::_datan2:
    return false;

  default:
1915
    fatal_unexpected_iid(id);
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    return false;
  }
}

static bool is_simple_name(Node* n) {
  return (n->req() == 1         // constant
          || (n->is_Type() && n->as_Type()->type()->singleton())
          || n->is_Proj()       // parameter or return value
          || n->is_Phi()        // local of some sort
          );
}

//----------------------------inline_min_max-----------------------------------
bool LibraryCallKit::inline_min_max(vmIntrinsics::ID id) {
1930
  set_result(generate_min_max(id, argument(0), argument(1)));
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  return true;
}

1934 1935 1936 1937 1938 1939 1940 1941 1942 1943 1944 1945 1946 1947 1948 1949 1950 1951 1952 1953 1954 1955 1956 1957 1958 1959 1960 1961 1962 1963 1964 1965 1966 1967 1968 1969 1970 1971 1972
bool LibraryCallKit::inline_math_mathExact(Node* math) {
  Node* result = _gvn.transform( new(C) ProjNode(math, MathExactNode::result_proj_node));
  Node* flags = _gvn.transform( new(C) FlagsProjNode(math, MathExactNode::flags_proj_node));

  Node* bol = _gvn.transform( new (C) BoolNode(flags, BoolTest::overflow) );
  IfNode* check = create_and_map_if(control(), bol, PROB_UNLIKELY_MAG(3), COUNT_UNKNOWN);
  Node* fast_path = _gvn.transform( new (C) IfFalseNode(check));
  Node* slow_path = _gvn.transform( new (C) IfTrueNode(check) );

  {
    PreserveJVMState pjvms(this);
    PreserveReexecuteState preexecs(this);
    jvms()->set_should_reexecute(true);

    set_control(slow_path);
    set_i_o(i_o());

    uncommon_trap(Deoptimization::Reason_intrinsic,
                  Deoptimization::Action_none);
  }

  set_control(fast_path);
  set_result(result);
  return true;
}

bool LibraryCallKit::inline_math_addExact() {
  Node* arg1 = argument(0);
  Node* arg2 = argument(1);

  Node* add = _gvn.transform( new(C) AddExactINode(NULL, arg1, arg2) );
  if (add->Opcode() == Op_AddExactI) {
    return inline_math_mathExact(add);
  } else {
    set_result(add);
  }
  return true;
}

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Node*
LibraryCallKit::generate_min_max(vmIntrinsics::ID id, Node* x0, Node* y0) {
  // These are the candidate return value:
  Node* xvalue = x0;
  Node* yvalue = y0;

  if (xvalue == yvalue) {
    return xvalue;
  }

  bool want_max = (id == vmIntrinsics::_max);

  const TypeInt* txvalue = _gvn.type(xvalue)->isa_int();
  const TypeInt* tyvalue = _gvn.type(yvalue)->isa_int();
  if (txvalue == NULL || tyvalue == NULL)  return top();
  // This is not really necessary, but it is consistent with a
  // hypothetical MaxINode::Value method:
  int widen = MAX2(txvalue->_widen, tyvalue->_widen);

  // %%% This folding logic should (ideally) be in a different place.
  // Some should be inside IfNode, and there to be a more reliable
  // transformation of ?: style patterns into cmoves.  We also want
  // more powerful optimizations around cmove and min/max.

  // Try to find a dominating comparison of these guys.
  // It can simplify the index computation for Arrays.copyOf
  // and similar uses of System.arraycopy.
  // First, compute the normalized version of CmpI(x, y).
  int   cmp_op = Op_CmpI;
  Node* xkey = xvalue;
  Node* ykey = yvalue;
2004
  Node* ideal_cmpxy = _gvn.transform(new(C) CmpINode(xkey, ykey));
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  if (ideal_cmpxy->is_Cmp()) {
    // E.g., if we have CmpI(length - offset, count),
    // it might idealize to CmpI(length, count + offset)
    cmp_op = ideal_cmpxy->Opcode();
    xkey = ideal_cmpxy->in(1);
    ykey = ideal_cmpxy->in(2);
  }

  // Start by locating any relevant comparisons.
  Node* start_from = (xkey->outcnt() < ykey->outcnt()) ? xkey : ykey;
  Node* cmpxy = NULL;
  Node* cmpyx = NULL;
  for (DUIterator_Fast kmax, k = start_from->fast_outs(kmax); k < kmax; k++) {
    Node* cmp = start_from->fast_out(k);
    if (cmp->outcnt() > 0 &&            // must have prior uses
        cmp->in(0) == NULL &&           // must be context-independent
        cmp->Opcode() == cmp_op) {      // right kind of compare
      if (cmp->in(1) == xkey && cmp->in(2) == ykey)  cmpxy = cmp;
      if (cmp->in(1) == ykey && cmp->in(2) == xkey)  cmpyx = cmp;
    }
  }

  const int NCMPS = 2;
  Node* cmps[NCMPS] = { cmpxy, cmpyx };
  int cmpn;
  for (cmpn = 0; cmpn < NCMPS; cmpn++) {
    if (cmps[cmpn] != NULL)  break;     // find a result
  }
  if (cmpn < NCMPS) {
    // Look for a dominating test that tells us the min and max.
    int depth = 0;                // Limit search depth for speed
    Node* dom = control();
    for (; dom != NULL; dom = IfNode::up_one_dom(dom, true)) {
      if (++depth >= 100)  break;
      Node* ifproj = dom;
      if (!ifproj->is_Proj())  continue;
      Node* iff = ifproj->in(0);
      if (!iff->is_If())  continue;
      Node* bol = iff->in(1);
      if (!bol->is_Bool())  continue;
      Node* cmp = bol->in(1);
      if (cmp == NULL)  continue;
      for (cmpn = 0; cmpn < NCMPS; cmpn++)
        if (cmps[cmpn] == cmp)  break;
      if (cmpn == NCMPS)  continue;
      BoolTest::mask btest = bol->as_Bool()->_test._test;
      if (ifproj->is_IfFalse())  btest = BoolTest(btest).negate();
      if (cmp->in(1) == ykey)    btest = BoolTest(btest).commute();
      // At this point, we know that 'x btest y' is true.
      switch (btest) {
      case BoolTest::eq:
        // They are proven equal, so we can collapse the min/max.
        // Either value is the answer.  Choose the simpler.
        if (is_simple_name(yvalue) && !is_simple_name(xvalue))
          return yvalue;
        return xvalue;
      case BoolTest::lt:          // x < y
      case BoolTest::le:          // x <= y
        return (want_max ? yvalue : xvalue);
      case BoolTest::gt:          // x > y
      case BoolTest::ge:          // x >= y
        return (want_max ? xvalue : yvalue);
      }
    }
  }

  // We failed to find a dominating test.
  // Let's pick a test that might GVN with prior tests.
  Node*          best_bol   = NULL;
  BoolTest::mask best_btest = BoolTest::illegal;
  for (cmpn = 0; cmpn < NCMPS; cmpn++) {
    Node* cmp = cmps[cmpn];
    if (cmp == NULL)  continue;
    for (DUIterator_Fast jmax, j = cmp->fast_outs(jmax); j < jmax; j++) {
      Node* bol = cmp->fast_out(j);
      if (!bol->is_Bool())  continue;
      BoolTest::mask btest = bol->as_Bool()->_test._test;
      if (btest == BoolTest::eq || btest == BoolTest::ne)  continue;
      if (cmp->in(1) == ykey)   btest = BoolTest(btest).commute();
      if (bol->outcnt() > (best_bol == NULL ? 0 : best_bol->outcnt())) {
        best_bol   = bol->as_Bool();
        best_btest = btest;
      }
    }
  }

  Node* answer_if_true  = NULL;
  Node* answer_if_false = NULL;
  switch (best_btest) {
  default:
    if (cmpxy == NULL)
      cmpxy = ideal_cmpxy;
2097
    best_bol = _gvn.transform(new(C) BoolNode(cmpxy, BoolTest::lt));
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    // and fall through:
  case BoolTest::lt:          // x < y
  case BoolTest::le:          // x <= y
    answer_if_true  = (want_max ? yvalue : xvalue);
    answer_if_false = (want_max ? xvalue : yvalue);
    break;
  case BoolTest::gt:          // x > y
  case BoolTest::ge:          // x >= y
    answer_if_true  = (want_max ? xvalue : yvalue);
    answer_if_false = (want_max ? yvalue : xvalue);
    break;
  }

  jint hi, lo;
  if (want_max) {
    // We can sharpen the minimum.
    hi = MAX2(txvalue->_hi, tyvalue->_hi);
    lo = MAX2(txvalue->_lo, tyvalue->_lo);
  } else {
    // We can sharpen the maximum.
    hi = MIN2(txvalue->_hi, tyvalue->_hi);
    lo = MIN2(txvalue->_lo, tyvalue->_lo);
  }

  // Use a flow-free graph structure, to avoid creating excess control edges
  // which could hinder other optimizations.
  // Since Math.min/max is often used with arraycopy, we want
  // tightly_coupled_allocation to be able to see beyond min/max expressions.
  Node* cmov = CMoveNode::make(C, NULL, best_bol,
                               answer_if_false, answer_if_true,
                               TypeInt::make(lo, hi, widen));

  return _gvn.transform(cmov);

  /*
  // This is not as desirable as it may seem, since Min and Max
  // nodes do not have a full set of optimizations.
  // And they would interfere, anyway, with 'if' optimizations
  // and with CMoveI canonical forms.
  switch (id) {
  case vmIntrinsics::_min:
    result_val = _gvn.transform(new (C, 3) MinINode(x,y)); break;
  case vmIntrinsics::_max:
    result_val = _gvn.transform(new (C, 3) MaxINode(x,y)); break;
  default:
    ShouldNotReachHere();
  }
  */
}

inline int
LibraryCallKit::classify_unsafe_addr(Node* &base, Node* &offset) {
  const TypePtr* base_type = TypePtr::NULL_PTR;
  if (base != NULL)  base_type = _gvn.type(base)->isa_ptr();
  if (base_type == NULL) {
    // Unknown type.
    return Type::AnyPtr;
  } else if (base_type == TypePtr::NULL_PTR) {
    // Since this is a NULL+long form, we have to switch to a rawptr.
2157
    base   = _gvn.transform(new (C) CastX2PNode(offset));
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    offset = MakeConX(0);
    return Type::RawPtr;
  } else if (base_type->base() == Type::RawPtr) {
    return Type::RawPtr;
  } else if (base_type->isa_oopptr()) {
    // Base is never null => always a heap address.
    if (base_type->ptr() == TypePtr::NotNull) {
      return Type::OopPtr;
    }
    // Offset is small => always a heap address.
    const TypeX* offset_type = _gvn.type(offset)->isa_intptr_t();
    if (offset_type != NULL &&
        base_type->offset() == 0 &&     // (should always be?)
        offset_type->_lo >= 0 &&
        !MacroAssembler::needs_explicit_null_check(offset_type->_hi)) {
      return Type::OopPtr;
    }
    // Otherwise, it might either be oop+off or NULL+addr.
    return Type::AnyPtr;
  } else {
    // No information:
    return Type::AnyPtr;
  }
}

inline Node* LibraryCallKit::make_unsafe_address(Node* base, Node* offset) {
  int kind = classify_unsafe_addr(base, offset);
  if (kind == Type::RawPtr) {
    return basic_plus_adr(top(), base, offset);
  } else {
    return basic_plus_adr(base, offset);
  }
}

2192 2193 2194 2195 2196 2197 2198 2199 2200 2201 2202 2203 2204 2205 2206 2207 2208
//--------------------------inline_number_methods-----------------------------
// inline int     Integer.numberOfLeadingZeros(int)
// inline int        Long.numberOfLeadingZeros(long)
//
// inline int     Integer.numberOfTrailingZeros(int)
// inline int        Long.numberOfTrailingZeros(long)
//
// inline int     Integer.bitCount(int)
// inline int        Long.bitCount(long)
//
// inline char  Character.reverseBytes(char)
// inline short     Short.reverseBytes(short)
// inline int     Integer.reverseBytes(int)
// inline long       Long.reverseBytes(long)
bool LibraryCallKit::inline_number_methods(vmIntrinsics::ID id) {
  Node* arg = argument(0);
  Node* n;
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  switch (id) {
2210 2211 2212 2213 2214 2215 2216 2217 2218 2219 2220 2221 2222
  case vmIntrinsics::_numberOfLeadingZeros_i:   n = new (C) CountLeadingZerosINode( arg);  break;
  case vmIntrinsics::_numberOfLeadingZeros_l:   n = new (C) CountLeadingZerosLNode( arg);  break;
  case vmIntrinsics::_numberOfTrailingZeros_i:  n = new (C) CountTrailingZerosINode(arg);  break;
  case vmIntrinsics::_numberOfTrailingZeros_l:  n = new (C) CountTrailingZerosLNode(arg);  break;
  case vmIntrinsics::_bitCount_i:               n = new (C) PopCountINode(          arg);  break;
  case vmIntrinsics::_bitCount_l:               n = new (C) PopCountLNode(          arg);  break;
  case vmIntrinsics::_reverseBytes_c:           n = new (C) ReverseBytesUSNode(0,   arg);  break;
  case vmIntrinsics::_reverseBytes_s:           n = new (C) ReverseBytesSNode( 0,   arg);  break;
  case vmIntrinsics::_reverseBytes_i:           n = new (C) ReverseBytesINode( 0,   arg);  break;
  case vmIntrinsics::_reverseBytes_l:           n = new (C) ReverseBytesLNode( 0,   arg);  break;
  default:  fatal_unexpected_iid(id);  break;
  }
  set_result(_gvn.transform(n));
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  return true;
}

//----------------------------inline_unsafe_access----------------------------

const static BasicType T_ADDRESS_HOLDER = T_LONG;

2230 2231
// Helper that guards and inserts a pre-barrier.
void LibraryCallKit::insert_pre_barrier(Node* base_oop, Node* offset,
2232
                                        Node* pre_val, bool need_mem_bar) {
2233 2234 2235 2236
  // We could be accessing the referent field of a reference object. If so, when G1
  // is enabled, we need to log the value in the referent field in an SATB buffer.
  // This routine performs some compile time filters and generates suitable
  // runtime filters that guard the pre-barrier code.
2237 2238 2239 2240
  // Also add memory barrier for non volatile load from the referent field
  // to prevent commoning of loads across safepoint.
  if (!UseG1GC && !need_mem_bar)
    return;
2241 2242 2243 2244 2245 2246 2247 2248 2249 2250 2251 2252 2253 2254 2255 2256 2257 2258 2259 2260 2261

  // Some compile time checks.

  // If offset is a constant, is it java_lang_ref_Reference::_reference_offset?
  const TypeX* otype = offset->find_intptr_t_type();
  if (otype != NULL && otype->is_con() &&
      otype->get_con() != java_lang_ref_Reference::referent_offset) {
    // Constant offset but not the reference_offset so just return
    return;
  }

  // We only need to generate the runtime guards for instances.
  const TypeOopPtr* btype = base_oop->bottom_type()->isa_oopptr();
  if (btype != NULL) {
    if (btype->isa_aryptr()) {
      // Array type so nothing to do
      return;
    }

    const TypeInstPtr* itype = btype->isa_instptr();
    if (itype != NULL) {
2262 2263
      // Can the klass of base_oop be statically determined to be
      // _not_ a sub-class of Reference and _not_ Object?
2264
      ciKlass* klass = itype->klass();
2265 2266 2267
      if ( klass->is_loaded() &&
          !klass->is_subtype_of(env()->Reference_klass()) &&
          !env()->Object_klass()->is_subtype_of(klass)) {
2268 2269 2270 2271 2272 2273 2274 2275 2276
        return;
      }
    }
  }

  // The compile time filters did not reject base_oop/offset so
  // we need to generate the following runtime filters
  //
  // if (offset == java_lang_ref_Reference::_reference_offset) {
2277 2278
  //   if (instance_of(base, java.lang.ref.Reference)) {
  //     pre_barrier(_, pre_val, ...);
2279 2280 2281
  //   }
  // }

2282 2283
  float likely   = PROB_LIKELY(  0.999);
  float unlikely = PROB_UNLIKELY(0.999);
2284

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  IdealKit ideal(this);
2286 2287
#define __ ideal.

2288
  Node* referent_off = __ ConX(java_lang_ref_Reference::referent_offset);
2289 2290 2291

  __ if_then(offset, BoolTest::eq, referent_off, unlikely); {
      // Update graphKit memory and control from IdealKit.
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      sync_kit(ideal);
2293 2294 2295 2296 2297

      Node* ref_klass_con = makecon(TypeKlassPtr::make(env()->Reference_klass()));
      Node* is_instof = gen_instanceof(base_oop, ref_klass_con);

      // Update IdealKit memory and control from graphKit.
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      __ sync_kit(this);
2299 2300

      Node* one = __ ConI(1);
2301
      // is_instof == 0 if base_oop == NULL
2302 2303 2304
      __ if_then(is_instof, BoolTest::eq, one, unlikely); {

        // Update graphKit from IdeakKit.
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        sync_kit(ideal);
2306 2307 2308 2309

        // Use the pre-barrier to record the value in the referent field
        pre_barrier(false /* do_load */,
                    __ ctrl(),
2310
                    NULL /* obj */, NULL /* adr */, max_juint /* alias_idx */, NULL /* val */, NULL /* val_type */,
2311 2312
                    pre_val /* pre_val */,
                    T_OBJECT);
2313 2314 2315 2316 2317
        if (need_mem_bar) {
          // Add memory barrier to prevent commoning reads from this field
          // across safepoint since GC can change its value.
          insert_mem_bar(Op_MemBarCPUOrder);
        }
2318
        // Update IdealKit from graphKit.
J
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        __ sync_kit(this);
2320 2321 2322 2323 2324

      } __ end_if(); // _ref_type != ref_none
  } __ end_if(); // offset == referent_offset

  // Final sync IdealKit and GraphKit.
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  final_sync(ideal);
2326 2327 2328 2329
#undef __
}


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// Interpret Unsafe.fieldOffset cookies correctly:
extern jlong Unsafe_field_offset_to_byte_offset(jlong field_offset);

2333 2334 2335 2336 2337 2338 2339 2340 2341 2342 2343 2344 2345 2346 2347 2348 2349 2350 2351 2352 2353 2354
const TypeOopPtr* LibraryCallKit::sharpen_unsafe_type(Compile::AliasType* alias_type, const TypePtr *adr_type, bool is_native_ptr) {
  // Attempt to infer a sharper value type from the offset and base type.
  ciKlass* sharpened_klass = NULL;

  // See if it is an instance field, with an object type.
  if (alias_type->field() != NULL) {
    assert(!is_native_ptr, "native pointer op cannot use a java address");
    if (alias_type->field()->type()->is_klass()) {
      sharpened_klass = alias_type->field()->type()->as_klass();
    }
  }

  // See if it is a narrow oop array.
  if (adr_type->isa_aryptr()) {
    if (adr_type->offset() >= objArrayOopDesc::base_offset_in_bytes()) {
      const TypeOopPtr *elem_type = adr_type->is_aryptr()->elem()->isa_oopptr();
      if (elem_type != NULL) {
        sharpened_klass = elem_type->klass();
      }
    }
  }

2355 2356 2357
  // The sharpened class might be unloaded if there is no class loader
  // contraint in place.
  if (sharpened_klass != NULL && sharpened_klass->is_loaded()) {
2358 2359 2360
    const TypeOopPtr* tjp = TypeOopPtr::make_from_klass(sharpened_klass);

#ifndef PRODUCT
2361
    if (C->print_intrinsics() || C->print_inlining()) {
2362 2363
      tty->print("  from base type: ");  adr_type->dump();
      tty->print("  sharpened value: ");  tjp->dump();
2364 2365 2366 2367 2368 2369 2370 2371
    }
#endif
    // Sharpen the value type.
    return tjp;
  }
  return NULL;
}

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bool LibraryCallKit::inline_unsafe_access(bool is_native_ptr, bool is_store, BasicType type, bool is_volatile) {
  if (callee()->is_static())  return false;  // caller must have the capability!

#ifndef PRODUCT
  {
    ResourceMark rm;
    // Check the signatures.
2379
    ciSignature* sig = callee()->signature();
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#ifdef ASSERT
    if (!is_store) {
      // Object getObject(Object base, int/long offset), etc.
      BasicType rtype = sig->return_type()->basic_type();
      if (rtype == T_ADDRESS_HOLDER && callee()->name() == ciSymbol::getAddress_name())
          rtype = T_ADDRESS;  // it is really a C void*
      assert(rtype == type, "getter must return the expected value");
      if (!is_native_ptr) {
        assert(sig->count() == 2, "oop getter has 2 arguments");
        assert(sig->type_at(0)->basic_type() == T_OBJECT, "getter base is object");
        assert(sig->type_at(1)->basic_type() == T_LONG, "getter offset is correct");
      } else {
        assert(sig->count() == 1, "native getter has 1 argument");
        assert(sig->type_at(0)->basic_type() == T_LONG, "getter base is long");
      }
    } else {
      // void putObject(Object base, int/long offset, Object x), etc.
      assert(sig->return_type()->basic_type() == T_VOID, "putter must not return a value");
      if (!is_native_ptr) {
        assert(sig->count() == 3, "oop putter has 3 arguments");
        assert(sig->type_at(0)->basic_type() == T_OBJECT, "putter base is object");
        assert(sig->type_at(1)->basic_type() == T_LONG, "putter offset is correct");
      } else {
        assert(sig->count() == 2, "native putter has 2 arguments");
        assert(sig->type_at(0)->basic_type() == T_LONG, "putter base is long");
      }
      BasicType vtype = sig->type_at(sig->count()-1)->basic_type();
      if (vtype == T_ADDRESS_HOLDER && callee()->name() == ciSymbol::putAddress_name())
        vtype = T_ADDRESS;  // it is really a C void*
      assert(vtype == type, "putter must accept the expected value");
    }
#endif // ASSERT
 }
#endif //PRODUCT

  C->set_has_unsafe_access(true);  // Mark eventual nmethod as "unsafe".

2417
  Node* receiver = argument(0);  // type: oop
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2418 2419

  // Build address expression.  See the code in inline_unsafe_prefetch.
2420 2421
  Node* adr;
  Node* heap_base_oop = top();
2422
  Node* offset = top();
2423
  Node* val;
2424

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2425 2426
  if (!is_native_ptr) {
    // The base is either a Java object or a value produced by Unsafe.staticFieldBase
2427 2428 2429
    Node* base = argument(1);  // type: oop
    // The offset is a value produced by Unsafe.staticFieldOffset or Unsafe.objectFieldOffset
    offset = argument(2);  // type: long
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2430 2431 2432 2433 2434 2435 2436 2437 2438
    // We currently rely on the cookies produced by Unsafe.xxxFieldOffset
    // to be plain byte offsets, which are also the same as those accepted
    // by oopDesc::field_base.
    assert(Unsafe_field_offset_to_byte_offset(11) == 11,
           "fieldOffset must be byte-scaled");
    // 32-bit machines ignore the high half!
    offset = ConvL2X(offset);
    adr = make_unsafe_address(base, offset);
    heap_base_oop = base;
2439
    val = is_store ? argument(4) : NULL;
D
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2440
  } else {
2441 2442
    Node* ptr = argument(1);  // type: long
    ptr = ConvL2X(ptr);  // adjust Java long to machine word
D
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2443
    adr = make_unsafe_address(NULL, ptr);
2444
    val = is_store ? argument(3) : NULL;
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2445 2446 2447 2448 2449 2450 2451 2452 2453 2454 2455 2456 2457 2458 2459 2460 2461 2462 2463
  }

  const TypePtr *adr_type = _gvn.type(adr)->isa_ptr();

  // First guess at the value type.
  const Type *value_type = Type::get_const_basic_type(type);

  // Try to categorize the address.  If it comes up as TypeJavaPtr::BOTTOM,
  // there was not enough information to nail it down.
  Compile::AliasType* alias_type = C->alias_type(adr_type);
  assert(alias_type->index() != Compile::AliasIdxBot, "no bare pointers here");

  // We will need memory barriers unless we can determine a unique
  // alias category for this reference.  (Note:  If for some reason
  // the barriers get omitted and the unsafe reference begins to "pollute"
  // the alias analysis of the rest of the graph, either Compile::can_alias
  // or Compile::must_alias will throw a diagnostic assert.)
  bool need_mem_bar = (alias_type->adr_type() == TypeOopPtr::BOTTOM);

2464 2465 2466 2467
  // If we are reading the value of the referent field of a Reference
  // object (either by using Unsafe directly or through reflection)
  // then, if G1 is enabled, we need to record the referent in an
  // SATB log buffer using the pre-barrier mechanism.
2468 2469 2470
  // Also we need to add memory barrier to prevent commoning reads
  // from this field across safepoint since GC can change its value.
  bool need_read_barrier = !is_native_ptr && !is_store &&
2471 2472
                           offset != top() && heap_base_oop != top();

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2473
  if (!is_store && type == T_OBJECT) {
2474 2475
    const TypeOopPtr* tjp = sharpen_unsafe_type(alias_type, adr_type, is_native_ptr);
    if (tjp != NULL) {
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2476 2477 2478 2479
      value_type = tjp;
    }
  }

2480
  receiver = null_check(receiver);
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2481 2482 2483 2484 2485 2486 2487 2488 2489 2490 2491 2492 2493
  if (stopped()) {
    return true;
  }
  // Heap pointers get a null-check from the interpreter,
  // as a courtesy.  However, this is not guaranteed by Unsafe,
  // and it is not possible to fully distinguish unintended nulls
  // from intended ones in this API.

  if (is_volatile) {
    // We need to emit leading and trailing CPU membars (see below) in
    // addition to memory membars when is_volatile. This is a little
    // too strong, but avoids the need to insert per-alias-type
    // volatile membars (for stores; compare Parse::do_put_xxx), which
T
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2494
    // we cannot do effectively here because we probably only have a
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2495 2496 2497 2498 2499 2500 2501 2502 2503 2504 2505 2506 2507 2508 2509 2510 2511
    // rough approximation of type.
    need_mem_bar = true;
    // For Stores, place a memory ordering barrier now.
    if (is_store)
      insert_mem_bar(Op_MemBarRelease);
  }

  // Memory barrier to prevent normal and 'unsafe' accesses from
  // bypassing each other.  Happens after null checks, so the
  // exception paths do not take memory state from the memory barrier,
  // so there's no problems making a strong assert about mixing users
  // of safe & unsafe memory.  Otherwise fails in a CTW of rt.jar
  // around 5701, class sun/reflect/UnsafeBooleanFieldAccessorImpl.
  if (need_mem_bar) insert_mem_bar(Op_MemBarCPUOrder);

  if (!is_store) {
    Node* p = make_load(control(), adr, value_type, type, adr_type, is_volatile);
2512
    // load value
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2513 2514 2515 2516 2517 2518
    switch (type) {
    case T_BOOLEAN:
    case T_CHAR:
    case T_BYTE:
    case T_SHORT:
    case T_INT:
2519
    case T_LONG:
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2520
    case T_FLOAT:
2521
    case T_DOUBLE:
2522
      break;
D
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2523
    case T_OBJECT:
2524
      if (need_read_barrier) {
2525
        insert_pre_barrier(heap_base_oop, offset, p, !(is_volatile || need_mem_bar));
2526
      }
D
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2527 2528 2529
      break;
    case T_ADDRESS:
      // Cast to an int type.
2530
      p = _gvn.transform(new (C) CastP2XNode(NULL, p));
D
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2531 2532
      p = ConvX2L(p);
      break;
2533 2534
    default:
      fatal(err_msg_res("unexpected type %d: %s", type, type2name(type)));
D
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2535 2536
      break;
    }
2537 2538 2539 2540 2541
    // The load node has the control of the preceding MemBarCPUOrder.  All
    // following nodes will have the control of the MemBarCPUOrder inserted at
    // the end of this method.  So, pushing the load onto the stack at a later
    // point is fine.
    set_result(p);
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2542 2543 2544 2545 2546 2547 2548 2549 2550
  } else {
    // place effect of store into memory
    switch (type) {
    case T_DOUBLE:
      val = dstore_rounding(val);
      break;
    case T_ADDRESS:
      // Repackage the long as a pointer.
      val = ConvL2X(val);
2551
      val = _gvn.transform(new (C) CastX2PNode(val));
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2552 2553 2554 2555 2556 2557 2558 2559 2560
      break;
    }

    if (type != T_OBJECT ) {
      (void) store_to_memory(control(), adr, val, type, adr_type, is_volatile);
    } else {
      // Possibly an oop being stored to Java heap or native memory
      if (!TypePtr::NULL_PTR->higher_equal(_gvn.type(heap_base_oop))) {
        // oop to Java heap.
N
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2561
        (void) store_oop_to_unknown(control(), heap_base_oop, adr, adr_type, val, type);
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2562 2563 2564 2565 2566
      } else {
        // We can't tell at compile time if we are storing in the Java heap or outside
        // of it. So we need to emit code to conditionally do the proper type of
        // store.

2567
        IdealKit ideal(this);
2568
#define __ ideal.
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2569
        // QQQ who knows what probability is here??
2570 2571
        __ if_then(heap_base_oop, BoolTest::ne, null(), PROB_UNLIKELY(0.999)); {
          // Sync IdealKit and graphKit.
2572
          sync_kit(ideal);
2573 2574
          Node* st = store_oop_to_unknown(control(), heap_base_oop, adr, adr_type, val, type);
          // Update IdealKit memory.
2575
          __ sync_kit(this);
2576 2577 2578 2579
        } __ else_(); {
          __ store(__ ctrl(), adr, val, type, alias_type->index(), is_volatile);
        } __ end_if();
        // Final sync IdealKit and GraphKit.
2580
        final_sync(ideal);
2581
#undef __
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2582 2583 2584 2585 2586 2587 2588 2589 2590 2591 2592 2593 2594 2595 2596 2597 2598 2599 2600 2601 2602 2603 2604
      }
    }
  }

  if (is_volatile) {
    if (!is_store)
      insert_mem_bar(Op_MemBarAcquire);
    else
      insert_mem_bar(Op_MemBarVolatile);
  }

  if (need_mem_bar) insert_mem_bar(Op_MemBarCPUOrder);

  return true;
}

//----------------------------inline_unsafe_prefetch----------------------------

bool LibraryCallKit::inline_unsafe_prefetch(bool is_native_ptr, bool is_store, bool is_static) {
#ifndef PRODUCT
  {
    ResourceMark rm;
    // Check the signatures.
2605
    ciSignature* sig = callee()->signature();
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2606 2607 2608 2609 2610 2611 2612 2613 2614 2615 2616 2617 2618 2619 2620 2621 2622
#ifdef ASSERT
    // Object getObject(Object base, int/long offset), etc.
    BasicType rtype = sig->return_type()->basic_type();
    if (!is_native_ptr) {
      assert(sig->count() == 2, "oop prefetch has 2 arguments");
      assert(sig->type_at(0)->basic_type() == T_OBJECT, "prefetch base is object");
      assert(sig->type_at(1)->basic_type() == T_LONG, "prefetcha offset is correct");
    } else {
      assert(sig->count() == 1, "native prefetch has 1 argument");
      assert(sig->type_at(0)->basic_type() == T_LONG, "prefetch base is long");
    }
#endif // ASSERT
  }
#endif // !PRODUCT

  C->set_has_unsafe_access(true);  // Mark eventual nmethod as "unsafe".

2623 2624 2625 2626 2627 2628 2629
  const int idx = is_static ? 0 : 1;
  if (!is_static) {
    null_check_receiver();
    if (stopped()) {
      return true;
    }
  }
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2630 2631 2632 2633 2634

  // Build address expression.  See the code in inline_unsafe_access.
  Node *adr;
  if (!is_native_ptr) {
    // The base is either a Java object or a value produced by Unsafe.staticFieldBase
2635 2636 2637
    Node* base   = argument(idx + 0);  // type: oop
    // The offset is a value produced by Unsafe.staticFieldOffset or Unsafe.objectFieldOffset
    Node* offset = argument(idx + 1);  // type: long
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2638 2639 2640 2641 2642 2643 2644 2645 2646
    // We currently rely on the cookies produced by Unsafe.xxxFieldOffset
    // to be plain byte offsets, which are also the same as those accepted
    // by oopDesc::field_base.
    assert(Unsafe_field_offset_to_byte_offset(11) == 11,
           "fieldOffset must be byte-scaled");
    // 32-bit machines ignore the high half!
    offset = ConvL2X(offset);
    adr = make_unsafe_address(base, offset);
  } else {
2647 2648
    Node* ptr = argument(idx + 0);  // type: long
    ptr = ConvL2X(ptr);  // adjust Java long to machine word
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2649 2650 2651 2652 2653 2654
    adr = make_unsafe_address(NULL, ptr);
  }

  // Generate the read or write prefetch
  Node *prefetch;
  if (is_store) {
2655
    prefetch = new (C) PrefetchWriteNode(i_o(), adr);
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2656
  } else {
2657
    prefetch = new (C) PrefetchReadNode(i_o(), adr);
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2658 2659 2660 2661 2662 2663 2664
  }
  prefetch->init_req(0, control());
  set_i_o(_gvn.transform(prefetch));

  return true;
}

2665
//----------------------------inline_unsafe_load_store----------------------------
2666 2667 2668 2669 2670 2671 2672 2673 2674 2675 2676 2677 2678 2679 2680 2681
// This method serves a couple of different customers (depending on LoadStoreKind):
//
// LS_cmpxchg:
//   public final native boolean compareAndSwapObject(Object o, long offset, Object expected, Object x);
//   public final native boolean compareAndSwapInt(   Object o, long offset, int    expected, int    x);
//   public final native boolean compareAndSwapLong(  Object o, long offset, long   expected, long   x);
//
// LS_xadd:
//   public int  getAndAddInt( Object o, long offset, int  delta)
//   public long getAndAddLong(Object o, long offset, long delta)
//
// LS_xchg:
//   int    getAndSet(Object o, long offset, int    newValue)
//   long   getAndSet(Object o, long offset, long   newValue)
//   Object getAndSet(Object o, long offset, Object newValue)
//
2682
bool LibraryCallKit::inline_unsafe_load_store(BasicType type, LoadStoreKind kind) {
D
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2683 2684 2685 2686 2687
  // This basic scheme here is the same as inline_unsafe_access, but
  // differs in enough details that combining them would make the code
  // overly confusing.  (This is a true fact! I originally combined
  // them, but even I was confused by it!) As much code/comments as
  // possible are retained from inline_unsafe_access though to make
T
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2688
  // the correspondences clearer. - dl
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2689 2690 2691 2692

  if (callee()->is_static())  return false;  // caller must have the capability!

#ifndef PRODUCT
2693
  BasicType rtype;
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2694 2695
  {
    ResourceMark rm;
2696 2697
    // Check the signatures.
    ciSignature* sig = callee()->signature();
2698 2699 2700
    rtype = sig->return_type()->basic_type();
    if (kind == LS_xadd || kind == LS_xchg) {
      // Check the signatures.
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2701
#ifdef ASSERT
2702 2703 2704 2705 2706
      assert(rtype == type, "get and set must return the expected type");
      assert(sig->count() == 3, "get and set has 3 arguments");
      assert(sig->type_at(0)->basic_type() == T_OBJECT, "get and set base is object");
      assert(sig->type_at(1)->basic_type() == T_LONG, "get and set offset is long");
      assert(sig->type_at(2)->basic_type() == type, "get and set must take expected type as new value/delta");
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#endif // ASSERT
2708 2709 2710 2711 2712 2713 2714 2715 2716 2717 2718
    } else if (kind == LS_cmpxchg) {
      // Check the signatures.
#ifdef ASSERT
      assert(rtype == T_BOOLEAN, "CAS must return boolean");
      assert(sig->count() == 4, "CAS has 4 arguments");
      assert(sig->type_at(0)->basic_type() == T_OBJECT, "CAS base is object");
      assert(sig->type_at(1)->basic_type() == T_LONG, "CAS offset is long");
#endif // ASSERT
    } else {
      ShouldNotReachHere();
    }
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  }
#endif //PRODUCT

  C->set_has_unsafe_access(true);  // Mark eventual nmethod as "unsafe".

2724 2725 2726 2727 2728 2729 2730 2731 2732 2733 2734 2735 2736 2737 2738 2739 2740 2741 2742 2743 2744 2745 2746
  // Get arguments:
  Node* receiver = NULL;
  Node* base     = NULL;
  Node* offset   = NULL;
  Node* oldval   = NULL;
  Node* newval   = NULL;
  if (kind == LS_cmpxchg) {
    const bool two_slot_type = type2size[type] == 2;
    receiver = argument(0);  // type: oop
    base     = argument(1);  // type: oop
    offset   = argument(2);  // type: long
    oldval   = argument(4);  // type: oop, int, or long
    newval   = argument(two_slot_type ? 6 : 5);  // type: oop, int, or long
  } else if (kind == LS_xadd || kind == LS_xchg){
    receiver = argument(0);  // type: oop
    base     = argument(1);  // type: oop
    offset   = argument(2);  // type: long
    oldval   = NULL;
    newval   = argument(4);  // type: oop, int, or long
  }

  // Null check receiver.
  receiver = null_check(receiver);
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  if (stopped()) {
    return true;
  }

  // Build field offset expression.
  // We currently rely on the cookies produced by Unsafe.xxxFieldOffset
  // to be plain byte offsets, which are also the same as those accepted
  // by oopDesc::field_base.
  assert(Unsafe_field_offset_to_byte_offset(11) == 11, "fieldOffset must be byte-scaled");
  // 32-bit machines ignore the high half of long offsets
  offset = ConvL2X(offset);
  Node* adr = make_unsafe_address(base, offset);
  const TypePtr *adr_type = _gvn.type(adr)->isa_ptr();

2761 2762
  // For CAS, unlike inline_unsafe_access, there seems no point in
  // trying to refine types. Just use the coarse types here.
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  const Type *value_type = Type::get_const_basic_type(type);
  Compile::AliasType* alias_type = C->alias_type(adr_type);
  assert(alias_type->index() != Compile::AliasIdxBot, "no bare pointers here");
2766 2767 2768 2769 2770 2771 2772 2773

  if (kind == LS_xchg && type == T_OBJECT) {
    const TypeOopPtr* tjp = sharpen_unsafe_type(alias_type, adr_type);
    if (tjp != NULL) {
      value_type = tjp;
    }
  }

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  int alias_idx = C->get_alias_index(adr_type);

2776 2777 2778
  // Memory-model-wise, a LoadStore acts like a little synchronized
  // block, so needs barriers on each side.  These don't translate
  // into actual barriers on most machines, but we still need rest of
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  // compiler to respect ordering.

  insert_mem_bar(Op_MemBarRelease);
  insert_mem_bar(Op_MemBarCPUOrder);

  // 4984716: MemBars must be inserted before this
  //          memory node in order to avoid a false
  //          dependency which will confuse the scheduler.
  Node *mem = memory(alias_idx);

  // For now, we handle only those cases that actually exist: ints,
  // longs, and Object. Adding others should be straightforward.
2791
  Node* load_store;
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2792 2793
  switch(type) {
  case T_INT:
2794
    if (kind == LS_xadd) {
2795
      load_store = _gvn.transform(new (C) GetAndAddINode(control(), mem, adr, newval, adr_type));
2796
    } else if (kind == LS_xchg) {
2797
      load_store = _gvn.transform(new (C) GetAndSetINode(control(), mem, adr, newval, adr_type));
2798
    } else if (kind == LS_cmpxchg) {
2799
      load_store = _gvn.transform(new (C) CompareAndSwapINode(control(), mem, adr, newval, oldval));
2800 2801 2802
    } else {
      ShouldNotReachHere();
    }
D
duke 已提交
2803 2804
    break;
  case T_LONG:
2805
    if (kind == LS_xadd) {
2806
      load_store = _gvn.transform(new (C) GetAndAddLNode(control(), mem, adr, newval, adr_type));
2807
    } else if (kind == LS_xchg) {
2808
      load_store = _gvn.transform(new (C) GetAndSetLNode(control(), mem, adr, newval, adr_type));
2809
    } else if (kind == LS_cmpxchg) {
2810
      load_store = _gvn.transform(new (C) CompareAndSwapLNode(control(), mem, adr, newval, oldval));
2811 2812 2813
    } else {
      ShouldNotReachHere();
    }
D
duke 已提交
2814 2815
    break;
  case T_OBJECT:
2816 2817 2818 2819 2820 2821 2822
    // Transformation of a value which could be NULL pointer (CastPP #NULL)
    // could be delayed during Parse (for example, in adjust_map_after_if()).
    // Execute transformation here to avoid barrier generation in such case.
    if (_gvn.type(newval) == TypePtr::NULL_PTR)
      newval = _gvn.makecon(TypePtr::NULL_PTR);

    // Reference stores need a store barrier.
2823 2824 2825 2826 2827 2828 2829 2830 2831 2832 2833 2834 2835 2836 2837 2838 2839 2840 2841 2842 2843 2844
    if (kind == LS_xchg) {
      // If pre-barrier must execute before the oop store, old value will require do_load here.
      if (!can_move_pre_barrier()) {
        pre_barrier(true /* do_load*/,
                    control(), base, adr, alias_idx, newval, value_type->make_oopptr(),
                    NULL /* pre_val*/,
                    T_OBJECT);
      } // Else move pre_barrier to use load_store value, see below.
    } else if (kind == LS_cmpxchg) {
      // Same as for newval above:
      if (_gvn.type(oldval) == TypePtr::NULL_PTR) {
        oldval = _gvn.makecon(TypePtr::NULL_PTR);
      }
      // The only known value which might get overwritten is oldval.
      pre_barrier(false /* do_load */,
                  control(), NULL, NULL, max_juint, NULL, NULL,
                  oldval /* pre_val */,
                  T_OBJECT);
    } else {
      ShouldNotReachHere();
    }

2845
#ifdef _LP64
2846
    if (adr->bottom_type()->is_ptr_to_narrowoop()) {
2847
      Node *newval_enc = _gvn.transform(new (C) EncodePNode(newval, newval->bottom_type()->make_narrowoop()));
2848
      if (kind == LS_xchg) {
2849
        load_store = _gvn.transform(new (C) GetAndSetNNode(control(), mem, adr,
2850 2851 2852
                                                              newval_enc, adr_type, value_type->make_narrowoop()));
      } else {
        assert(kind == LS_cmpxchg, "wrong LoadStore operation");
2853 2854
        Node *oldval_enc = _gvn.transform(new (C) EncodePNode(oldval, oldval->bottom_type()->make_narrowoop()));
        load_store = _gvn.transform(new (C) CompareAndSwapNNode(control(), mem, adr,
2855 2856
                                                                   newval_enc, oldval_enc));
      }
2857 2858
    } else
#endif
2859
    {
2860
      if (kind == LS_xchg) {
2861
        load_store = _gvn.transform(new (C) GetAndSetPNode(control(), mem, adr, newval, adr_type, value_type->is_oopptr()));
2862 2863
      } else {
        assert(kind == LS_cmpxchg, "wrong LoadStore operation");
2864
        load_store = _gvn.transform(new (C) CompareAndSwapPNode(control(), mem, adr, newval, oldval));
2865
      }
2866
    }
2867
    post_barrier(control(), load_store, base, adr, alias_idx, newval, T_OBJECT, true);
D
duke 已提交
2868 2869
    break;
  default:
2870
    fatal(err_msg_res("unexpected type %d: %s", type, type2name(type)));
D
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2871 2872 2873
    break;
  }

2874 2875 2876
  // SCMemProjNodes represent the memory state of a LoadStore. Their
  // main role is to prevent LoadStore nodes from being optimized away
  // when their results aren't used.
2877
  Node* proj = _gvn.transform(new (C) SCMemProjNode(load_store));
D
duke 已提交
2878 2879
  set_memory(proj, alias_idx);

2880 2881 2882 2883 2884 2885 2886 2887 2888 2889 2890 2891 2892 2893 2894 2895 2896
  if (type == T_OBJECT && kind == LS_xchg) {
#ifdef _LP64
    if (adr->bottom_type()->is_ptr_to_narrowoop()) {
      load_store = _gvn.transform(new (C) DecodeNNode(load_store, load_store->get_ptr_type()));
    }
#endif
    if (can_move_pre_barrier()) {
      // Don't need to load pre_val. The old value is returned by load_store.
      // The pre_barrier can execute after the xchg as long as no safepoint
      // gets inserted between them.
      pre_barrier(false /* do_load */,
                  control(), NULL, NULL, max_juint, NULL, NULL,
                  load_store /* pre_val */,
                  T_OBJECT);
    }
  }

D
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2897 2898 2899 2900
  // Add the trailing membar surrounding the access
  insert_mem_bar(Op_MemBarCPUOrder);
  insert_mem_bar(Op_MemBarAcquire);

2901
  assert(type2size[load_store->bottom_type()->basic_type()] == type2size[rtype], "result type should match");
2902
  set_result(load_store);
D
duke 已提交
2903 2904 2905
  return true;
}

2906 2907 2908 2909
//----------------------------inline_unsafe_ordered_store----------------------
// public native void sun.misc.Unsafe.putOrderedObject(Object o, long offset, Object x);
// public native void sun.misc.Unsafe.putOrderedInt(Object o, long offset, int x);
// public native void sun.misc.Unsafe.putOrderedLong(Object o, long offset, long x);
D
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2910 2911 2912 2913 2914 2915 2916 2917 2918 2919 2920
bool LibraryCallKit::inline_unsafe_ordered_store(BasicType type) {
  // This is another variant of inline_unsafe_access, differing in
  // that it always issues store-store ("release") barrier and ensures
  // store-atomicity (which only matters for "long").

  if (callee()->is_static())  return false;  // caller must have the capability!

#ifndef PRODUCT
  {
    ResourceMark rm;
    // Check the signatures.
2921
    ciSignature* sig = callee()->signature();
D
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2922 2923 2924 2925 2926 2927 2928 2929 2930 2931 2932 2933
#ifdef ASSERT
    BasicType rtype = sig->return_type()->basic_type();
    assert(rtype == T_VOID, "must return void");
    assert(sig->count() == 3, "has 3 arguments");
    assert(sig->type_at(0)->basic_type() == T_OBJECT, "base is object");
    assert(sig->type_at(1)->basic_type() == T_LONG, "offset is long");
#endif // ASSERT
  }
#endif //PRODUCT

  C->set_has_unsafe_access(true);  // Mark eventual nmethod as "unsafe".

2934 2935 2936 2937 2938 2939 2940 2941
  // Get arguments:
  Node* receiver = argument(0);  // type: oop
  Node* base     = argument(1);  // type: oop
  Node* offset   = argument(2);  // type: long
  Node* val      = argument(4);  // type: oop, int, or long

  // Null check receiver.
  receiver = null_check(receiver);
D
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2942 2943 2944 2945 2946 2947 2948 2949 2950 2951 2952 2953 2954 2955 2956 2957
  if (stopped()) {
    return true;
  }

  // Build field offset expression.
  assert(Unsafe_field_offset_to_byte_offset(11) == 11, "fieldOffset must be byte-scaled");
  // 32-bit machines ignore the high half of long offsets
  offset = ConvL2X(offset);
  Node* adr = make_unsafe_address(base, offset);
  const TypePtr *adr_type = _gvn.type(adr)->isa_ptr();
  const Type *value_type = Type::get_const_basic_type(type);
  Compile::AliasType* alias_type = C->alias_type(adr_type);

  insert_mem_bar(Op_MemBarRelease);
  insert_mem_bar(Op_MemBarCPUOrder);
  // Ensure that the store is atomic for longs:
2958
  const bool require_atomic_access = true;
D
duke 已提交
2959 2960
  Node* store;
  if (type == T_OBJECT) // reference stores need a store barrier.
N
never 已提交
2961
    store = store_oop_to_unknown(control(), base, adr, adr_type, val, type);
D
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2962 2963 2964 2965 2966 2967 2968
  else {
    store = store_to_memory(control(), adr, val, type, adr_type, require_atomic_access);
  }
  insert_mem_bar(Op_MemBarCPUOrder);
  return true;
}

2969 2970 2971 2972 2973 2974 2975 2976 2977 2978 2979 2980 2981 2982 2983 2984 2985 2986 2987 2988
bool LibraryCallKit::inline_unsafe_fence(vmIntrinsics::ID id) {
  // Regardless of form, don't allow previous ld/st to move down,
  // then issue acquire, release, or volatile mem_bar.
  insert_mem_bar(Op_MemBarCPUOrder);
  switch(id) {
    case vmIntrinsics::_loadFence:
      insert_mem_bar(Op_MemBarAcquire);
      return true;
    case vmIntrinsics::_storeFence:
      insert_mem_bar(Op_MemBarRelease);
      return true;
    case vmIntrinsics::_fullFence:
      insert_mem_bar(Op_MemBarVolatile);
      return true;
    default:
      fatal_unexpected_iid(id);
      return false;
  }
}

R
rbackman 已提交
2989 2990 2991 2992 2993 2994 2995 2996 2997 2998 2999 3000 3001
bool LibraryCallKit::klass_needs_init_guard(Node* kls) {
  if (!kls->is_Con()) {
    return true;
  }
  const TypeKlassPtr* klsptr = kls->bottom_type()->isa_klassptr();
  if (klsptr == NULL) {
    return true;
  }
  ciInstanceKlass* ik = klsptr->klass()->as_instance_klass();
  // don't need a guard for a klass that is already initialized
  return !ik->is_initialized();
}

3002
//----------------------------inline_unsafe_allocate---------------------------
R
rbackman 已提交
3003
// public native Object sun.misc.Unsafe.allocateInstance(Class<?> cls);
D
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3004 3005
bool LibraryCallKit::inline_unsafe_allocate() {
  if (callee()->is_static())  return false;  // caller must have the capability!
3006 3007 3008

  null_check_receiver();  // null-check, then ignore
  Node* cls = null_check(argument(1));
D
duke 已提交
3009 3010
  if (stopped())  return true;

3011 3012
  Node* kls = load_klass_from_mirror(cls, false, NULL, 0);
  kls = null_check(kls);
D
duke 已提交
3013 3014
  if (stopped())  return true;  // argument was like int.class

R
rbackman 已提交
3015 3016 3017 3018 3019 3020 3021 3022 3023 3024 3025 3026 3027
  Node* test = NULL;
  if (LibraryCallKit::klass_needs_init_guard(kls)) {
    // Note:  The argument might still be an illegal value like
    // Serializable.class or Object[].class.   The runtime will handle it.
    // But we must make an explicit check for initialization.
    Node* insp = basic_plus_adr(kls, in_bytes(InstanceKlass::init_state_offset()));
    // Use T_BOOLEAN for InstanceKlass::_init_state so the compiler
    // can generate code to load it as unsigned byte.
    Node* inst = make_load(NULL, insp, TypeInt::UBYTE, T_BOOLEAN);
    Node* bits = intcon(InstanceKlass::fully_initialized);
    test = _gvn.transform(new (C) SubINode(inst, bits));
    // The 'test' is non-zero if we need to take a slow path.
  }
D
duke 已提交
3028 3029

  Node* obj = new_instance(kls, test);
3030
  set_result(obj);
D
duke 已提交
3031 3032 3033
  return true;
}

3034 3035 3036 3037 3038 3039 3040
#ifdef TRACE_HAVE_INTRINSICS
/*
 * oop -> myklass
 * myklass->trace_id |= USED
 * return myklass->trace_id & ~0x3
 */
bool LibraryCallKit::inline_native_classID() {
3041 3042 3043 3044
  null_check_receiver();  // null-check, then ignore
  Node* cls = null_check(argument(1), T_OBJECT);
  Node* kls = load_klass_from_mirror(cls, false, NULL, 0);
  kls = null_check(kls, T_OBJECT);
3045 3046 3047 3048
  ByteSize offset = TRACE_ID_OFFSET;
  Node* insp = basic_plus_adr(kls, in_bytes(offset));
  Node* tvalue = make_load(NULL, insp, TypeLong::LONG, T_LONG);
  Node* bits = longcon(~0x03l); // ignore bit 0 & 1
3049
  Node* andl = _gvn.transform(new (C) AndLNode(tvalue, bits));
3050
  Node* clsused = longcon(0x01l); // set the class bit
3051
  Node* orl = _gvn.transform(new (C) OrLNode(tvalue, clsused));
3052 3053 3054

  const TypePtr *adr_type = _gvn.type(insp)->isa_ptr();
  store_to_memory(control(), insp, orl, T_LONG, adr_type);
3055
  set_result(andl);
3056 3057 3058 3059 3060 3061 3062 3063 3064 3065 3066 3067 3068 3069 3070 3071 3072 3073 3074
  return true;
}

bool LibraryCallKit::inline_native_threadID() {
  Node* tls_ptr = NULL;
  Node* cur_thr = generate_current_thread(tls_ptr);
  Node* p = basic_plus_adr(top()/*!oop*/, tls_ptr, in_bytes(JavaThread::osthread_offset()));
  Node* osthread = make_load(NULL, p, TypeRawPtr::NOTNULL, T_ADDRESS);
  p = basic_plus_adr(top()/*!oop*/, osthread, in_bytes(OSThread::thread_id_offset()));

  Node* threadid = NULL;
  size_t thread_id_size = OSThread::thread_id_size();
  if (thread_id_size == (size_t) BytesPerLong) {
    threadid = ConvL2I(make_load(control(), p, TypeLong::LONG, T_LONG));
  } else if (thread_id_size == (size_t) BytesPerInt) {
    threadid = make_load(control(), p, TypeInt::INT, T_INT);
  } else {
    ShouldNotReachHere();
  }
3075
  set_result(threadid);
3076 3077 3078 3079
  return true;
}
#endif

D
duke 已提交
3080 3081 3082
//------------------------inline_native_time_funcs--------------
// inline code for System.currentTimeMillis() and System.nanoTime()
// these have the same type and signature
3083
bool LibraryCallKit::inline_native_time_funcs(address funcAddr, const char* funcName) {
3084
  const TypeFunc* tf = OptoRuntime::void_long_Type();
D
duke 已提交
3085 3086
  const TypePtr* no_memory_effects = NULL;
  Node* time = make_runtime_call(RC_LEAF, tf, funcAddr, funcName, no_memory_effects);
3087
  Node* value = _gvn.transform(new (C) ProjNode(time, TypeFunc::Parms+0));
D
duke 已提交
3088
#ifdef ASSERT
3089
  Node* value_top = _gvn.transform(new (C) ProjNode(time, TypeFunc::Parms+1));
D
duke 已提交
3090 3091
  assert(value_top == top(), "second value must be top");
#endif
3092
  set_result(value);
D
duke 已提交
3093 3094 3095 3096 3097 3098
  return true;
}

//------------------------inline_native_currentThread------------------
bool LibraryCallKit::inline_native_currentThread() {
  Node* junk = NULL;
3099
  set_result(generate_current_thread(junk));
D
duke 已提交
3100 3101 3102 3103
  return true;
}

//------------------------inline_native_isInterrupted------------------
3104
// private native boolean java.lang.Thread.isInterrupted(boolean ClearInterrupted);
D
duke 已提交
3105 3106 3107 3108 3109 3110 3111 3112 3113 3114 3115 3116
bool LibraryCallKit::inline_native_isInterrupted() {
  // Add a fast path to t.isInterrupted(clear_int):
  //   (t == Thread.current() && (!TLS._osthread._interrupted || !clear_int))
  //   ? TLS._osthread._interrupted : /*slow path:*/ t.isInterrupted(clear_int)
  // So, in the common case that the interrupt bit is false,
  // we avoid making a call into the VM.  Even if the interrupt bit
  // is true, if the clear_int argument is false, we avoid the VM call.
  // However, if the receiver is not currentThread, we must call the VM,
  // because there must be some locking done around the operation.

  // We only go to the fast case code if we pass two guards.
  // Paths which do not pass are accumulated in the slow_region.
3117 3118 3119 3120 3121 3122 3123 3124 3125 3126 3127 3128 3129 3130 3131

  enum {
    no_int_result_path   = 1, // t == Thread.current() && !TLS._osthread._interrupted
    no_clear_result_path = 2, // t == Thread.current() &&  TLS._osthread._interrupted && !clear_int
    slow_result_path     = 3, // slow path: t.isInterrupted(clear_int)
    PATH_LIMIT
  };

  // Ensure that it's not possible to move the load of TLS._osthread._interrupted flag
  // out of the function.
  insert_mem_bar(Op_MemBarCPUOrder);

  RegionNode* result_rgn = new (C) RegionNode(PATH_LIMIT);
  PhiNode*    result_val = new (C) PhiNode(result_rgn, TypeInt::BOOL);

3132
  RegionNode* slow_region = new (C) RegionNode(1);
D
duke 已提交
3133 3134 3135 3136 3137 3138
  record_for_igvn(slow_region);

  // (a) Receiving thread must be the current thread.
  Node* rec_thr = argument(0);
  Node* tls_ptr = NULL;
  Node* cur_thr = generate_current_thread(tls_ptr);
3139 3140
  Node* cmp_thr = _gvn.transform(new (C) CmpPNode(cur_thr, rec_thr));
  Node* bol_thr = _gvn.transform(new (C) BoolNode(cmp_thr, BoolTest::ne));
D
duke 已提交
3141

3142
  generate_slow_guard(bol_thr, slow_region);
D
duke 已提交
3143 3144 3145 3146 3147

  // (b) Interrupt bit on TLS must be false.
  Node* p = basic_plus_adr(top()/*!oop*/, tls_ptr, in_bytes(JavaThread::osthread_offset()));
  Node* osthread = make_load(NULL, p, TypeRawPtr::NOTNULL, T_ADDRESS);
  p = basic_plus_adr(top()/*!oop*/, osthread, in_bytes(OSThread::interrupted_offset()));
3148

3149 3150
  // Set the control input on the field _interrupted read to prevent it floating up.
  Node* int_bit = make_load(control(), p, TypeInt::BOOL, T_INT);
3151 3152
  Node* cmp_bit = _gvn.transform(new (C) CmpINode(int_bit, intcon(0)));
  Node* bol_bit = _gvn.transform(new (C) BoolNode(cmp_bit, BoolTest::ne));
D
duke 已提交
3153 3154 3155 3156

  IfNode* iff_bit = create_and_map_if(control(), bol_bit, PROB_UNLIKELY_MAG(3), COUNT_UNKNOWN);

  // First fast path:  if (!TLS._interrupted) return false;
3157
  Node* false_bit = _gvn.transform(new (C) IfFalseNode(iff_bit));
D
duke 已提交
3158 3159 3160 3161
  result_rgn->init_req(no_int_result_path, false_bit);
  result_val->init_req(no_int_result_path, intcon(0));

  // drop through to next case
3162
  set_control( _gvn.transform(new (C) IfTrueNode(iff_bit)));
D
duke 已提交
3163 3164 3165

  // (c) Or, if interrupt bit is set and clear_int is false, use 2nd fast path.
  Node* clr_arg = argument(1);
3166 3167
  Node* cmp_arg = _gvn.transform(new (C) CmpINode(clr_arg, intcon(0)));
  Node* bol_arg = _gvn.transform(new (C) BoolNode(cmp_arg, BoolTest::ne));
D
duke 已提交
3168 3169 3170
  IfNode* iff_arg = create_and_map_if(control(), bol_arg, PROB_FAIR, COUNT_UNKNOWN);

  // Second fast path:  ... else if (!clear_int) return true;
3171
  Node* false_arg = _gvn.transform(new (C) IfFalseNode(iff_arg));
D
duke 已提交
3172 3173 3174 3175
  result_rgn->init_req(no_clear_result_path, false_arg);
  result_val->init_req(no_clear_result_path, intcon(1));

  // drop through to next case
3176
  set_control( _gvn.transform(new (C) IfTrueNode(iff_arg)));
D
duke 已提交
3177 3178 3179

  // (d) Otherwise, go to the slow path.
  slow_region->add_req(control());
3180
  set_control( _gvn.transform(slow_region));
D
duke 已提交
3181 3182 3183 3184 3185 3186 3187 3188 3189 3190 3191 3192 3193 3194

  if (stopped()) {
    // There is no slow path.
    result_rgn->init_req(slow_result_path, top());
    result_val->init_req(slow_result_path, top());
  } else {
    // non-virtual because it is a private non-static
    CallJavaNode* slow_call = generate_method_call(vmIntrinsics::_isInterrupted);

    Node* slow_val = set_results_for_java_call(slow_call);
    // this->control() comes from set_results_for_java_call

    Node* fast_io  = slow_call->in(TypeFunc::I_O);
    Node* fast_mem = slow_call->in(TypeFunc::Memory);
3195

D
duke 已提交
3196
    // These two phis are pre-filled with copies of of the fast IO and Memory
3197 3198
    PhiNode* result_mem  = PhiNode::make(result_rgn, fast_mem, Type::MEMORY, TypePtr::BOTTOM);
    PhiNode* result_io   = PhiNode::make(result_rgn, fast_io,  Type::ABIO);
D
duke 已提交
3199 3200

    result_rgn->init_req(slow_result_path, control());
3201 3202
    result_io ->init_req(slow_result_path, i_o());
    result_mem->init_req(slow_result_path, reset_memory());
D
duke 已提交
3203 3204
    result_val->init_req(slow_result_path, slow_val);

3205 3206
    set_all_memory(_gvn.transform(result_mem));
    set_i_o(       _gvn.transform(result_io));
D
duke 已提交
3207 3208 3209
  }

  C->set_has_split_ifs(true); // Has chance for split-if optimization
3210
  set_result(result_rgn, result_val);
D
duke 已提交
3211 3212 3213 3214 3215 3216
  return true;
}

//---------------------------load_mirror_from_klass----------------------------
// Given a klass oop, load its java mirror (a java.lang.Class oop).
Node* LibraryCallKit::load_mirror_from_klass(Node* klass) {
3217
  Node* p = basic_plus_adr(klass, in_bytes(Klass::java_mirror_offset()));
D
duke 已提交
3218 3219 3220 3221 3222 3223 3224 3225 3226 3227 3228 3229 3230 3231 3232 3233 3234 3235
  return make_load(NULL, p, TypeInstPtr::MIRROR, T_OBJECT);
}

//-----------------------load_klass_from_mirror_common-------------------------
// Given a java mirror (a java.lang.Class oop), load its corresponding klass oop.
// Test the klass oop for null (signifying a primitive Class like Integer.TYPE),
// and branch to the given path on the region.
// If never_see_null, take an uncommon trap on null, so we can optimistically
// compile for the non-null case.
// If the region is NULL, force never_see_null = true.
Node* LibraryCallKit::load_klass_from_mirror_common(Node* mirror,
                                                    bool never_see_null,
                                                    RegionNode* region,
                                                    int null_path,
                                                    int offset) {
  if (region == NULL)  never_see_null = true;
  Node* p = basic_plus_adr(mirror, offset);
  const TypeKlassPtr*  kls_type = TypeKlassPtr::OBJECT_OR_NULL;
3236
  Node* kls = _gvn.transform( LoadKlassNode::make(_gvn, immutable_memory(), p, TypeRawPtr::BOTTOM, kls_type));
D
duke 已提交
3237 3238 3239 3240 3241 3242 3243 3244 3245 3246 3247 3248 3249 3250 3251 3252 3253
  Node* null_ctl = top();
  kls = null_check_oop(kls, &null_ctl, never_see_null);
  if (region != NULL) {
    // Set region->in(null_path) if the mirror is a primitive (e.g, int.class).
    region->init_req(null_path, null_ctl);
  } else {
    assert(null_ctl == top(), "no loose ends");
  }
  return kls;
}

//--------------------(inline_native_Class_query helpers)---------------------
// Use this for JVM_ACC_INTERFACE, JVM_ACC_IS_CLONEABLE, JVM_ACC_HAS_FINALIZER.
// Fall through if (mods & mask) == bits, take the guard otherwise.
Node* LibraryCallKit::generate_access_flags_guard(Node* kls, int modifier_mask, int modifier_bits, RegionNode* region) {
  // Branch around if the given klass has the given modifier bit set.
  // Like generate_guard, adds a new path onto the region.
3254
  Node* modp = basic_plus_adr(kls, in_bytes(Klass::access_flags_offset()));
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  Node* mods = make_load(NULL, modp, TypeInt::INT, T_INT);
  Node* mask = intcon(modifier_mask);
  Node* bits = intcon(modifier_bits);
3258 3259 3260
  Node* mbit = _gvn.transform(new (C) AndINode(mods, mask));
  Node* cmp  = _gvn.transform(new (C) CmpINode(mbit, bits));
  Node* bol  = _gvn.transform(new (C) BoolNode(cmp, BoolTest::ne));
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  return generate_fair_guard(bol, region);
}
Node* LibraryCallKit::generate_interface_guard(Node* kls, RegionNode* region) {
  return generate_access_flags_guard(kls, JVM_ACC_INTERFACE, 0, region);
}

//-------------------------inline_native_Class_query-------------------
bool LibraryCallKit::inline_native_Class_query(vmIntrinsics::ID id) {
  const Type* return_type = TypeInt::BOOL;
  Node* prim_return_value = top();  // what happens if it's a primitive class?
  bool never_see_null = !too_many_traps(Deoptimization::Reason_null_check);
  bool expect_prim = false;     // most of these guys expect to work on refs

  enum { _normal_path = 1, _prim_path = 2, PATH_LIMIT };

3276 3277 3278
  Node* mirror = argument(0);
  Node* obj    = top();

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  switch (id) {
  case vmIntrinsics::_isInstance:
    // nothing is an instance of a primitive type
    prim_return_value = intcon(0);
3283
    obj = argument(1);
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    break;
  case vmIntrinsics::_getModifiers:
    prim_return_value = intcon(JVM_ACC_ABSTRACT | JVM_ACC_FINAL | JVM_ACC_PUBLIC);
    assert(is_power_of_2((int)JVM_ACC_WRITTEN_FLAGS+1), "change next line");
    return_type = TypeInt::make(0, JVM_ACC_WRITTEN_FLAGS, Type::WidenMin);
    break;
  case vmIntrinsics::_isInterface:
    prim_return_value = intcon(0);
    break;
  case vmIntrinsics::_isArray:
    prim_return_value = intcon(0);
    expect_prim = true;  // cf. ObjectStreamClass.getClassSignature
    break;
  case vmIntrinsics::_isPrimitive:
    prim_return_value = intcon(1);
    expect_prim = true;  // obviously
    break;
  case vmIntrinsics::_getSuperclass:
    prim_return_value = null();
    return_type = TypeInstPtr::MIRROR->cast_to_ptr_type(TypePtr::BotPTR);
    break;
  case vmIntrinsics::_getComponentType:
    prim_return_value = null();
    return_type = TypeInstPtr::MIRROR->cast_to_ptr_type(TypePtr::BotPTR);
    break;
  case vmIntrinsics::_getClassAccessFlags:
    prim_return_value = intcon(JVM_ACC_ABSTRACT | JVM_ACC_FINAL | JVM_ACC_PUBLIC);
    return_type = TypeInt::INT;  // not bool!  6297094
    break;
  default:
3314 3315
    fatal_unexpected_iid(id);
    break;
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3316 3317 3318 3319 3320 3321
  }

  const TypeInstPtr* mirror_con = _gvn.type(mirror)->isa_instptr();
  if (mirror_con == NULL)  return false;  // cannot happen?

#ifndef PRODUCT
3322
  if (C->print_intrinsics() || C->print_inlining()) {
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3323 3324 3325 3326 3327 3328 3329 3330 3331 3332
    ciType* k = mirror_con->java_mirror_type();
    if (k) {
      tty->print("Inlining %s on constant Class ", vmIntrinsics::name_at(intrinsic_id()));
      k->print_name();
      tty->cr();
    }
  }
#endif

  // Null-check the mirror, and the mirror's klass ptr (in case it is a primitive).
3333
  RegionNode* region = new (C) RegionNode(PATH_LIMIT);
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3334
  record_for_igvn(region);
3335
  PhiNode* phi = new (C) PhiNode(region, return_type);
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3336 3337 3338 3339 3340 3341 3342 3343

  // The mirror will never be null of Reflection.getClassAccessFlags, however
  // it may be null for Class.isInstance or Class.getModifiers. Throw a NPE
  // if it is. See bug 4774291.

  // For Reflection.getClassAccessFlags(), the null check occurs in
  // the wrong place; see inline_unsafe_access(), above, for a similar
  // situation.
3344
  mirror = null_check(mirror);
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  // If mirror or obj is dead, only null-path is taken.
  if (stopped())  return true;

  if (expect_prim)  never_see_null = false;  // expect nulls (meaning prims)

  // Now load the mirror's klass metaobject, and null-check it.
  // Side-effects region with the control path if the klass is null.
3352
  Node* kls = load_klass_from_mirror(mirror, never_see_null, region, _prim_path);
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  // If kls is null, we have a primitive mirror.
  phi->init_req(_prim_path, prim_return_value);
3355
  if (stopped()) { set_result(region, phi); return true; }
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  Node* p;  // handy temp
  Node* null_ctl;

  // Now that we have the non-null klass, we can perform the real query.
  // For constant classes, the query will constant-fold in LoadNode::Value.
  Node* query_value = top();
  switch (id) {
  case vmIntrinsics::_isInstance:
    // nothing is an instance of a primitive type
    query_value = gen_instanceof(obj, kls);
    break;

  case vmIntrinsics::_getModifiers:
3370
    p = basic_plus_adr(kls, in_bytes(Klass::modifier_flags_offset()));
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    query_value = make_load(NULL, p, TypeInt::INT, T_INT);
    break;

  case vmIntrinsics::_isInterface:
    // (To verify this code sequence, check the asserts in JVM_IsInterface.)
    if (generate_interface_guard(kls, region) != NULL)
      // A guard was added.  If the guard is taken, it was an interface.
      phi->add_req(intcon(1));
    // If we fall through, it's a plain class.
    query_value = intcon(0);
    break;

  case vmIntrinsics::_isArray:
    // (To verify this code sequence, check the asserts in JVM_IsArrayClass.)
    if (generate_array_guard(kls, region) != NULL)
      // A guard was added.  If the guard is taken, it was an array.
      phi->add_req(intcon(1));
    // If we fall through, it's a plain class.
    query_value = intcon(0);
    break;

  case vmIntrinsics::_isPrimitive:
    query_value = intcon(0); // "normal" path produces false
    break;

  case vmIntrinsics::_getSuperclass:
    // The rules here are somewhat unfortunate, but we can still do better
    // with random logic than with a JNI call.
    // Interfaces store null or Object as _super, but must report null.
    // Arrays store an intermediate super as _super, but must report Object.
    // Other types can report the actual _super.
    // (To verify this code sequence, check the asserts in JVM_IsInterface.)
    if (generate_interface_guard(kls, region) != NULL)
      // A guard was added.  If the guard is taken, it was an interface.
      phi->add_req(null());
    if (generate_array_guard(kls, region) != NULL)
      // A guard was added.  If the guard is taken, it was an array.
      phi->add_req(makecon(TypeInstPtr::make(env()->Object_klass()->java_mirror())));
    // If we fall through, it's a plain class.  Get its _super.
3410
    p = basic_plus_adr(kls, in_bytes(Klass::super_offset()));
3411
    kls = _gvn.transform( LoadKlassNode::make(_gvn, immutable_memory(), p, TypeRawPtr::BOTTOM, TypeKlassPtr::OBJECT_OR_NULL));
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3412 3413 3414 3415 3416 3417 3418 3419 3420 3421 3422 3423 3424 3425 3426 3427
    null_ctl = top();
    kls = null_check_oop(kls, &null_ctl);
    if (null_ctl != top()) {
      // If the guard is taken, Object.superClass is null (both klass and mirror).
      region->add_req(null_ctl);
      phi   ->add_req(null());
    }
    if (!stopped()) {
      query_value = load_mirror_from_klass(kls);
    }
    break;

  case vmIntrinsics::_getComponentType:
    if (generate_array_guard(kls, region) != NULL) {
      // Be sure to pin the oop load to the guard edge just created:
      Node* is_array_ctrl = region->in(region->req()-1);
3428
      Node* cma = basic_plus_adr(kls, in_bytes(ArrayKlass::component_mirror_offset()));
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3429 3430 3431 3432 3433 3434 3435
      Node* cmo = make_load(is_array_ctrl, cma, TypeInstPtr::MIRROR, T_OBJECT);
      phi->add_req(cmo);
    }
    query_value = null();  // non-array case is null
    break;

  case vmIntrinsics::_getClassAccessFlags:
3436
    p = basic_plus_adr(kls, in_bytes(Klass::access_flags_offset()));
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3437 3438 3439 3440
    query_value = make_load(NULL, p, TypeInt::INT, T_INT);
    break;

  default:
3441 3442
    fatal_unexpected_iid(id);
    break;
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3443 3444 3445 3446 3447 3448 3449
  }

  // Fall-through is the normal case of a query to a real class.
  phi->init_req(1, query_value);
  region->init_req(1, control());

  C->set_has_split_ifs(true); // Has chance for split-if optimization
3450
  set_result(region, phi);
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3451 3452 3453 3454 3455 3456 3457 3458 3459 3460 3461 3462 3463 3464 3465 3466 3467 3468 3469 3470 3471 3472 3473 3474 3475
  return true;
}

//--------------------------inline_native_subtype_check------------------------
// This intrinsic takes the JNI calls out of the heart of
// UnsafeFieldAccessorImpl.set, which improves Field.set, readObject, etc.
bool LibraryCallKit::inline_native_subtype_check() {
  // Pull both arguments off the stack.
  Node* args[2];                // two java.lang.Class mirrors: superc, subc
  args[0] = argument(0);
  args[1] = argument(1);
  Node* klasses[2];             // corresponding Klasses: superk, subk
  klasses[0] = klasses[1] = top();

  enum {
    // A full decision tree on {superc is prim, subc is prim}:
    _prim_0_path = 1,           // {P,N} => false
                                // {P,P} & superc!=subc => false
    _prim_same_path,            // {P,P} & superc==subc => true
    _prim_1_path,               // {N,P} => false
    _ref_subtype_path,          // {N,N} & subtype check wins => true
    _both_ref_path,             // {N,N} & subtype check loses => false
    PATH_LIMIT
  };

3476 3477
  RegionNode* region = new (C) RegionNode(PATH_LIMIT);
  Node*       phi    = new (C) PhiNode(region, TypeInt::BOOL);
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  record_for_igvn(region);

  const TypePtr* adr_type = TypeRawPtr::BOTTOM;   // memory type of loads
  const TypeKlassPtr* kls_type = TypeKlassPtr::OBJECT_OR_NULL;
  int class_klass_offset = java_lang_Class::klass_offset_in_bytes();

  // First null-check both mirrors and load each mirror's klass metaobject.
  int which_arg;
  for (which_arg = 0; which_arg <= 1; which_arg++) {
    Node* arg = args[which_arg];
3488
    arg = null_check(arg);
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3489
    if (stopped())  break;
3490
    args[which_arg] = arg;
D
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3491 3492

    Node* p = basic_plus_adr(arg, class_klass_offset);
3493
    Node* kls = LoadKlassNode::make(_gvn, immutable_memory(), p, adr_type, kls_type);
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    klasses[which_arg] = _gvn.transform(kls);
  }

  // Having loaded both klasses, test each for null.
  bool never_see_null = !too_many_traps(Deoptimization::Reason_null_check);
  for (which_arg = 0; which_arg <= 1; which_arg++) {
    Node* kls = klasses[which_arg];
    Node* null_ctl = top();
    kls = null_check_oop(kls, &null_ctl, never_see_null);
    int prim_path = (which_arg == 0 ? _prim_0_path : _prim_1_path);
    region->init_req(prim_path, null_ctl);
    if (stopped())  break;
    klasses[which_arg] = kls;
  }

  if (!stopped()) {
    // now we have two reference types, in klasses[0..1]
    Node* subk   = klasses[1];  // the argument to isAssignableFrom
    Node* superk = klasses[0];  // the receiver
    region->set_req(_both_ref_path, gen_subtype_check(subk, superk));
    // now we have a successful reference subtype check
    region->set_req(_ref_subtype_path, control());
  }

  // If both operands are primitive (both klasses null), then
  // we must return true when they are identical primitives.
  // It is convenient to test this after the first null klass check.
  set_control(region->in(_prim_0_path)); // go back to first null check
  if (!stopped()) {
    // Since superc is primitive, make a guard for the superc==subc case.
3524 3525
    Node* cmp_eq = _gvn.transform(new (C) CmpPNode(args[0], args[1]));
    Node* bol_eq = _gvn.transform(new (C) BoolNode(cmp_eq, BoolTest::eq));
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3526 3527 3528 3529 3530 3531 3532 3533 3534 3535 3536 3537 3538 3539 3540 3541 3542 3543 3544 3545 3546 3547 3548 3549 3550 3551
    generate_guard(bol_eq, region, PROB_FAIR);
    if (region->req() == PATH_LIMIT+1) {
      // A guard was added.  If the added guard is taken, superc==subc.
      region->swap_edges(PATH_LIMIT, _prim_same_path);
      region->del_req(PATH_LIMIT);
    }
    region->set_req(_prim_0_path, control()); // Not equal after all.
  }

  // these are the only paths that produce 'true':
  phi->set_req(_prim_same_path,   intcon(1));
  phi->set_req(_ref_subtype_path, intcon(1));

  // pull together the cases:
  assert(region->req() == PATH_LIMIT, "sane region");
  for (uint i = 1; i < region->req(); i++) {
    Node* ctl = region->in(i);
    if (ctl == NULL || ctl == top()) {
      region->set_req(i, top());
      phi   ->set_req(i, top());
    } else if (phi->in(i) == NULL) {
      phi->set_req(i, intcon(0)); // all other paths produce 'false'
    }
  }

  set_control(_gvn.transform(region));
3552
  set_result(_gvn.transform(phi));
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  return true;
}

//---------------------generate_array_guard_common------------------------
Node* LibraryCallKit::generate_array_guard_common(Node* kls, RegionNode* region,
                                                  bool obj_array, bool not_array) {
  // If obj_array/non_array==false/false:
  // Branch around if the given klass is in fact an array (either obj or prim).
  // If obj_array/non_array==false/true:
  // Branch around if the given klass is not an array klass of any kind.
  // If obj_array/non_array==true/true:
  // Branch around if the kls is not an oop array (kls is int[], String, etc.)
  // If obj_array/non_array==true/false:
  // Branch around if the kls is an oop array (Object[] or subtype)
  //
  // Like generate_guard, adds a new path onto the region.
  jint  layout_con = 0;
  Node* layout_val = get_layout_helper(kls, layout_con);
  if (layout_val == NULL) {
    bool query = (obj_array
                  ? Klass::layout_helper_is_objArray(layout_con)
3574
                  : Klass::layout_helper_is_array(layout_con));
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    if (query == not_array) {
      return NULL;                       // never a branch
    } else {                             // always a branch
      Node* always_branch = control();
      if (region != NULL)
        region->add_req(always_branch);
      set_control(top());
      return always_branch;
    }
  }
  // Now test the correct condition.
  jint  nval = (obj_array
                ? ((jint)Klass::_lh_array_tag_type_value
                   <<    Klass::_lh_array_tag_shift)
                : Klass::_lh_neutral_value);
3590
  Node* cmp = _gvn.transform(new(C) CmpINode(layout_val, intcon(nval)));
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3591 3592 3593
  BoolTest::mask btest = BoolTest::lt;  // correct for testing is_[obj]array
  // invert the test if we are looking for a non-array
  if (not_array)  btest = BoolTest(btest).negate();
3594
  Node* bol = _gvn.transform(new(C) BoolNode(cmp, btest));
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  return generate_fair_guard(bol, region);
}


//-----------------------inline_native_newArray--------------------------
3600
// private static native Object java.lang.reflect.newArray(Class<?> componentType, int length);
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bool LibraryCallKit::inline_native_newArray() {
  Node* mirror    = argument(0);
  Node* count_val = argument(1);

3605
  mirror = null_check(mirror);
3606 3607
  // If mirror or obj is dead, only null-path is taken.
  if (stopped())  return true;
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3608 3609

  enum { _normal_path = 1, _slow_path = 2, PATH_LIMIT };
3610 3611 3612 3613 3614 3615
  RegionNode* result_reg = new(C) RegionNode(PATH_LIMIT);
  PhiNode*    result_val = new(C) PhiNode(result_reg,
                                          TypeInstPtr::NOTNULL);
  PhiNode*    result_io  = new(C) PhiNode(result_reg, Type::ABIO);
  PhiNode*    result_mem = new(C) PhiNode(result_reg, Type::MEMORY,
                                          TypePtr::BOTTOM);
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3616 3617 3618 3619 3620 3621 3622 3623 3624 3625 3626 3627 3628 3629 3630 3631 3632 3633 3634 3635 3636 3637 3638 3639 3640 3641 3642 3643 3644

  bool never_see_null = !too_many_traps(Deoptimization::Reason_null_check);
  Node* klass_node = load_array_klass_from_mirror(mirror, never_see_null,
                                                  result_reg, _slow_path);
  Node* normal_ctl   = control();
  Node* no_array_ctl = result_reg->in(_slow_path);

  // Generate code for the slow case.  We make a call to newArray().
  set_control(no_array_ctl);
  if (!stopped()) {
    // Either the input type is void.class, or else the
    // array klass has not yet been cached.  Either the
    // ensuing call will throw an exception, or else it
    // will cache the array klass for next time.
    PreserveJVMState pjvms(this);
    CallJavaNode* slow_call = generate_method_call_static(vmIntrinsics::_newArray);
    Node* slow_result = set_results_for_java_call(slow_call);
    // this->control() comes from set_results_for_java_call
    result_reg->set_req(_slow_path, control());
    result_val->set_req(_slow_path, slow_result);
    result_io ->set_req(_slow_path, i_o());
    result_mem->set_req(_slow_path, reset_memory());
  }

  set_control(normal_ctl);
  if (!stopped()) {
    // Normal case:  The array type has been cached in the java.lang.Class.
    // The following call works fine even if the array type is polymorphic.
    // It could be a dynamic mix of int[], boolean[], Object[], etc.
3645
    Node* obj = new_array(klass_node, count_val, 0);  // no arguments to push
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    result_reg->init_req(_normal_path, control());
    result_val->init_req(_normal_path, obj);
    result_io ->init_req(_normal_path, i_o());
    result_mem->init_req(_normal_path, reset_memory());
  }

  // Return the combined state.
  set_i_o(        _gvn.transform(result_io)  );
3654
  set_all_memory( _gvn.transform(result_mem));
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3655

3656 3657
  C->set_has_split_ifs(true); // Has chance for split-if optimization
  set_result(result_reg, result_val);
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  return true;
}

//----------------------inline_native_getLength--------------------------
3662
// public static native int java.lang.reflect.Array.getLength(Object array);
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bool LibraryCallKit::inline_native_getLength() {
  if (too_many_traps(Deoptimization::Reason_intrinsic))  return false;

3666
  Node* array = null_check(argument(0));
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  // If array is dead, only null-path is taken.
  if (stopped())  return true;

  // Deoptimize if it is a non-array.
  Node* non_array = generate_non_array_guard(load_object_klass(array), NULL);

  if (non_array != NULL) {
    PreserveJVMState pjvms(this);
    set_control(non_array);
    uncommon_trap(Deoptimization::Reason_intrinsic,
                  Deoptimization::Action_maybe_recompile);
  }

  // If control is dead, only non-array-path is taken.
  if (stopped())  return true;

  // The works fine even if the array type is polymorphic.
  // It could be a dynamic mix of int[], boolean[], Object[], etc.
3685
  Node* result = load_array_length(array);
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3686

3687 3688
  C->set_has_split_ifs(true);  // Has chance for split-if optimization
  set_result(result);
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  return true;
}

//------------------------inline_array_copyOf----------------------------
3693 3694
// public static <T,U> T[] java.util.Arrays.copyOf(     U[] original, int newLength,         Class<? extends T[]> newType);
// public static <T,U> T[] java.util.Arrays.copyOfRange(U[] original, int from,      int to, Class<? extends T[]> newType);
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bool LibraryCallKit::inline_array_copyOf(bool is_copyOfRange) {
  if (too_many_traps(Deoptimization::Reason_intrinsic))  return false;

3698
  // Get the arguments.
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  Node* original          = argument(0);
  Node* start             = is_copyOfRange? argument(1): intcon(0);
  Node* end               = is_copyOfRange? argument(2): argument(1);
  Node* array_type_mirror = is_copyOfRange? argument(3): argument(2);

3704
  Node* newcopy;
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3705

3706 3707
  // Set the original stack and the reexecute bit for the interpreter to reexecute
  // the bytecode that invokes Arrays.copyOf if deoptimization happens.
3708 3709
  { PreserveReexecuteState preexecs(this);
    jvms()->set_should_reexecute(true);
D
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3710

3711 3712
    array_type_mirror = null_check(array_type_mirror);
    original          = null_check(original);
D
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3713

3714 3715
    // Check if a null path was taken unconditionally.
    if (stopped())  return true;
D
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3716

3717
    Node* orig_length = load_array_length(original);
D
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3718

3719 3720
    Node* klass_node = load_klass_from_mirror(array_type_mirror, false, NULL, 0);
    klass_node = null_check(klass_node);
D
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3721

3722
    RegionNode* bailout = new (C) RegionNode(1);
3723
    record_for_igvn(bailout);
D
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3724

3725 3726 3727 3728 3729 3730 3731
    // Despite the generic type of Arrays.copyOf, the mirror might be int, int[], etc.
    // Bail out if that is so.
    Node* not_objArray = generate_non_objArray_guard(klass_node, bailout);
    if (not_objArray != NULL) {
      // Improve the klass node's type from the new optimistic assumption:
      ciKlass* ak = ciArrayKlass::make(env()->Object_klass());
      const Type* akls = TypeKlassPtr::make(TypePtr::NotNull, ak, 0/*offset*/);
3732
      Node* cast = new (C) CastPPNode(klass_node, akls);
3733 3734 3735
      cast->init_req(0, control());
      klass_node = _gvn.transform(cast);
    }
D
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3736

3737 3738 3739
    // Bail out if either start or end is negative.
    generate_negative_guard(start, bailout, &start);
    generate_negative_guard(end,   bailout, &end);
D
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3740

3741 3742
    Node* length = end;
    if (_gvn.type(start) != TypeInt::ZERO) {
3743
      length = _gvn.transform(new (C) SubINode(end, start));
3744 3745 3746
    }

    // Bail out if length is negative.
3747 3748 3749 3750
    // Without this the new_array would throw
    // NegativeArraySizeException but IllegalArgumentException is what
    // should be thrown
    generate_negative_guard(length, bailout, &length);
3751 3752 3753

    if (bailout->req() > 1) {
      PreserveJVMState pjvms(this);
3754
      set_control(_gvn.transform(bailout));
3755 3756 3757 3758 3759
      uncommon_trap(Deoptimization::Reason_intrinsic,
                    Deoptimization::Action_maybe_recompile);
    }

    if (!stopped()) {
3760 3761
      // How many elements will we copy from the original?
      // The answer is MinI(orig_length - start, length).
3762
      Node* orig_tail = _gvn.transform(new (C) SubINode(orig_length, start));
3763 3764
      Node* moved = generate_min_max(vmIntrinsics::_min, orig_tail, length);

3765
      newcopy = new_array(klass_node, length, 0);  // no argments to push
3766 3767 3768 3769 3770 3771 3772

      // Generate a direct call to the right arraycopy function(s).
      // We know the copy is disjoint but we might not know if the
      // oop stores need checking.
      // Extreme case:  Arrays.copyOf((Integer[])x, 10, String[].class).
      // This will fail a store-check if x contains any non-nulls.
      bool disjoint_bases = true;
3773 3774 3775
      // if start > orig_length then the length of the copy may be
      // negative.
      bool length_never_negative = !is_copyOfRange;
3776 3777 3778
      generate_arraycopy(TypeAryPtr::OOPS, T_OBJECT,
                         original, start, newcopy, intcon(0), moved,
                         disjoint_bases, length_never_negative);
3779
    }
3780
  } // original reexecute is set back here
D
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3781 3782

  C->set_has_split_ifs(true); // Has chance for split-if optimization
3783 3784 3785
  if (!stopped()) {
    set_result(newcopy);
  }
D
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3786 3787 3788 3789 3790 3791 3792 3793 3794 3795
  return true;
}


//----------------------generate_virtual_guard---------------------------
// Helper for hashCode and clone.  Peeks inside the vtable to avoid a call.
Node* LibraryCallKit::generate_virtual_guard(Node* obj_klass,
                                             RegionNode* slow_region) {
  ciMethod* method = callee();
  int vtable_index = method->vtable_index();
3796 3797
  assert(vtable_index >= 0 || vtable_index == Method::nonvirtual_vtable_index,
         err_msg_res("bad index %d", vtable_index));
3798 3799
  // Get the Method* out of the appropriate vtable entry.
  int entry_offset  = (InstanceKlass::vtable_start_offset() +
D
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3800 3801 3802
                     vtable_index*vtableEntry::size()) * wordSize +
                     vtableEntry::method_offset_in_bytes();
  Node* entry_addr  = basic_plus_adr(obj_klass, entry_offset);
3803
  Node* target_call = make_load(NULL, entry_addr, TypePtr::NOTNULL, T_ADDRESS);
D
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3804 3805

  // Compare the target method with the expected method (e.g., Object.hashCode).
3806
  const TypePtr* native_call_addr = TypeMetadataPtr::make(method);
D
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3807 3808

  Node* native_call = makecon(native_call_addr);
3809 3810
  Node* chk_native  = _gvn.transform(new(C) CmpPNode(target_call, native_call));
  Node* test_native = _gvn.transform(new(C) BoolNode(chk_native, BoolTest::ne));
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3811 3812 3813 3814 3815 3816 3817 3818 3819 3820 3821 3822 3823 3824 3825 3826 3827 3828 3829 3830 3831 3832 3833 3834

  return generate_slow_guard(test_native, slow_region);
}

//-----------------------generate_method_call----------------------------
// Use generate_method_call to make a slow-call to the real
// method if the fast path fails.  An alternative would be to
// use a stub like OptoRuntime::slow_arraycopy_Java.
// This only works for expanding the current library call,
// not another intrinsic.  (E.g., don't use this for making an
// arraycopy call inside of the copyOf intrinsic.)
CallJavaNode*
LibraryCallKit::generate_method_call(vmIntrinsics::ID method_id, bool is_virtual, bool is_static) {
  // When compiling the intrinsic method itself, do not use this technique.
  guarantee(callee() != C->method(), "cannot make slow-call to self");

  ciMethod* method = callee();
  // ensure the JVMS we have will be correct for this call
  guarantee(method_id == method->intrinsic_id(), "must match");

  const TypeFunc* tf = TypeFunc::make(method);
  CallJavaNode* slow_call;
  if (is_static) {
    assert(!is_virtual, "");
3835
    slow_call = new(C) CallStaticJavaNode(C, tf,
3836 3837
                           SharedRuntime::get_resolve_static_call_stub(),
                           method, bci());
D
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3838
  } else if (is_virtual) {
3839
    null_check_receiver();
3840
    int vtable_index = Method::invalid_vtable_index;
D
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3841 3842 3843 3844 3845 3846 3847
    if (UseInlineCaches) {
      // Suppress the vtable call
    } else {
      // hashCode and clone are not a miranda methods,
      // so the vtable index is fixed.
      // No need to use the linkResolver to get it.
       vtable_index = method->vtable_index();
3848 3849
       assert(vtable_index >= 0 || vtable_index == Method::nonvirtual_vtable_index,
              err_msg_res("bad index %d", vtable_index));
D
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3850
    }
3851 3852 3853
    slow_call = new(C) CallDynamicJavaNode(tf,
                          SharedRuntime::get_resolve_virtual_call_stub(),
                          method, vtable_index, bci());
D
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3854
  } else {  // neither virtual nor static:  opt_virtual
3855
    null_check_receiver();
3856
    slow_call = new(C) CallStaticJavaNode(C, tf,
D
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3857 3858 3859 3860 3861 3862 3863 3864 3865 3866 3867 3868 3869 3870 3871 3872 3873 3874
                                SharedRuntime::get_resolve_opt_virtual_call_stub(),
                                method, bci());
    slow_call->set_optimized_virtual(true);
  }
  set_arguments_for_java_call(slow_call);
  set_edges_for_java_call(slow_call);
  return slow_call;
}


//------------------------------inline_native_hashcode--------------------
// Build special case code for calls to hashCode on an object.
bool LibraryCallKit::inline_native_hashcode(bool is_virtual, bool is_static) {
  assert(is_static == callee()->is_static(), "correct intrinsic selection");
  assert(!(is_virtual && is_static), "either virtual, special, or static");

  enum { _slow_path = 1, _fast_path, _null_path, PATH_LIMIT };

3875 3876 3877 3878 3879 3880
  RegionNode* result_reg = new(C) RegionNode(PATH_LIMIT);
  PhiNode*    result_val = new(C) PhiNode(result_reg,
                                          TypeInt::INT);
  PhiNode*    result_io  = new(C) PhiNode(result_reg, Type::ABIO);
  PhiNode*    result_mem = new(C) PhiNode(result_reg, Type::MEMORY,
                                          TypePtr::BOTTOM);
D
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3881 3882 3883
  Node* obj = NULL;
  if (!is_static) {
    // Check for hashing null object
3884
    obj = null_check_receiver();
D
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3885 3886 3887 3888 3889 3890 3891 3892 3893 3894 3895 3896 3897 3898 3899
    if (stopped())  return true;        // unconditionally null
    result_reg->init_req(_null_path, top());
    result_val->init_req(_null_path, top());
  } else {
    // Do a null check, and return zero if null.
    // System.identityHashCode(null) == 0
    obj = argument(0);
    Node* null_ctl = top();
    obj = null_check_oop(obj, &null_ctl);
    result_reg->init_req(_null_path, null_ctl);
    result_val->init_req(_null_path, _gvn.intcon(0));
  }

  // Unconditionally null?  Then return right away.
  if (stopped()) {
3900
    set_control( result_reg->in(_null_path));
D
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3901
    if (!stopped())
3902
      set_result(result_val->in(_null_path));
D
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3903 3904 3905 3906 3907 3908 3909 3910 3911 3912 3913
    return true;
  }

  // After null check, get the object's klass.
  Node* obj_klass = load_object_klass(obj);

  // This call may be virtual (invokevirtual) or bound (invokespecial).
  // For each case we generate slightly different code.

  // We only go to the fast case code if we pass a number of guards.  The
  // paths which do not pass are accumulated in the slow_region.
3914
  RegionNode* slow_region = new (C) RegionNode(1);
D
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3915 3916 3917 3918 3919 3920 3921 3922 3923 3924 3925 3926 3927 3928
  record_for_igvn(slow_region);

  // If this is a virtual call, we generate a funny guard.  We pull out
  // the vtable entry corresponding to hashCode() from the target object.
  // If the target method which we are calling happens to be the native
  // Object hashCode() method, we pass the guard.  We do not need this
  // guard for non-virtual calls -- the caller is known to be the native
  // Object hashCode().
  if (is_virtual) {
    generate_virtual_guard(obj_klass, slow_region);
  }

  // Get the header out of the object, use LoadMarkNode when available
  Node* header_addr = basic_plus_adr(obj, oopDesc::mark_offset_in_bytes());
3929
  Node* header = make_load(control(), header_addr, TypeX_X, TypeX_X->basic_type());
D
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3930 3931 3932

  // Test the header to see if it is unlocked.
  Node *lock_mask      = _gvn.MakeConX(markOopDesc::biased_lock_mask_in_place);
3933
  Node *lmasked_header = _gvn.transform(new (C) AndXNode(header, lock_mask));
D
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3934
  Node *unlocked_val   = _gvn.MakeConX(markOopDesc::unlocked_value);
3935 3936
  Node *chk_unlocked   = _gvn.transform(new (C) CmpXNode( lmasked_header, unlocked_val));
  Node *test_unlocked  = _gvn.transform(new (C) BoolNode( chk_unlocked, BoolTest::ne));
D
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3937 3938 3939 3940 3941 3942 3943 3944 3945

  generate_slow_guard(test_unlocked, slow_region);

  // Get the hash value and check to see that it has been properly assigned.
  // We depend on hash_mask being at most 32 bits and avoid the use of
  // hash_mask_in_place because it could be larger than 32 bits in a 64-bit
  // vm: see markOop.hpp.
  Node *hash_mask      = _gvn.intcon(markOopDesc::hash_mask);
  Node *hash_shift     = _gvn.intcon(markOopDesc::hash_shift);
3946
  Node *hshifted_header= _gvn.transform(new (C) URShiftXNode(header, hash_shift));
D
duke 已提交
3947
  // This hack lets the hash bits live anywhere in the mark object now, as long
T
twisti 已提交
3948
  // as the shift drops the relevant bits into the low 32 bits.  Note that
D
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3949 3950 3951
  // Java spec says that HashCode is an int so there's no point in capturing
  // an 'X'-sized hashcode (32 in 32-bit build or 64 in 64-bit build).
  hshifted_header      = ConvX2I(hshifted_header);
3952
  Node *hash_val       = _gvn.transform(new (C) AndINode(hshifted_header, hash_mask));
D
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3953 3954

  Node *no_hash_val    = _gvn.intcon(markOopDesc::no_hash);
3955 3956
  Node *chk_assigned   = _gvn.transform(new (C) CmpINode( hash_val, no_hash_val));
  Node *test_assigned  = _gvn.transform(new (C) BoolNode( chk_assigned, BoolTest::eq));
D
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3957 3958 3959 3960 3961 3962 3963 3964 3965 3966 3967 3968 3969 3970 3971 3972 3973 3974

  generate_slow_guard(test_assigned, slow_region);

  Node* init_mem = reset_memory();
  // fill in the rest of the null path:
  result_io ->init_req(_null_path, i_o());
  result_mem->init_req(_null_path, init_mem);

  result_val->init_req(_fast_path, hash_val);
  result_reg->init_req(_fast_path, control());
  result_io ->init_req(_fast_path, i_o());
  result_mem->init_req(_fast_path, init_mem);

  // Generate code for the slow case.  We make a call to hashCode().
  set_control(_gvn.transform(slow_region));
  if (!stopped()) {
    // No need for PreserveJVMState, because we're using up the present state.
    set_all_memory(init_mem);
3975
    vmIntrinsics::ID hashCode_id = is_static ? vmIntrinsics::_identityHashCode : vmIntrinsics::_hashCode;
D
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3976 3977 3978 3979 3980 3981 3982 3983 3984 3985 3986
    CallJavaNode* slow_call = generate_method_call(hashCode_id, is_virtual, is_static);
    Node* slow_result = set_results_for_java_call(slow_call);
    // this->control() comes from set_results_for_java_call
    result_reg->init_req(_slow_path, control());
    result_val->init_req(_slow_path, slow_result);
    result_io  ->set_req(_slow_path, i_o());
    result_mem ->set_req(_slow_path, reset_memory());
  }

  // Return the combined state.
  set_i_o(        _gvn.transform(result_io)  );
3987
  set_all_memory( _gvn.transform(result_mem));
D
duke 已提交
3988

3989
  set_result(result_reg, result_val);
D
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3990 3991 3992 3993
  return true;
}

//---------------------------inline_native_getClass----------------------------
3994 3995
// public final native Class<?> java.lang.Object.getClass();
//
T
twisti 已提交
3996
// Build special case code for calls to getClass on an object.
D
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3997
bool LibraryCallKit::inline_native_getClass() {
3998
  Node* obj = null_check_receiver();
D
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3999
  if (stopped())  return true;
4000
  set_result(load_mirror_from_klass(load_object_klass(obj)));
D
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4001 4002 4003 4004
  return true;
}

//-----------------inline_native_Reflection_getCallerClass---------------------
4005
// public static native Class<?> sun.reflect.Reflection.getCallerClass();
4006
//
D
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4007 4008
// In the presence of deep enough inlining, getCallerClass() becomes a no-op.
//
4009 4010 4011
// NOTE: This code must perform the same logic as JVM_GetCallerClass
// in that it must skip particular security frames and checks for
// caller sensitive methods.
D
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4012 4013
bool LibraryCallKit::inline_native_Reflection_getCallerClass() {
#ifndef PRODUCT
4014
  if ((C->print_intrinsics() || C->print_inlining()) && Verbose) {
D
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4015 4016 4017 4018 4019 4020
    tty->print_cr("Attempting to inline sun.reflect.Reflection.getCallerClass");
  }
#endif

  if (!jvms()->has_method()) {
#ifndef PRODUCT
4021
    if ((C->print_intrinsics() || C->print_inlining()) && Verbose) {
D
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4022 4023 4024 4025 4026 4027 4028
      tty->print_cr("  Bailing out because intrinsic was inlined at top level");
    }
#endif
    return false;
  }

  // Walk back up the JVM state to find the caller at the required
4029 4030 4031 4032 4033 4034 4035 4036 4037 4038 4039 4040 4041 4042 4043 4044
  // depth.
  JVMState* caller_jvms = jvms();

  // Cf. JVM_GetCallerClass
  // NOTE: Start the loop at depth 1 because the current JVM state does
  // not include the Reflection.getCallerClass() frame.
  for (int n = 1; caller_jvms != NULL; caller_jvms = caller_jvms->caller(), n++) {
    ciMethod* m = caller_jvms->method();
    switch (n) {
    case 0:
      fatal("current JVM state does not include the Reflection.getCallerClass frame");
      break;
    case 1:
      // Frame 0 and 1 must be caller sensitive (see JVM_GetCallerClass).
      if (!m->caller_sensitive()) {
#ifndef PRODUCT
4045
        if ((C->print_intrinsics() || C->print_inlining()) && Verbose) {
4046 4047 4048 4049
          tty->print_cr("  Bailing out: CallerSensitive annotation expected at frame %d", n);
        }
#endif
        return false;  // bail-out; let JVM_GetCallerClass do the work
D
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4050
      }
4051 4052 4053 4054 4055 4056 4057 4058
      break;
    default:
      if (!m->is_ignored_by_security_stack_walk()) {
        // We have reached the desired frame; return the holder class.
        // Acquire method holder as java.lang.Class and push as constant.
        ciInstanceKlass* caller_klass = caller_jvms->method()->holder();
        ciInstance* caller_mirror = caller_klass->java_mirror();
        set_result(makecon(TypeInstPtr::make(caller_mirror)));
D
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4059 4060

#ifndef PRODUCT
4061
        if ((C->print_intrinsics() || C->print_inlining()) && Verbose) {
4062 4063 4064 4065 4066 4067 4068 4069 4070
          tty->print_cr("  Succeeded: caller = %d) %s.%s, JVMS depth = %d", n, caller_klass->name()->as_utf8(), caller_jvms->method()->name()->as_utf8(), jvms()->depth());
          tty->print_cr("  JVM state at this point:");
          for (int i = jvms()->depth(), n = 1; i >= 1; i--, n++) {
            ciMethod* m = jvms()->of_depth(i)->method();
            tty->print_cr("   %d) %s.%s", n, m->holder()->name()->as_utf8(), m->name()->as_utf8());
          }
        }
#endif
        return true;
D
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4071
      }
4072
      break;
D
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4073 4074 4075 4076
    }
  }

#ifndef PRODUCT
4077
  if ((C->print_intrinsics() || C->print_inlining()) && Verbose) {
4078
    tty->print_cr("  Bailing out because caller depth exceeded inlining depth = %d", jvms()->depth());
D
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4079
    tty->print_cr("  JVM state at this point:");
4080
    for (int i = jvms()->depth(), n = 1; i >= 1; i--, n++) {
4081
      ciMethod* m = jvms()->of_depth(i)->method();
4082
      tty->print_cr("   %d) %s.%s", n, m->holder()->name()->as_utf8(), m->name()->as_utf8());
D
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4083 4084 4085 4086
    }
  }
#endif

4087
  return false;  // bail-out; let JVM_GetCallerClass do the work
D
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4088 4089 4090
}

bool LibraryCallKit::inline_fp_conversions(vmIntrinsics::ID id) {
4091 4092
  Node* arg = argument(0);
  Node* result;
D
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4093 4094

  switch (id) {
4095 4096 4097 4098
  case vmIntrinsics::_floatToRawIntBits:    result = new (C) MoveF2INode(arg);  break;
  case vmIntrinsics::_intBitsToFloat:       result = new (C) MoveI2FNode(arg);  break;
  case vmIntrinsics::_doubleToRawLongBits:  result = new (C) MoveD2LNode(arg);  break;
  case vmIntrinsics::_longBitsToDouble:     result = new (C) MoveL2DNode(arg);  break;
D
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4099 4100 4101

  case vmIntrinsics::_doubleToLongBits: {
    // two paths (plus control) merge in a wood
4102 4103
    RegionNode *r = new (C) RegionNode(3);
    Node *phi = new (C) PhiNode(r, TypeLong::LONG);
D
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4104

4105
    Node *cmpisnan = _gvn.transform(new (C) CmpDNode(arg, arg));
D
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4106
    // Build the boolean node
4107
    Node *bolisnan = _gvn.transform(new (C) BoolNode(cmpisnan, BoolTest::ne));
D
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4108 4109 4110 4111 4112 4113 4114

    // Branch either way.
    // NaN case is less traveled, which makes all the difference.
    IfNode *ifisnan = create_and_xform_if(control(), bolisnan, PROB_STATIC_FREQUENT, COUNT_UNKNOWN);
    Node *opt_isnan = _gvn.transform(ifisnan);
    assert( opt_isnan->is_If(), "Expect an IfNode");
    IfNode *opt_ifisnan = (IfNode*)opt_isnan;
4115
    Node *iftrue = _gvn.transform(new (C) IfTrueNode(opt_ifisnan));
D
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4116 4117 4118 4119 4120 4121 4122 4123 4124

    set_control(iftrue);

    static const jlong nan_bits = CONST64(0x7ff8000000000000);
    Node *slow_result = longcon(nan_bits); // return NaN
    phi->init_req(1, _gvn.transform( slow_result ));
    r->init_req(1, iftrue);

    // Else fall through
4125
    Node *iffalse = _gvn.transform(new (C) IfFalseNode(opt_ifisnan));
D
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4126 4127
    set_control(iffalse);

4128
    phi->init_req(2, _gvn.transform(new (C) MoveD2LNode(arg)));
D
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4129 4130 4131 4132 4133 4134 4135
    r->init_req(2, iffalse);

    // Post merge
    set_control(_gvn.transform(r));
    record_for_igvn(r);

    C->set_has_split_ifs(true); // Has chance for split-if optimization
4136 4137
    result = phi;
    assert(result->bottom_type()->isa_long(), "must be");
D
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4138 4139 4140 4141 4142
    break;
  }

  case vmIntrinsics::_floatToIntBits: {
    // two paths (plus control) merge in a wood
4143 4144
    RegionNode *r = new (C) RegionNode(3);
    Node *phi = new (C) PhiNode(r, TypeInt::INT);
D
duke 已提交
4145

4146
    Node *cmpisnan = _gvn.transform(new (C) CmpFNode(arg, arg));
D
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4147
    // Build the boolean node
4148
    Node *bolisnan = _gvn.transform(new (C) BoolNode(cmpisnan, BoolTest::ne));
D
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4149 4150 4151 4152 4153 4154 4155

    // Branch either way.
    // NaN case is less traveled, which makes all the difference.
    IfNode *ifisnan = create_and_xform_if(control(), bolisnan, PROB_STATIC_FREQUENT, COUNT_UNKNOWN);
    Node *opt_isnan = _gvn.transform(ifisnan);
    assert( opt_isnan->is_If(), "Expect an IfNode");
    IfNode *opt_ifisnan = (IfNode*)opt_isnan;
4156
    Node *iftrue = _gvn.transform(new (C) IfTrueNode(opt_ifisnan));
D
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4157 4158 4159 4160 4161 4162 4163 4164 4165

    set_control(iftrue);

    static const jint nan_bits = 0x7fc00000;
    Node *slow_result = makecon(TypeInt::make(nan_bits)); // return NaN
    phi->init_req(1, _gvn.transform( slow_result ));
    r->init_req(1, iftrue);

    // Else fall through
4166
    Node *iffalse = _gvn.transform(new (C) IfFalseNode(opt_ifisnan));
D
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4167 4168
    set_control(iffalse);

4169
    phi->init_req(2, _gvn.transform(new (C) MoveF2INode(arg)));
D
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4170 4171 4172 4173 4174 4175 4176
    r->init_req(2, iffalse);

    // Post merge
    set_control(_gvn.transform(r));
    record_for_igvn(r);

    C->set_has_split_ifs(true); // Has chance for split-if optimization
4177 4178
    result = phi;
    assert(result->bottom_type()->isa_int(), "must be");
D
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4179 4180 4181 4182
    break;
  }

  default:
4183 4184
    fatal_unexpected_iid(id);
    break;
D
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4185
  }
4186
  set_result(_gvn.transform(result));
D
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4187 4188 4189 4190 4191 4192 4193 4194 4195 4196
  return true;
}

#ifdef _LP64
#define XTOP ,top() /*additional argument*/
#else  //_LP64
#define XTOP        /*no additional argument*/
#endif //_LP64

//----------------------inline_unsafe_copyMemory-------------------------
4197
// public native void sun.misc.Unsafe.copyMemory(Object srcBase, long srcOffset, Object destBase, long destOffset, long bytes);
D
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4198 4199
bool LibraryCallKit::inline_unsafe_copyMemory() {
  if (callee()->is_static())  return false;  // caller must have the capability!
4200
  null_check_receiver();  // null-check receiver
D
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4201 4202 4203 4204
  if (stopped())  return true;

  C->set_has_unsafe_access(true);  // Mark eventual nmethod as "unsafe".

4205 4206 4207 4208 4209
  Node* src_ptr =         argument(1);   // type: oop
  Node* src_off = ConvL2X(argument(2));  // type: long
  Node* dst_ptr =         argument(4);   // type: oop
  Node* dst_off = ConvL2X(argument(5));  // type: long
  Node* size    = ConvL2X(argument(7));  // type: long
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4210 4211 4212 4213 4214 4215 4216 4217 4218 4219 4220 4221 4222 4223 4224 4225 4226 4227 4228 4229 4230 4231 4232 4233 4234

  assert(Unsafe_field_offset_to_byte_offset(11) == 11,
         "fieldOffset must be byte-scaled");

  Node* src = make_unsafe_address(src_ptr, src_off);
  Node* dst = make_unsafe_address(dst_ptr, dst_off);

  // Conservatively insert a memory barrier on all memory slices.
  // Do not let writes of the copy source or destination float below the copy.
  insert_mem_bar(Op_MemBarCPUOrder);

  // Call it.  Note that the length argument is not scaled.
  make_runtime_call(RC_LEAF|RC_NO_FP,
                    OptoRuntime::fast_arraycopy_Type(),
                    StubRoutines::unsafe_arraycopy(),
                    "unsafe_arraycopy",
                    TypeRawPtr::BOTTOM,
                    src, dst, size XTOP);

  // Do not let reads of the copy destination float above the copy.
  insert_mem_bar(Op_MemBarCPUOrder);

  return true;
}

4235 4236 4237 4238 4239 4240 4241
//------------------------clone_coping-----------------------------------
// Helper function for inline_native_clone.
void LibraryCallKit::copy_to_clone(Node* obj, Node* alloc_obj, Node* obj_size, bool is_array, bool card_mark) {
  assert(obj_size != NULL, "");
  Node* raw_obj = alloc_obj->in(1);
  assert(alloc_obj->is_CheckCastPP() && raw_obj->is_Proj() && raw_obj->in(0)->is_Allocate(), "");

4242
  AllocateNode* alloc = NULL;
4243 4244 4245
  if (ReduceBulkZeroing) {
    // We will be completely responsible for initializing this object -
    // mark Initialize node as complete.
4246
    alloc = AllocateNode::Ideal_allocation(alloc_obj, &_gvn);
4247 4248
    // The object was just allocated - there should be no any stores!
    guarantee(alloc != NULL && alloc->maybe_set_complete(&_gvn), "");
4249 4250 4251 4252
    // Mark as complete_with_arraycopy so that on AllocateNode
    // expansion, we know this AllocateNode is initialized by an array
    // copy and a StoreStore barrier exists after the array copy.
    alloc->initialization()->set_complete_with_arraycopy();
4253 4254 4255 4256 4257
  }

  // Copy the fastest available way.
  // TODO: generate fields copies for small objects instead.
  Node* src  = obj;
4258
  Node* dest = alloc_obj;
4259 4260 4261 4262 4263 4264 4265 4266
  Node* size = _gvn.transform(obj_size);

  // Exclude the header but include array length to copy by 8 bytes words.
  // Can't use base_offset_in_bytes(bt) since basic type is unknown.
  int base_off = is_array ? arrayOopDesc::length_offset_in_bytes() :
                            instanceOopDesc::base_offset_in_bytes();
  // base_off:
  // 8  - 32-bit VM
4267 4268
  // 12 - 64-bit VM, compressed klass
  // 16 - 64-bit VM, normal klass
4269
  if (base_off % BytesPerLong != 0) {
4270
    assert(UseCompressedClassPointers, "");
4271 4272 4273 4274 4275 4276 4277 4278 4279 4280 4281 4282 4283 4284
    if (is_array) {
      // Exclude length to copy by 8 bytes words.
      base_off += sizeof(int);
    } else {
      // Include klass to copy by 8 bytes words.
      base_off = instanceOopDesc::klass_offset_in_bytes();
    }
    assert(base_off % BytesPerLong == 0, "expect 8 bytes alignment");
  }
  src  = basic_plus_adr(src,  base_off);
  dest = basic_plus_adr(dest, base_off);

  // Compute the length also, if needed:
  Node* countx = size;
4285 4286
  countx = _gvn.transform(new (C) SubXNode(countx, MakeConX(base_off)));
  countx = _gvn.transform(new (C) URShiftXNode(countx, intcon(LogBytesPerLong) ));
4287 4288 4289 4290

  const TypePtr* raw_adr_type = TypeRawPtr::BOTTOM;
  bool disjoint_bases = true;
  generate_unchecked_arraycopy(raw_adr_type, T_LONG, disjoint_bases,
4291 4292
                               src, NULL, dest, NULL, countx,
                               /*dest_uninitialized*/true);
4293 4294 4295 4296 4297 4298 4299 4300 4301 4302 4303 4304

  // If necessary, emit some card marks afterwards.  (Non-arrays only.)
  if (card_mark) {
    assert(!is_array, "");
    // Put in store barrier for any and all oops we are sticking
    // into this object.  (We could avoid this if we could prove
    // that the object type contains no oop fields at all.)
    Node* no_particular_value = NULL;
    Node* no_particular_field = NULL;
    int raw_adr_idx = Compile::AliasIdxRaw;
    post_barrier(control(),
                 memory(raw_adr_type),
4305
                 alloc_obj,
4306 4307 4308 4309 4310 4311 4312
                 no_particular_field,
                 raw_adr_idx,
                 no_particular_value,
                 T_OBJECT,
                 false);
  }

4313
  // Do not let reads from the cloned object float above the arraycopy.
4314 4315 4316 4317 4318 4319 4320 4321 4322 4323 4324 4325
  if (alloc != NULL) {
    // Do not let stores that initialize this object be reordered with
    // a subsequent store that would make this object accessible by
    // other threads.
    // Record what AllocateNode this StoreStore protects so that
    // escape analysis can go from the MemBarStoreStoreNode to the
    // AllocateNode and eliminate the MemBarStoreStoreNode if possible
    // based on the escape status of the AllocateNode.
    insert_mem_bar(Op_MemBarStoreStore, alloc->proj_out(AllocateNode::RawAddress));
  } else {
    insert_mem_bar(Op_MemBarCPUOrder);
  }
4326
}
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4327 4328

//------------------------inline_native_clone----------------------------
4329 4330
// protected native Object java.lang.Object.clone();
//
D
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4331 4332 4333 4334 4335 4336 4337 4338 4339 4340 4341 4342 4343 4344 4345 4346
// Here are the simple edge cases:
//  null receiver => normal trap
//  virtual and clone was overridden => slow path to out-of-line clone
//  not cloneable or finalizer => slow path to out-of-line Object.clone
//
// The general case has two steps, allocation and copying.
// Allocation has two cases, and uses GraphKit::new_instance or new_array.
//
// Copying also has two cases, oop arrays and everything else.
// Oop arrays use arrayof_oop_arraycopy (same as System.arraycopy).
// Everything else uses the tight inline loop supplied by CopyArrayNode.
//
// These steps fold up nicely if and when the cloned object's klass
// can be sharply typed as an object array, a type array, or an instance.
//
bool LibraryCallKit::inline_native_clone(bool is_virtual) {
4347
  PhiNode* result_val;
D
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4348

4349 4350
  // Set the reexecute bit for the interpreter to reexecute
  // the bytecode that invokes Object.clone if deoptimization happens.
4351 4352 4353
  { PreserveReexecuteState preexecs(this);
    jvms()->set_should_reexecute(true);

4354
    Node* obj = null_check_receiver();
4355 4356 4357 4358 4359 4360 4361 4362 4363 4364 4365 4366 4367 4368 4369 4370 4371 4372 4373 4374
    if (stopped())  return true;

    Node* obj_klass = load_object_klass(obj);
    const TypeKlassPtr* tklass = _gvn.type(obj_klass)->isa_klassptr();
    const TypeOopPtr*   toop   = ((tklass != NULL)
                                ? tklass->as_instance_type()
                                : TypeInstPtr::NOTNULL);

    // Conservatively insert a memory barrier on all memory slices.
    // Do not let writes into the original float below the clone.
    insert_mem_bar(Op_MemBarCPUOrder);

    // paths into result_reg:
    enum {
      _slow_path = 1,     // out-of-line call to clone method (virtual or not)
      _objArray_path,     // plain array allocation, plus arrayof_oop_arraycopy
      _array_path,        // plain array allocation, plus arrayof_long_arraycopy
      _instance_path,     // plain instance allocation, plus arrayof_long_arraycopy
      PATH_LIMIT
    };
4375 4376 4377 4378 4379 4380
    RegionNode* result_reg = new(C) RegionNode(PATH_LIMIT);
    result_val             = new(C) PhiNode(result_reg,
                                            TypeInstPtr::NOTNULL);
    PhiNode*    result_i_o = new(C) PhiNode(result_reg, Type::ABIO);
    PhiNode*    result_mem = new(C) PhiNode(result_reg, Type::MEMORY,
                                            TypePtr::BOTTOM);
4381 4382 4383 4384 4385
    record_for_igvn(result_reg);

    const TypePtr* raw_adr_type = TypeRawPtr::BOTTOM;
    int raw_adr_idx = Compile::AliasIdxRaw;

4386 4387 4388 4389 4390 4391 4392
    Node* array_ctl = generate_array_guard(obj_klass, (RegionNode*)NULL);
    if (array_ctl != NULL) {
      // It's an array.
      PreserveJVMState pjvms(this);
      set_control(array_ctl);
      Node* obj_length = load_array_length(obj);
      Node* obj_size  = NULL;
4393
      Node* alloc_obj = new_array(obj_klass, obj_length, 0, &obj_size);  // no arguments to push
4394 4395 4396 4397 4398 4399 4400 4401 4402 4403 4404 4405 4406 4407 4408 4409 4410 4411 4412 4413 4414 4415

      if (!use_ReduceInitialCardMarks()) {
        // If it is an oop array, it requires very special treatment,
        // because card marking is required on each card of the array.
        Node* is_obja = generate_objArray_guard(obj_klass, (RegionNode*)NULL);
        if (is_obja != NULL) {
          PreserveJVMState pjvms2(this);
          set_control(is_obja);
          // Generate a direct call to the right arraycopy function(s).
          bool disjoint_bases = true;
          bool length_never_negative = true;
          generate_arraycopy(TypeAryPtr::OOPS, T_OBJECT,
                             obj, intcon(0), alloc_obj, intcon(0),
                             obj_length,
                             disjoint_bases, length_never_negative);
          result_reg->init_req(_objArray_path, control());
          result_val->init_req(_objArray_path, alloc_obj);
          result_i_o ->set_req(_objArray_path, i_o());
          result_mem ->set_req(_objArray_path, reset_memory());
        }
      }
      // Otherwise, there are no card marks to worry about.
4416 4417 4418 4419 4420 4421
      // (We can dispense with card marks if we know the allocation
      //  comes out of eden (TLAB)...  In fact, ReduceInitialCardMarks
      //  causes the non-eden paths to take compensating steps to
      //  simulate a fresh allocation, so that no further
      //  card marks are required in compiled code to initialize
      //  the object.)
4422 4423 4424 4425 4426 4427 4428 4429 4430

      if (!stopped()) {
        copy_to_clone(obj, alloc_obj, obj_size, true, false);

        // Present the results of the copy.
        result_reg->init_req(_array_path, control());
        result_val->init_req(_array_path, alloc_obj);
        result_i_o ->set_req(_array_path, i_o());
        result_mem ->set_req(_array_path, reset_memory());
D
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4431 4432
      }
    }
4433

4434 4435
    // We only go to the instance fast case code if we pass a number of guards.
    // The paths which do not pass are accumulated in the slow_region.
4436
    RegionNode* slow_region = new (C) RegionNode(1);
4437
    record_for_igvn(slow_region);
4438
    if (!stopped()) {
4439 4440 4441 4442 4443 4444 4445 4446 4447 4448
      // It's an instance (we did array above).  Make the slow-path tests.
      // If this is a virtual call, we generate a funny guard.  We grab
      // the vtable entry corresponding to clone() from the target object.
      // If the target method which we are calling happens to be the
      // Object clone() method, we pass the guard.  We do not need this
      // guard for non-virtual calls; the caller is known to be the native
      // Object clone().
      if (is_virtual) {
        generate_virtual_guard(obj_klass, slow_region);
      }
4449

4450 4451 4452 4453 4454 4455 4456 4457 4458
      // The object must be cloneable and must not have a finalizer.
      // Both of these conditions may be checked in a single test.
      // We could optimize the cloneable test further, but we don't care.
      generate_access_flags_guard(obj_klass,
                                  // Test both conditions:
                                  JVM_ACC_IS_CLONEABLE | JVM_ACC_HAS_FINALIZER,
                                  // Must be cloneable but not finalizer:
                                  JVM_ACC_IS_CLONEABLE,
                                  slow_region);
4459
    }
D
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4460

4461 4462 4463 4464
    if (!stopped()) {
      // It's an instance, and it passed the slow-path tests.
      PreserveJVMState pjvms(this);
      Node* obj_size  = NULL;
4465
      Node* alloc_obj = new_instance(obj_klass, NULL, &obj_size);
4466 4467 4468 4469 4470 4471 4472 4473

      copy_to_clone(obj, alloc_obj, obj_size, false, !use_ReduceInitialCardMarks());

      // Present the results of the slow call.
      result_reg->init_req(_instance_path, control());
      result_val->init_req(_instance_path, alloc_obj);
      result_i_o ->set_req(_instance_path, i_o());
      result_mem ->set_req(_instance_path, reset_memory());
D
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4474 4475
    }

4476 4477 4478 4479 4480 4481 4482 4483 4484 4485 4486 4487
    // Generate code for the slow case.  We make a call to clone().
    set_control(_gvn.transform(slow_region));
    if (!stopped()) {
      PreserveJVMState pjvms(this);
      CallJavaNode* slow_call = generate_method_call(vmIntrinsics::_clone, is_virtual);
      Node* slow_result = set_results_for_java_call(slow_call);
      // this->control() comes from set_results_for_java_call
      result_reg->init_req(_slow_path, control());
      result_val->init_req(_slow_path, slow_result);
      result_i_o ->set_req(_slow_path, i_o());
      result_mem ->set_req(_slow_path, reset_memory());
    }
D
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4488

4489
    // Return the combined state.
4490 4491 4492
    set_control(    _gvn.transform(result_reg));
    set_i_o(        _gvn.transform(result_i_o));
    set_all_memory( _gvn.transform(result_mem));
4493
  } // original reexecute is set back here
D
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4494

4495
  set_result(_gvn.transform(result_val));
D
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4496 4497 4498 4499 4500 4501 4502 4503
  return true;
}

//------------------------------basictype2arraycopy----------------------------
address LibraryCallKit::basictype2arraycopy(BasicType t,
                                            Node* src_offset,
                                            Node* dest_offset,
                                            bool disjoint_bases,
4504 4505
                                            const char* &name,
                                            bool dest_uninitialized) {
D
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4506 4507 4508 4509 4510 4511 4512 4513 4514 4515 4516 4517 4518 4519 4520 4521
  const TypeInt* src_offset_inttype  = gvn().find_int_type(src_offset);;
  const TypeInt* dest_offset_inttype = gvn().find_int_type(dest_offset);;

  bool aligned = false;
  bool disjoint = disjoint_bases;

  // if the offsets are the same, we can treat the memory regions as
  // disjoint, because either the memory regions are in different arrays,
  // or they are identical (which we can treat as disjoint.)  We can also
  // treat a copy with a destination index  less that the source index
  // as disjoint since a low->high copy will work correctly in this case.
  if (src_offset_inttype != NULL && src_offset_inttype->is_con() &&
      dest_offset_inttype != NULL && dest_offset_inttype->is_con()) {
    // both indices are constants
    int s_offs = src_offset_inttype->get_con();
    int d_offs = dest_offset_inttype->get_con();
4522
    int element_size = type2aelembytes(t);
D
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4523 4524 4525 4526 4527 4528 4529 4530
    aligned = ((arrayOopDesc::base_offset_in_bytes(t) + s_offs * element_size) % HeapWordSize == 0) &&
              ((arrayOopDesc::base_offset_in_bytes(t) + d_offs * element_size) % HeapWordSize == 0);
    if (s_offs >= d_offs)  disjoint = true;
  } else if (src_offset == dest_offset && src_offset != NULL) {
    // This can occur if the offsets are identical non-constants.
    disjoint = true;
  }

4531
  return StubRoutines::select_arraycopy_function(t, aligned, disjoint, name, dest_uninitialized);
D
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4532 4533 4534 4535
}


//------------------------------inline_arraycopy-----------------------
4536 4537 4538
// public static native void java.lang.System.arraycopy(Object src,  int  srcPos,
//                                                      Object dest, int destPos,
//                                                      int length);
D
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4539
bool LibraryCallKit::inline_arraycopy() {
4540 4541 4542 4543 4544 4545
  // Get the arguments.
  Node* src         = argument(0);  // type: oop
  Node* src_offset  = argument(1);  // type: int
  Node* dest        = argument(2);  // type: oop
  Node* dest_offset = argument(3);  // type: int
  Node* length      = argument(4);  // type: int
D
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4546 4547 4548 4549 4550 4551

  // Compile time checks.  If any of these checks cannot be verified at compile time,
  // we do not make a fast path for this call.  Instead, we let the call remain as it
  // is.  The checks we choose to mandate at compile time are:
  //
  // (1) src and dest are arrays.
4552
  const Type* src_type  = src->Value(&_gvn);
D
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4553
  const Type* dest_type = dest->Value(&_gvn);
4554
  const TypeAryPtr* top_src  = src_type->isa_aryptr();
D
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4555 4556 4557 4558 4559 4560 4561 4562 4563
  const TypeAryPtr* top_dest = dest_type->isa_aryptr();
  if (top_src  == NULL || top_src->klass()  == NULL ||
      top_dest == NULL || top_dest->klass() == NULL) {
    // Conservatively insert a memory barrier on all memory slices.
    // Do not let writes into the source float below the arraycopy.
    insert_mem_bar(Op_MemBarCPUOrder);

    // Call StubRoutines::generic_arraycopy stub.
    generate_arraycopy(TypeRawPtr::BOTTOM, T_CONFLICT,
4564
                       src, src_offset, dest, dest_offset, length);
D
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4565 4566 4567 4568 4569 4570 4571 4572 4573 4574 4575 4576 4577 4578 4579 4580 4581 4582 4583 4584 4585 4586

    // Do not let reads from the destination float above the arraycopy.
    // Since we cannot type the arrays, we don't know which slices
    // might be affected.  We could restrict this barrier only to those
    // memory slices which pertain to array elements--but don't bother.
    if (!InsertMemBarAfterArraycopy)
      // (If InsertMemBarAfterArraycopy, there is already one in place.)
      insert_mem_bar(Op_MemBarCPUOrder);
    return true;
  }

  // (2) src and dest arrays must have elements of the same BasicType
  // Figure out the size and type of the elements we will be copying.
  BasicType src_elem  =  top_src->klass()->as_array_klass()->element_type()->basic_type();
  BasicType dest_elem = top_dest->klass()->as_array_klass()->element_type()->basic_type();
  if (src_elem  == T_ARRAY)  src_elem  = T_OBJECT;
  if (dest_elem == T_ARRAY)  dest_elem = T_OBJECT;

  if (src_elem != dest_elem || dest_elem == T_VOID) {
    // The component types are not the same or are not recognized.  Punt.
    // (But, avoid the native method wrapper to JVM_ArrayCopy.)
    generate_slow_arraycopy(TypePtr::BOTTOM,
4587 4588
                            src, src_offset, dest, dest_offset, length,
                            /*dest_uninitialized*/false);
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4589 4590 4591 4592 4593 4594 4595 4596 4597 4598 4599 4600 4601 4602 4603 4604
    return true;
  }

  //---------------------------------------------------------------------------
  // We will make a fast path for this call to arraycopy.

  // We have the following tests left to perform:
  //
  // (3) src and dest must not be null.
  // (4) src_offset must not be negative.
  // (5) dest_offset must not be negative.
  // (6) length must not be negative.
  // (7) src_offset + length must not exceed length of src.
  // (8) dest_offset + length must not exceed length of dest.
  // (9) each element of an oop array must be assignable

4605
  RegionNode* slow_region = new (C) RegionNode(1);
D
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4606 4607 4608
  record_for_igvn(slow_region);

  // (3) operands must not be null
4609
  // We currently perform our null checks with the null_check routine.
D
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4610 4611 4612 4613
  // This means that the null exceptions will be reported in the caller
  // rather than (correctly) reported inside of the native arraycopy call.
  // This should be corrected, given time.  We do our null check with the
  // stack pointer restored.
4614 4615
  src  = null_check(src,  T_ARRAY);
  dest = null_check(dest, T_ARRAY);
D
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4616 4617 4618 4619 4620 4621 4622 4623 4624 4625 4626 4627 4628 4629 4630 4631 4632 4633 4634 4635 4636 4637 4638 4639 4640 4641 4642

  // (4) src_offset must not be negative.
  generate_negative_guard(src_offset, slow_region);

  // (5) dest_offset must not be negative.
  generate_negative_guard(dest_offset, slow_region);

  // (6) length must not be negative (moved to generate_arraycopy()).
  // generate_negative_guard(length, slow_region);

  // (7) src_offset + length must not exceed length of src.
  generate_limit_guard(src_offset, length,
                       load_array_length(src),
                       slow_region);

  // (8) dest_offset + length must not exceed length of dest.
  generate_limit_guard(dest_offset, length,
                       load_array_length(dest),
                       slow_region);

  // (9) each element of an oop array must be assignable
  // The generate_arraycopy subroutine checks this.

  // This is where the memory effects are placed:
  const TypePtr* adr_type = TypeAryPtr::get_array_body_type(dest_elem);
  generate_arraycopy(adr_type, dest_elem,
                     src, src_offset, dest, dest_offset, length,
4643
                     false, false, slow_region);
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  return true;
}

//-----------------------------generate_arraycopy----------------------
// Generate an optimized call to arraycopy.
// Caller must guard against non-arrays.
// Caller must determine a common array basic-type for both arrays.
// Caller must validate offsets against array bounds.
// The slow_region has already collected guard failure paths
// (such as out of bounds length or non-conformable array types).
// The generated code has this shape, in general:
//
//     if (length == 0)  return   // via zero_path
//     slowval = -1
//     if (types unknown) {
//       slowval = call generic copy loop
//       if (slowval == 0)  return  // via checked_path
//     } else if (indexes in bounds) {
//       if ((is object array) && !(array type check)) {
//         slowval = call checked copy loop
//         if (slowval == 0)  return  // via checked_path
//       } else {
//         call bulk copy loop
//         return  // via fast_path
//       }
//     }
//     // adjust params for remaining work:
//     if (slowval != -1) {
//       n = -1^slowval; src_offset += n; dest_offset += n; length -= n
//     }
//   slow_region:
//     call slow arraycopy(src, src_offset, dest, dest_offset, length)
//     return  // via slow_call_path
//
// This routine is used from several intrinsics:  System.arraycopy,
// Object.clone (the array subcase), and Arrays.copyOf[Range].
//
void
LibraryCallKit::generate_arraycopy(const TypePtr* adr_type,
                                   BasicType basic_elem_type,
                                   Node* src,  Node* src_offset,
                                   Node* dest, Node* dest_offset,
                                   Node* copy_length,
                                   bool disjoint_bases,
                                   bool length_never_negative,
                                   RegionNode* slow_region) {

  if (slow_region == NULL) {
4693
    slow_region = new(C) RegionNode(1);
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    record_for_igvn(slow_region);
  }

  Node* original_dest      = dest;
  AllocateArrayNode* alloc = NULL;  // used for zeroing, if needed
4699
  bool  dest_uninitialized = false;
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  // See if this is the initialization of a newly-allocated array.
  // If so, we will take responsibility here for initializing it to zero.
  // (Note:  Because tightly_coupled_allocation performs checks on the
  // out-edges of the dest, we need to avoid making derived pointers
  // from it until we have checked its uses.)
  if (ReduceBulkZeroing
      && !ZeroTLAB              // pointless if already zeroed
      && basic_elem_type != T_CONFLICT // avoid corner case
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      && !src->eqv_uncast(dest)
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      && ((alloc = tightly_coupled_allocation(dest, slow_region))
          != NULL)
4712
      && _gvn.find_int_con(alloc->in(AllocateNode::ALength), 1) > 0
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      && alloc->maybe_set_complete(&_gvn)) {
    // "You break it, you buy it."
    InitializeNode* init = alloc->initialization();
    assert(init->is_complete(), "we just did this");
4717
    init->set_complete_with_arraycopy();
4718
    assert(dest->is_CheckCastPP(), "sanity");
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    assert(dest->in(0)->in(0) == init, "dest pinned");
    adr_type = TypeRawPtr::BOTTOM;  // all initializations are into raw memory
    // From this point on, every exit path is responsible for
    // initializing any non-copied parts of the object to zero.
4723 4724 4725
    // Also, if this flag is set we make sure that arraycopy interacts properly
    // with G1, eliding pre-barriers. See CR 6627983.
    dest_uninitialized = true;
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  } else {
    // No zeroing elimination here.
    alloc             = NULL;
    //original_dest   = dest;
4730
    //dest_uninitialized = false;
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  }

  // Results are placed here:
  enum { fast_path        = 1,  // normal void-returning assembly stub
         checked_path     = 2,  // special assembly stub with cleanup
         slow_call_path   = 3,  // something went wrong; call the VM
         zero_path        = 4,  // bypass when length of copy is zero
         bcopy_path       = 5,  // copy primitive array by 64-bit blocks
         PATH_LIMIT       = 6
  };
4741 4742 4743
  RegionNode* result_region = new(C) RegionNode(PATH_LIMIT);
  PhiNode*    result_i_o    = new(C) PhiNode(result_region, Type::ABIO);
  PhiNode*    result_memory = new(C) PhiNode(result_region, Type::MEMORY, adr_type);
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  record_for_igvn(result_region);
  _gvn.set_type_bottom(result_i_o);
  _gvn.set_type_bottom(result_memory);
  assert(adr_type != TypePtr::BOTTOM, "must be RawMem or a T[] slice");

  // The slow_control path:
  Node* slow_control;
  Node* slow_i_o = i_o();
  Node* slow_mem = memory(adr_type);
  debug_only(slow_control = (Node*) badAddress);

  // Checked control path:
  Node* checked_control = top();
  Node* checked_mem     = NULL;
  Node* checked_i_o     = NULL;
  Node* checked_value   = NULL;

  if (basic_elem_type == T_CONFLICT) {
4762
    assert(!dest_uninitialized, "");
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    Node* cv = generate_generic_arraycopy(adr_type,
                                          src, src_offset, dest, dest_offset,
4765
                                          copy_length, dest_uninitialized);
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    if (cv == NULL)  cv = intcon(-1);  // failure (no stub available)
    checked_control = control();
    checked_i_o     = i_o();
    checked_mem     = memory(adr_type);
    checked_value   = cv;
    set_control(top());         // no fast path
  }

  Node* not_pos = generate_nonpositive_guard(copy_length, length_never_negative);
  if (not_pos != NULL) {
    PreserveJVMState pjvms(this);
    set_control(not_pos);

    // (6) length must not be negative.
    if (!length_never_negative) {
      generate_negative_guard(copy_length, slow_region);
    }

4784
    // copy_length is 0.
4785
    if (!stopped() && dest_uninitialized) {
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      Node* dest_length = alloc->in(AllocateNode::ALength);
K
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      if (copy_length->eqv_uncast(dest_length)
D
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          || _gvn.find_int_con(dest_length, 1) <= 0) {
4789
        // There is no zeroing to do. No need for a secondary raw memory barrier.
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      } else {
        // Clear the whole thing since there are no source elements to copy.
        generate_clear_array(adr_type, dest, basic_elem_type,
                             intcon(0), NULL,
                             alloc->in(AllocateNode::AllocSize));
4795 4796 4797 4798 4799 4800 4801
        // Use a secondary InitializeNode as raw memory barrier.
        // Currently it is needed only on this path since other
        // paths have stub or runtime calls as raw memory barriers.
        InitializeNode* init = insert_mem_bar_volatile(Op_Initialize,
                                                       Compile::AliasIdxRaw,
                                                       top())->as_Initialize();
        init->set_complete(&_gvn);  // (there is no corresponding AllocateNode)
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      }
    }

    // Present the results of the fast call.
    result_region->init_req(zero_path, control());
    result_i_o   ->init_req(zero_path, i_o());
    result_memory->init_req(zero_path, memory(adr_type));
  }

4811
  if (!stopped() && dest_uninitialized) {
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    // We have to initialize the *uncopied* part of the array to zero.
    // The copy destination is the slice dest[off..off+len].  The other slices
    // are dest_head = dest[0..off] and dest_tail = dest[off+len..dest.length].
    Node* dest_size   = alloc->in(AllocateNode::AllocSize);
    Node* dest_length = alloc->in(AllocateNode::ALength);
4817 4818
    Node* dest_tail   = _gvn.transform(new(C) AddINode(dest_offset,
                                                          copy_length));
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4819 4820 4821 4822 4823 4824 4825 4826 4827 4828 4829 4830 4831 4832

    // If there is a head section that needs zeroing, do it now.
    if (find_int_con(dest_offset, -1) != 0) {
      generate_clear_array(adr_type, dest, basic_elem_type,
                           intcon(0), dest_offset,
                           NULL);
    }

    // Next, perform a dynamic check on the tail length.
    // It is often zero, and we can win big if we prove this.
    // There are two wins:  Avoid generating the ClearArray
    // with its attendant messy index arithmetic, and upgrade
    // the copy to a more hardware-friendly word size of 64 bits.
    Node* tail_ctl = NULL;
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    if (!stopped() && !dest_tail->eqv_uncast(dest_length)) {
4834 4835
      Node* cmp_lt   = _gvn.transform(new(C) CmpINode(dest_tail, dest_length));
      Node* bol_lt   = _gvn.transform(new(C) BoolNode(cmp_lt, BoolTest::lt));
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      tail_ctl = generate_slow_guard(bol_lt, NULL);
      assert(tail_ctl != NULL || !stopped(), "must be an outcome");
    }

    // At this point, let's assume there is no tail.
    if (!stopped() && alloc != NULL && basic_elem_type != T_OBJECT) {
      // There is no tail.  Try an upgrade to a 64-bit copy.
      bool didit = false;
      { PreserveJVMState pjvms(this);
        didit = generate_block_arraycopy(adr_type, basic_elem_type, alloc,
                                         src, src_offset, dest, dest_offset,
4847
                                         dest_size, dest_uninitialized);
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        if (didit) {
          // Present the results of the block-copying fast call.
          result_region->init_req(bcopy_path, control());
          result_i_o   ->init_req(bcopy_path, i_o());
          result_memory->init_req(bcopy_path, memory(adr_type));
        }
      }
      if (didit)
        set_control(top());     // no regular fast path
    }

    // Clear the tail, if any.
    if (tail_ctl != NULL) {
      Node* notail_ctl = stopped() ? NULL : control();
      set_control(tail_ctl);
      if (notail_ctl == NULL) {
        generate_clear_array(adr_type, dest, basic_elem_type,
                             dest_tail, NULL,
                             dest_size);
      } else {
        // Make a local merge.
4869 4870
        Node* done_ctl = new(C) RegionNode(3);
        Node* done_mem = new(C) PhiNode(done_ctl, Type::MEMORY, adr_type);
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        done_ctl->init_req(1, notail_ctl);
        done_mem->init_req(1, memory(adr_type));
        generate_clear_array(adr_type, dest, basic_elem_type,
                             dest_tail, NULL,
                             dest_size);
        done_ctl->init_req(2, control());
        done_mem->init_req(2, memory(adr_type));
4878
        set_control( _gvn.transform(done_ctl));
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        set_memory(  _gvn.transform(done_mem), adr_type );
      }
    }
  }

  BasicType copy_type = basic_elem_type;
  assert(basic_elem_type != T_ARRAY, "caller must fix this");
  if (!stopped() && copy_type == T_OBJECT) {
    // If src and dest have compatible element types, we can copy bits.
    // Types S[] and D[] are compatible if D is a supertype of S.
    //
    // If they are not, we will use checked_oop_disjoint_arraycopy,
    // which performs a fast optimistic per-oop check, and backs off
    // further to JVM_ArrayCopy on the first per-oop check that fails.
    // (Actually, we don't move raw bits only; the GC requires card marks.)

4895
    // Get the Klass* for both src and dest
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    Node* src_klass  = load_object_klass(src);
    Node* dest_klass = load_object_klass(dest);

    // Generate the subtype check.
    // This might fold up statically, or then again it might not.
    //
    // Non-static example:  Copying List<String>.elements to a new String[].
    // The backing store for a List<String> is always an Object[],
    // but its elements are always type String, if the generic types
    // are correct at the source level.
    //
    // Test S[] against D[], not S against D, because (probably)
    // the secondary supertype cache is less busy for S[] than S.
    // This usually only matters when D is an interface.
    Node* not_subtype_ctrl = gen_subtype_check(src_klass, dest_klass);
    // Plug failing path into checked_oop_disjoint_arraycopy
    if (not_subtype_ctrl != top()) {
      PreserveJVMState pjvms(this);
      set_control(not_subtype_ctrl);
      // (At this point we can assume disjoint_bases, since types differ.)
4916
      int ek_offset = in_bytes(ObjArrayKlass::element_klass_offset());
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      Node* p1 = basic_plus_adr(dest_klass, ek_offset);
4918
      Node* n1 = LoadKlassNode::make(_gvn, immutable_memory(), p1, TypeRawPtr::BOTTOM);
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4919 4920 4921 4922
      Node* dest_elem_klass = _gvn.transform(n1);
      Node* cv = generate_checkcast_arraycopy(adr_type,
                                              dest_elem_klass,
                                              src, src_offset, dest, dest_offset,
4923
                                              ConvI2X(copy_length), dest_uninitialized);
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4924 4925 4926 4927 4928 4929 4930 4931 4932 4933 4934
      if (cv == NULL)  cv = intcon(-1);  // failure (no stub available)
      checked_control = control();
      checked_i_o     = i_o();
      checked_mem     = memory(adr_type);
      checked_value   = cv;
    }
    // At this point we know we do not need type checks on oop stores.

    // Let's see if we need card marks:
    if (alloc != NULL && use_ReduceInitialCardMarks()) {
      // If we do not need card marks, copy using the jint or jlong stub.
4935
      copy_type = LP64_ONLY(UseCompressedOops ? T_INT : T_LONG) NOT_LP64(T_INT);
4936
      assert(type2aelembytes(basic_elem_type) == type2aelembytes(copy_type),
D
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4937 4938 4939 4940 4941 4942 4943 4944 4945
             "sizes agree");
    }
  }

  if (!stopped()) {
    // Generate the fast path, if possible.
    PreserveJVMState pjvms(this);
    generate_unchecked_arraycopy(adr_type, copy_type, disjoint_bases,
                                 src, src_offset, dest, dest_offset,
4946
                                 ConvI2X(copy_length), dest_uninitialized);
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4947 4948 4949 4950 4951 4952 4953 4954 4955 4956 4957

    // Present the results of the fast call.
    result_region->init_req(fast_path, control());
    result_i_o   ->init_req(fast_path, i_o());
    result_memory->init_req(fast_path, memory(adr_type));
  }

  // Here are all the slow paths up to this point, in one bundle:
  slow_control = top();
  if (slow_region != NULL)
    slow_control = _gvn.transform(slow_region);
4958
  DEBUG_ONLY(slow_region = (RegionNode*)badAddress);
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4959 4960 4961 4962 4963 4964

  set_control(checked_control);
  if (!stopped()) {
    // Clean up after the checked call.
    // The returned value is either 0 or -1^K,
    // where K = number of partially transferred array elements.
4965 4966
    Node* cmp = _gvn.transform(new(C) CmpINode(checked_value, intcon(0)));
    Node* bol = _gvn.transform(new(C) BoolNode(cmp, BoolTest::eq));
D
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4967 4968 4969
    IfNode* iff = create_and_map_if(control(), bol, PROB_MAX, COUNT_UNKNOWN);

    // If it is 0, we are done, so transfer to the end.
4970
    Node* checks_done = _gvn.transform(new(C) IfTrueNode(iff));
D
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4971 4972 4973 4974 4975
    result_region->init_req(checked_path, checks_done);
    result_i_o   ->init_req(checked_path, checked_i_o);
    result_memory->init_req(checked_path, checked_mem);

    // If it is not zero, merge into the slow call.
4976
    set_control( _gvn.transform(new(C) IfFalseNode(iff) ));
4977 4978 4979
    RegionNode* slow_reg2 = new(C) RegionNode(3);
    PhiNode*    slow_i_o2 = new(C) PhiNode(slow_reg2, Type::ABIO);
    PhiNode*    slow_mem2 = new(C) PhiNode(slow_reg2, Type::MEMORY, adr_type);
D
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4980 4981 4982 4983 4984
    record_for_igvn(slow_reg2);
    slow_reg2  ->init_req(1, slow_control);
    slow_i_o2  ->init_req(1, slow_i_o);
    slow_mem2  ->init_req(1, slow_mem);
    slow_reg2  ->init_req(2, control());
4985 4986
    slow_i_o2  ->init_req(2, checked_i_o);
    slow_mem2  ->init_req(2, checked_mem);
D
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4987 4988 4989 4990 4991 4992 4993 4994 4995 4996 4997 4998

    slow_control = _gvn.transform(slow_reg2);
    slow_i_o     = _gvn.transform(slow_i_o2);
    slow_mem     = _gvn.transform(slow_mem2);

    if (alloc != NULL) {
      // We'll restart from the very beginning, after zeroing the whole thing.
      // This can cause double writes, but that's OK since dest is brand new.
      // So we ignore the low 31 bits of the value returned from the stub.
    } else {
      // We must continue the copy exactly where it failed, or else
      // another thread might see the wrong number of writes to dest.
4999
      Node* checked_offset = _gvn.transform(new(C) XorINode(checked_value, intcon(-1)));
5000
      Node* slow_offset    = new(C) PhiNode(slow_reg2, TypeInt::INT);
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5001 5002 5003 5004 5005
      slow_offset->init_req(1, intcon(0));
      slow_offset->init_req(2, checked_offset);
      slow_offset  = _gvn.transform(slow_offset);

      // Adjust the arguments by the conditionally incoming offset.
5006 5007 5008
      Node* src_off_plus  = _gvn.transform(new(C) AddINode(src_offset,  slow_offset));
      Node* dest_off_plus = _gvn.transform(new(C) AddINode(dest_offset, slow_offset));
      Node* length_minus  = _gvn.transform(new(C) SubINode(copy_length, slow_offset));
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5009 5010 5011 5012 5013 5014 5015 5016 5017 5018 5019 5020 5021 5022 5023 5024

      // Tweak the node variables to adjust the code produced below:
      src_offset  = src_off_plus;
      dest_offset = dest_off_plus;
      copy_length = length_minus;
    }
  }

  set_control(slow_control);
  if (!stopped()) {
    // Generate the slow path, if needed.
    PreserveJVMState pjvms(this);   // replace_in_map may trash the map

    set_memory(slow_mem, adr_type);
    set_i_o(slow_i_o);

5025
    if (dest_uninitialized) {
D
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5026 5027 5028 5029 5030 5031 5032
      generate_clear_array(adr_type, dest, basic_elem_type,
                           intcon(0), NULL,
                           alloc->in(AllocateNode::AllocSize));
    }

    generate_slow_arraycopy(adr_type,
                            src, src_offset, dest, dest_offset,
5033
                            copy_length, /*dest_uninitialized*/false);
D
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5034 5035 5036 5037 5038 5039 5040 5041 5042 5043 5044 5045 5046

    result_region->init_req(slow_call_path, control());
    result_i_o   ->init_req(slow_call_path, i_o());
    result_memory->init_req(slow_call_path, memory(adr_type));
  }

  // Remove unused edges.
  for (uint i = 1; i < result_region->req(); i++) {
    if (result_region->in(i) == NULL)
      result_region->init_req(i, top());
  }

  // Finished; return the combined state.
5047
  set_control( _gvn.transform(result_region));
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5048 5049 5050 5051
  set_i_o(     _gvn.transform(result_i_o)    );
  set_memory(  _gvn.transform(result_memory), adr_type );

  // The memory edges above are precise in order to model effects around
T
twisti 已提交
5052
  // array copies accurately to allow value numbering of field loads around
D
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5053 5054 5055 5056 5057 5058 5059 5060
  // arraycopy.  Such field loads, both before and after, are common in Java
  // collections and similar classes involving header/array data structures.
  //
  // But with low number of register or when some registers are used or killed
  // by arraycopy calls it causes registers spilling on stack. See 6544710.
  // The next memory barrier is added to avoid it. If the arraycopy can be
  // optimized away (which it can, sometimes) then we can manually remove
  // the membar also.
5061 5062
  //
  // Do not let reads from the cloned object float above the arraycopy.
5063 5064 5065 5066 5067 5068 5069 5070 5071 5072
  if (alloc != NULL) {
    // Do not let stores that initialize this object be reordered with
    // a subsequent store that would make this object accessible by
    // other threads.
    // Record what AllocateNode this StoreStore protects so that
    // escape analysis can go from the MemBarStoreStoreNode to the
    // AllocateNode and eliminate the MemBarStoreStoreNode if possible
    // based on the escape status of the AllocateNode.
    insert_mem_bar(Op_MemBarStoreStore, alloc->proj_out(AllocateNode::RawAddress));
  } else if (InsertMemBarAfterArraycopy)
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    insert_mem_bar(Op_MemBarCPUOrder);
}


// Helper function which determines if an arraycopy immediately follows
// an allocation, with no intervening tests or other escapes for the object.
AllocateArrayNode*
LibraryCallKit::tightly_coupled_allocation(Node* ptr,
                                           RegionNode* slow_region) {
  if (stopped())             return NULL;  // no fast path
  if (C->AliasLevel() == 0)  return NULL;  // no MergeMems around

  AllocateArrayNode* alloc = AllocateArrayNode::Ideal_array_allocation(ptr, &_gvn);
  if (alloc == NULL)  return NULL;

  Node* rawmem = memory(Compile::AliasIdxRaw);
  // Is the allocation's memory state untouched?
  if (!(rawmem->is_Proj() && rawmem->in(0)->is_Initialize())) {
    // Bail out if there have been raw-memory effects since the allocation.
    // (Example:  There might have been a call or safepoint.)
    return NULL;
  }
  rawmem = rawmem->in(0)->as_Initialize()->memory(Compile::AliasIdxRaw);
  if (!(rawmem->is_Proj() && rawmem->in(0) == alloc)) {
    return NULL;
  }

  // There must be no unexpected observers of this allocation.
  for (DUIterator_Fast imax, i = ptr->fast_outs(imax); i < imax; i++) {
    Node* obs = ptr->fast_out(i);
    if (obs != this->map()) {
      return NULL;
    }
  }

  // This arraycopy must unconditionally follow the allocation of the ptr.
  Node* alloc_ctl = ptr->in(0);
  assert(just_allocated_object(alloc_ctl) == ptr, "most recent allo");

  Node* ctl = control();
  while (ctl != alloc_ctl) {
    // There may be guards which feed into the slow_region.
    // Any other control flow means that we might not get a chance
    // to finish initializing the allocated object.
    if ((ctl->is_IfFalse() || ctl->is_IfTrue()) && ctl->in(0)->is_If()) {
      IfNode* iff = ctl->in(0)->as_If();
      Node* not_ctl = iff->proj_out(1 - ctl->as_Proj()->_con);
      assert(not_ctl != NULL && not_ctl != ctl, "found alternate");
      if (slow_region != NULL && slow_region->find_edge(not_ctl) >= 1) {
        ctl = iff->in(0);       // This test feeds the known slow_region.
        continue;
      }
      // One more try:  Various low-level checks bottom out in
      // uncommon traps.  If the debug-info of the trap omits
      // any reference to the allocation, as we've already
      // observed, then there can be no objection to the trap.
      bool found_trap = false;
      for (DUIterator_Fast jmax, j = not_ctl->fast_outs(jmax); j < jmax; j++) {
        Node* obs = not_ctl->fast_out(j);
        if (obs->in(0) == not_ctl && obs->is_Call() &&
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            (obs->as_Call()->entry_point() == SharedRuntime::uncommon_trap_blob()->entry_point())) {
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          found_trap = true; break;
        }
      }
      if (found_trap) {
        ctl = iff->in(0);       // This test feeds a harmless uncommon trap.
        continue;
      }
    }
    return NULL;
  }

  // If we get this far, we have an allocation which immediately
  // precedes the arraycopy, and we can take over zeroing the new object.
  // The arraycopy will finish the initialization, and provide
  // a new control state to which we will anchor the destination pointer.

  return alloc;
}

// Helper for initialization of arrays, creating a ClearArray.
// It writes zero bits in [start..end), within the body of an array object.
// The memory effects are all chained onto the 'adr_type' alias category.
//
// Since the object is otherwise uninitialized, we are free
// to put a little "slop" around the edges of the cleared area,
// as long as it does not go back into the array's header,
// or beyond the array end within the heap.
//
// The lower edge can be rounded down to the nearest jint and the
// upper edge can be rounded up to the nearest MinObjAlignmentInBytes.
//
// Arguments:
//   adr_type           memory slice where writes are generated
//   dest               oop of the destination array
//   basic_elem_type    element type of the destination
//   slice_idx          array index of first element to store
//   slice_len          number of elements to store (or NULL)
//   dest_size          total size in bytes of the array object
//
// Exactly one of slice_len or dest_size must be non-NULL.
// If dest_size is non-NULL, zeroing extends to the end of the object.
// If slice_len is non-NULL, the slice_idx value must be a constant.
void
LibraryCallKit::generate_clear_array(const TypePtr* adr_type,
                                     Node* dest,
                                     BasicType basic_elem_type,
                                     Node* slice_idx,
                                     Node* slice_len,
                                     Node* dest_size) {
  // one or the other but not both of slice_len and dest_size:
  assert((slice_len != NULL? 1: 0) + (dest_size != NULL? 1: 0) == 1, "");
  if (slice_len == NULL)  slice_len = top();
  if (dest_size == NULL)  dest_size = top();

  // operate on this memory slice:
  Node* mem = memory(adr_type); // memory slice to operate on

  // scaling and rounding of indexes:
5192
  int scale = exact_log2(type2aelembytes(basic_elem_type));
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  int abase = arrayOopDesc::base_offset_in_bytes(basic_elem_type);
  int clear_low = (-1 << scale) & (BytesPerInt  - 1);
  int bump_bit  = (-1 << scale) & BytesPerInt;

  // determine constant starts and ends
  const intptr_t BIG_NEG = -128;
  assert(BIG_NEG + 2*abase < 0, "neg enough");
  intptr_t slice_idx_con = (intptr_t) find_int_con(slice_idx, BIG_NEG);
  intptr_t slice_len_con = (intptr_t) find_int_con(slice_len, BIG_NEG);
  if (slice_len_con == 0) {
    return;                     // nothing to do here
  }
  intptr_t start_con = (abase + (slice_idx_con << scale)) & ~clear_low;
  intptr_t end_con   = find_intptr_t_con(dest_size, -1);
  if (slice_idx_con >= 0 && slice_len_con >= 0) {
    assert(end_con < 0, "not two cons");
    end_con = round_to(abase + ((slice_idx_con + slice_len_con) << scale),
                       BytesPerLong);
  }

  if (start_con >= 0 && end_con >= 0) {
    // Constant start and end.  Simple.
    mem = ClearArrayNode::clear_memory(control(), mem, dest,
                                       start_con, end_con, &_gvn);
  } else if (start_con >= 0 && dest_size != top()) {
    // Constant start, pre-rounded end after the tail of the array.
    Node* end = dest_size;
    mem = ClearArrayNode::clear_memory(control(), mem, dest,
                                       start_con, end, &_gvn);
  } else if (start_con >= 0 && slice_len != top()) {
    // Constant start, non-constant end.  End needs rounding up.
    // End offset = round_up(abase + ((slice_idx_con + slice_len) << scale), 8)
    intptr_t end_base  = abase + (slice_idx_con << scale);
    int      end_round = (-1 << scale) & (BytesPerLong  - 1);
    Node*    end       = ConvI2X(slice_len);
    if (scale != 0)
5229
      end = _gvn.transform(new(C) LShiftXNode(end, intcon(scale) ));
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    end_base += end_round;
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    end = _gvn.transform(new(C) AddXNode(end, MakeConX(end_base)));
    end = _gvn.transform(new(C) AndXNode(end, MakeConX(~end_round)));
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    mem = ClearArrayNode::clear_memory(control(), mem, dest,
                                       start_con, end, &_gvn);
  } else if (start_con < 0 && dest_size != top()) {
    // Non-constant start, pre-rounded end after the tail of the array.
    // This is almost certainly a "round-to-end" operation.
    Node* start = slice_idx;
    start = ConvI2X(start);
    if (scale != 0)
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      start = _gvn.transform(new(C) LShiftXNode( start, intcon(scale) ));
    start = _gvn.transform(new(C) AddXNode(start, MakeConX(abase)));
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    if ((bump_bit | clear_low) != 0) {
      int to_clear = (bump_bit | clear_low);
      // Align up mod 8, then store a jint zero unconditionally
      // just before the mod-8 boundary.
5247 5248 5249 5250 5251 5252
      if (((abase + bump_bit) & ~to_clear) - bump_bit
          < arrayOopDesc::length_offset_in_bytes() + BytesPerInt) {
        bump_bit = 0;
        assert((abase & to_clear) == 0, "array base must be long-aligned");
      } else {
        // Bump 'start' up to (or past) the next jint boundary:
5253
        start = _gvn.transform(new(C) AddXNode(start, MakeConX(bump_bit)));
5254 5255
        assert((abase & clear_low) == 0, "array base must be int-aligned");
      }
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      // Round bumped 'start' down to jlong boundary in body of array.
5257
      start = _gvn.transform(new(C) AndXNode(start, MakeConX(~to_clear)));
5258 5259
      if (bump_bit != 0) {
        // Store a zero to the immediately preceding jint:
5260
        Node* x1 = _gvn.transform(new(C) AddXNode(start, MakeConX(-bump_bit)));
5261 5262 5263 5264
        Node* p1 = basic_plus_adr(dest, x1);
        mem = StoreNode::make(_gvn, control(), mem, p1, adr_type, intcon(0), T_INT);
        mem = _gvn.transform(mem);
      }
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    }
    Node* end = dest_size; // pre-rounded
    mem = ClearArrayNode::clear_memory(control(), mem, dest,
                                       start, end, &_gvn);
  } else {
    // Non-constant start, unrounded non-constant end.
    // (Nobody zeroes a random midsection of an array using this routine.)
    ShouldNotReachHere();       // fix caller
  }

  // Done.
  set_memory(mem, adr_type);
}


bool
LibraryCallKit::generate_block_arraycopy(const TypePtr* adr_type,
                                         BasicType basic_elem_type,
                                         AllocateNode* alloc,
                                         Node* src,  Node* src_offset,
                                         Node* dest, Node* dest_offset,
5286
                                         Node* dest_size, bool dest_uninitialized) {
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  // See if there is an advantage from block transfer.
5288
  int scale = exact_log2(type2aelembytes(basic_elem_type));
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  if (scale >= LogBytesPerLong)
    return false;               // it is already a block transfer

  // Look at the alignment of the starting offsets.
  int abase = arrayOopDesc::base_offset_in_bytes(basic_elem_type);

5295 5296 5297
  intptr_t src_off_con  = (intptr_t) find_int_con(src_offset, -1);
  intptr_t dest_off_con = (intptr_t) find_int_con(dest_offset, -1);
  if (src_off_con < 0 || dest_off_con < 0)
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    // At present, we can only understand constants.
    return false;

5301 5302 5303
  intptr_t src_off  = abase + (src_off_con  << scale);
  intptr_t dest_off = abase + (dest_off_con << scale);

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  if (((src_off | dest_off) & (BytesPerLong-1)) != 0) {
    // Non-aligned; too bad.
    // One more chance:  Pick off an initial 32-bit word.
    // This is a common case, since abase can be odd mod 8.
    if (((src_off | dest_off) & (BytesPerLong-1)) == BytesPerInt &&
        ((src_off ^ dest_off) & (BytesPerLong-1)) == 0) {
      Node* sptr = basic_plus_adr(src,  src_off);
      Node* dptr = basic_plus_adr(dest, dest_off);
      Node* sval = make_load(control(), sptr, TypeInt::INT, T_INT, adr_type);
      store_to_memory(control(), dptr, sval, T_INT, adr_type);
      src_off += BytesPerInt;
      dest_off += BytesPerInt;
    } else {
      return false;
    }
  }
  assert(src_off % BytesPerLong == 0, "");
  assert(dest_off % BytesPerLong == 0, "");

  // Do this copy by giant steps.
  Node* sptr  = basic_plus_adr(src,  src_off);
  Node* dptr  = basic_plus_adr(dest, dest_off);
  Node* countx = dest_size;
5327 5328
  countx = _gvn.transform(new (C) SubXNode(countx, MakeConX(dest_off)));
  countx = _gvn.transform(new (C) URShiftXNode(countx, intcon(LogBytesPerLong)));
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  bool disjoint_bases = true;   // since alloc != NULL
  generate_unchecked_arraycopy(adr_type, T_LONG, disjoint_bases,
5332
                               sptr, NULL, dptr, NULL, countx, dest_uninitialized);
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  return true;
}


// Helper function; generates code for the slow case.
// We make a call to a runtime method which emulates the native method,
// but without the native wrapper overhead.
void
LibraryCallKit::generate_slow_arraycopy(const TypePtr* adr_type,
                                        Node* src,  Node* src_offset,
                                        Node* dest, Node* dest_offset,
5345 5346
                                        Node* copy_length, bool dest_uninitialized) {
  assert(!dest_uninitialized, "Invariant");
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  Node* call = make_runtime_call(RC_NO_LEAF | RC_UNCOMMON,
                                 OptoRuntime::slow_arraycopy_Type(),
                                 OptoRuntime::slow_arraycopy_Java(),
                                 "slow_arraycopy", adr_type,
                                 src, src_offset, dest, dest_offset,
                                 copy_length);

  // Handle exceptions thrown by this fellow:
  make_slow_call_ex(call, env()->Throwable_klass(), false);
}

// Helper function; generates code for cases requiring runtime checks.
Node*
LibraryCallKit::generate_checkcast_arraycopy(const TypePtr* adr_type,
                                             Node* dest_elem_klass,
                                             Node* src,  Node* src_offset,
                                             Node* dest, Node* dest_offset,
5364
                                             Node* copy_length, bool dest_uninitialized) {
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  if (stopped())  return NULL;

5367
  address copyfunc_addr = StubRoutines::checkcast_arraycopy(dest_uninitialized);
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  if (copyfunc_addr == NULL) { // Stub was not generated, go slow path.
    return NULL;
  }

  // Pick out the parameters required to perform a store-check
  // for the target array.  This is an optimistic check.  It will
  // look in each non-null element's class, at the desired klass's
  // super_check_offset, for the desired klass.
5376
  int sco_offset = in_bytes(Klass::super_check_offset_offset());
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  Node* p3 = basic_plus_adr(dest_elem_klass, sco_offset);
5378
  Node* n3 = new(C) LoadINode(NULL, memory(p3), p3, _gvn.type(p3)->is_ptr());
5379
  Node* check_offset = ConvI2X(_gvn.transform(n3));
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  Node* check_value  = dest_elem_klass;

  Node* src_start  = array_element_address(src,  src_offset,  T_OBJECT);
  Node* dest_start = array_element_address(dest, dest_offset, T_OBJECT);

  // (We know the arrays are never conjoint, because their types differ.)
  Node* call = make_runtime_call(RC_LEAF|RC_NO_FP,
                                 OptoRuntime::checkcast_arraycopy_Type(),
                                 copyfunc_addr, "checkcast_arraycopy", adr_type,
                                 // five arguments, of which two are
                                 // intptr_t (jlong in LP64)
                                 src_start, dest_start,
                                 copy_length XTOP,
                                 check_offset XTOP,
                                 check_value);

5396
  return _gvn.transform(new (C) ProjNode(call, TypeFunc::Parms));
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}


// Helper function; generates code for cases requiring runtime checks.
Node*
LibraryCallKit::generate_generic_arraycopy(const TypePtr* adr_type,
                                           Node* src,  Node* src_offset,
                                           Node* dest, Node* dest_offset,
5405 5406
                                           Node* copy_length, bool dest_uninitialized) {
  assert(!dest_uninitialized, "Invariant");
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  if (stopped())  return NULL;
  address copyfunc_addr = StubRoutines::generic_arraycopy();
  if (copyfunc_addr == NULL) { // Stub was not generated, go slow path.
    return NULL;
  }

  Node* call = make_runtime_call(RC_LEAF|RC_NO_FP,
                    OptoRuntime::generic_arraycopy_Type(),
                    copyfunc_addr, "generic_arraycopy", adr_type,
                    src, src_offset, dest, dest_offset, copy_length);

5418
  return _gvn.transform(new (C) ProjNode(call, TypeFunc::Parms));
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}

// Helper function; generates the fast out-of-line call to an arraycopy stub.
void
LibraryCallKit::generate_unchecked_arraycopy(const TypePtr* adr_type,
                                             BasicType basic_elem_type,
                                             bool disjoint_bases,
                                             Node* src,  Node* src_offset,
                                             Node* dest, Node* dest_offset,
5428
                                             Node* copy_length, bool dest_uninitialized) {
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  if (stopped())  return;               // nothing to do

  Node* src_start  = src;
  Node* dest_start = dest;
  if (src_offset != NULL || dest_offset != NULL) {
    assert(src_offset != NULL && dest_offset != NULL, "");
    src_start  = array_element_address(src,  src_offset,  basic_elem_type);
    dest_start = array_element_address(dest, dest_offset, basic_elem_type);
  }

  // Figure out which arraycopy runtime method to call.
  const char* copyfunc_name = "arraycopy";
  address     copyfunc_addr =
      basictype2arraycopy(basic_elem_type, src_offset, dest_offset,
5443
                          disjoint_bases, copyfunc_name, dest_uninitialized);
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  // Call it.  Note that the count_ix value is not scaled to a byte-size.
  make_runtime_call(RC_LEAF|RC_NO_FP,
                    OptoRuntime::fast_arraycopy_Type(),
                    copyfunc_addr, copyfunc_name, adr_type,
                    src_start, dest_start, copy_length XTOP);
}
5451

5452 5453 5454 5455 5456 5457 5458 5459 5460 5461 5462 5463 5464 5465 5466 5467 5468 5469 5470 5471 5472 5473 5474 5475 5476 5477 5478 5479 5480 5481 5482 5483 5484 5485 5486 5487 5488 5489 5490 5491 5492
//-------------inline_encodeISOArray-----------------------------------
// encode char[] to byte[] in ISO_8859_1
bool LibraryCallKit::inline_encodeISOArray() {
  assert(callee()->signature()->size() == 5, "encodeISOArray has 5 parameters");
  // no receiver since it is static method
  Node *src         = argument(0);
  Node *src_offset  = argument(1);
  Node *dst         = argument(2);
  Node *dst_offset  = argument(3);
  Node *length      = argument(4);

  const Type* src_type = src->Value(&_gvn);
  const Type* dst_type = dst->Value(&_gvn);
  const TypeAryPtr* top_src = src_type->isa_aryptr();
  const TypeAryPtr* top_dest = dst_type->isa_aryptr();
  if (top_src  == NULL || top_src->klass()  == NULL ||
      top_dest == NULL || top_dest->klass() == NULL) {
    // failed array check
    return false;
  }

  // Figure out the size and type of the elements we will be copying.
  BasicType src_elem = src_type->isa_aryptr()->klass()->as_array_klass()->element_type()->basic_type();
  BasicType dst_elem = dst_type->isa_aryptr()->klass()->as_array_klass()->element_type()->basic_type();
  if (src_elem != T_CHAR || dst_elem != T_BYTE) {
    return false;
  }
  Node* src_start = array_element_address(src, src_offset, src_elem);
  Node* dst_start = array_element_address(dst, dst_offset, dst_elem);
  // 'src_start' points to src array + scaled offset
  // 'dst_start' points to dst array + scaled offset

  const TypeAryPtr* mtype = TypeAryPtr::BYTES;
  Node* enc = new (C) EncodeISOArrayNode(control(), memory(mtype), src_start, dst_start, length);
  enc = _gvn.transform(enc);
  Node* res_mem = _gvn.transform(new (C) SCMemProjNode(enc));
  set_memory(res_mem, mtype);
  set_result(enc);
  return true;
}

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/**
 * Calculate CRC32 for byte.
 * int java.util.zip.CRC32.update(int crc, int b)
 */
bool LibraryCallKit::inline_updateCRC32() {
  assert(UseCRC32Intrinsics, "need AVX and LCMUL instructions support");
  assert(callee()->signature()->size() == 2, "update has 2 parameters");
  // no receiver since it is static method
  Node* crc  = argument(0); // type: int
  Node* b    = argument(1); // type: int

  /*
   *    int c = ~ crc;
   *    b = timesXtoThe32[(b ^ c) & 0xFF];
   *    b = b ^ (c >>> 8);
   *    crc = ~b;
   */

  Node* M1 = intcon(-1);
  crc = _gvn.transform(new (C) XorINode(crc, M1));
  Node* result = _gvn.transform(new (C) XorINode(crc, b));
  result = _gvn.transform(new (C) AndINode(result, intcon(0xFF)));

  Node* base = makecon(TypeRawPtr::make(StubRoutines::crc_table_addr()));
  Node* offset = _gvn.transform(new (C) LShiftINode(result, intcon(0x2)));
  Node* adr = basic_plus_adr(top(), base, ConvI2X(offset));
  result = make_load(control(), adr, TypeInt::INT, T_INT);

  crc = _gvn.transform(new (C) URShiftINode(crc, intcon(8)));
  result = _gvn.transform(new (C) XorINode(crc, result));
  result = _gvn.transform(new (C) XorINode(result, M1));
  set_result(result);
  return true;
}

/**
 * Calculate CRC32 for byte[] array.
 * int java.util.zip.CRC32.updateBytes(int crc, byte[] buf, int off, int len)
 */
bool LibraryCallKit::inline_updateBytesCRC32() {
  assert(UseCRC32Intrinsics, "need AVX and LCMUL instructions support");
  assert(callee()->signature()->size() == 4, "updateBytes has 4 parameters");
  // no receiver since it is static method
  Node* crc     = argument(0); // type: int
  Node* src     = argument(1); // type: oop
  Node* offset  = argument(2); // type: int
  Node* length  = argument(3); // type: int

  const Type* src_type = src->Value(&_gvn);
  const TypeAryPtr* top_src = src_type->isa_aryptr();
  if (top_src  == NULL || top_src->klass()  == NULL) {
    // failed array check
    return false;
  }

  // Figure out the size and type of the elements we will be copying.
  BasicType src_elem = src_type->isa_aryptr()->klass()->as_array_klass()->element_type()->basic_type();
  if (src_elem != T_BYTE) {
    return false;
  }

  // 'src_start' points to src array + scaled offset
  Node* src_start = array_element_address(src, offset, src_elem);

  // We assume that range check is done by caller.
  // TODO: generate range check (offset+length < src.length) in debug VM.

  // Call the stub.
  address stubAddr = StubRoutines::updateBytesCRC32();
  const char *stubName = "updateBytesCRC32";

  Node* call = make_runtime_call(RC_LEAF|RC_NO_FP, OptoRuntime::updateBytesCRC32_Type(),
                                 stubAddr, stubName, TypePtr::BOTTOM,
                                 crc, src_start, length);
  Node* result = _gvn.transform(new (C) ProjNode(call, TypeFunc::Parms));
  set_result(result);
  return true;
}

/**
 * Calculate CRC32 for ByteBuffer.
 * int java.util.zip.CRC32.updateByteBuffer(int crc, long buf, int off, int len)
 */
bool LibraryCallKit::inline_updateByteBufferCRC32() {
  assert(UseCRC32Intrinsics, "need AVX and LCMUL instructions support");
  assert(callee()->signature()->size() == 5, "updateByteBuffer has 4 parameters and one is long");
  // no receiver since it is static method
  Node* crc     = argument(0); // type: int
  Node* src     = argument(1); // type: long
  Node* offset  = argument(3); // type: int
  Node* length  = argument(4); // type: int

  src = ConvL2X(src);  // adjust Java long to machine word
  Node* base = _gvn.transform(new (C) CastX2PNode(src));
  offset = ConvI2X(offset);

  // 'src_start' points to src array + scaled offset
  Node* src_start = basic_plus_adr(top(), base, offset);

  // Call the stub.
  address stubAddr = StubRoutines::updateBytesCRC32();
  const char *stubName = "updateBytesCRC32";

  Node* call = make_runtime_call(RC_LEAF|RC_NO_FP, OptoRuntime::updateBytesCRC32_Type(),
                                 stubAddr, stubName, TypePtr::BOTTOM,
                                 crc, src_start, length);
  Node* result = _gvn.transform(new (C) ProjNode(call, TypeFunc::Parms));
  set_result(result);
  return true;
}

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//----------------------------inline_reference_get----------------------------
5605
// public T java.lang.ref.Reference.get();
5606
bool LibraryCallKit::inline_reference_get() {
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  const int referent_offset = java_lang_ref_Reference::referent_offset;
  guarantee(referent_offset > 0, "should have already been set");
5609

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  // Get the argument:
  Node* reference_obj = null_check_receiver();
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  if (stopped()) return true;

5614
  Node* adr = basic_plus_adr(reference_obj, reference_obj, referent_offset);
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  ciInstanceKlass* klass = env()->Object_klass();
  const TypeOopPtr* object_type = TypeOopPtr::make_from_klass(klass);

  Node* no_ctrl = NULL;
5620
  Node* result = make_load(no_ctrl, adr, object_type, T_OBJECT);
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  // Use the pre-barrier to record the value in the referent field
  pre_barrier(false /* do_load */,
              control(),
5625
              NULL /* obj */, NULL /* adr */, max_juint /* alias_idx */, NULL /* val */, NULL /* val_type */,
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              result /* pre_val */,
              T_OBJECT);

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  // Add memory barrier to prevent commoning reads from this field
  // across safepoint since GC can change its value.
  insert_mem_bar(Op_MemBarCPUOrder);

5633
  set_result(result);
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  return true;
}
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Node * LibraryCallKit::load_field_from_object(Node * fromObj, const char * fieldName, const char * fieldTypeString,
                                              bool is_exact=true, bool is_static=false) {

  const TypeInstPtr* tinst = _gvn.type(fromObj)->isa_instptr();
  assert(tinst != NULL, "obj is null");
  assert(tinst->klass()->is_loaded(), "obj is not loaded");
  assert(!is_exact || tinst->klass_is_exact(), "klass not exact");

  ciField* field = tinst->klass()->as_instance_klass()->get_field_by_name(ciSymbol::make(fieldName),
                                                                          ciSymbol::make(fieldTypeString),
                                                                          is_static);
  if (field == NULL) return (Node *) NULL;
  assert (field != NULL, "undefined field");

  // Next code  copied from Parse::do_get_xxx():

  // Compute address and memory type.
  int offset  = field->offset_in_bytes();
  bool is_vol = field->is_volatile();
  ciType* field_klass = field->type();
  assert(field_klass->is_loaded(), "should be loaded");
  const TypePtr* adr_type = C->alias_type(field)->adr_type();
  Node *adr = basic_plus_adr(fromObj, fromObj, offset);
  BasicType bt = field->layout_type();

  // Build the resultant type of the load
  const Type *type = TypeOopPtr::make_from_klass(field_klass->as_klass());

  // Build the load.
  Node* loadedField = make_load(NULL, adr, type, bt, adr_type, is_vol);
  return loadedField;
}


//------------------------------inline_aescrypt_Block-----------------------
bool LibraryCallKit::inline_aescrypt_Block(vmIntrinsics::ID id) {
  address stubAddr;
  const char *stubName;
  assert(UseAES, "need AES instruction support");

  switch(id) {
  case vmIntrinsics::_aescrypt_encryptBlock:
    stubAddr = StubRoutines::aescrypt_encryptBlock();
    stubName = "aescrypt_encryptBlock";
    break;
  case vmIntrinsics::_aescrypt_decryptBlock:
    stubAddr = StubRoutines::aescrypt_decryptBlock();
    stubName = "aescrypt_decryptBlock";
    break;
  }
  if (stubAddr == NULL) return false;

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  Node* aescrypt_object = argument(0);
  Node* src             = argument(1);
  Node* src_offset      = argument(2);
  Node* dest            = argument(3);
  Node* dest_offset     = argument(4);
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  // (1) src and dest are arrays.
  const Type* src_type = src->Value(&_gvn);
  const Type* dest_type = dest->Value(&_gvn);
  const TypeAryPtr* top_src = src_type->isa_aryptr();
  const TypeAryPtr* top_dest = dest_type->isa_aryptr();
  assert (top_src  != NULL && top_src->klass()  != NULL &&  top_dest != NULL && top_dest->klass() != NULL, "args are strange");

  // for the quick and dirty code we will skip all the checks.
  // we are just trying to get the call to be generated.
  Node* src_start  = src;
  Node* dest_start = dest;
  if (src_offset != NULL || dest_offset != NULL) {
    assert(src_offset != NULL && dest_offset != NULL, "");
    src_start  = array_element_address(src,  src_offset,  T_BYTE);
    dest_start = array_element_address(dest, dest_offset, T_BYTE);
  }

  // now need to get the start of its expanded key array
  // this requires a newer class file that has this array as littleEndian ints, otherwise we revert to java
  Node* k_start = get_key_start_from_aescrypt_object(aescrypt_object);
  if (k_start == NULL) return false;

  // Call the stub.
  make_runtime_call(RC_LEAF|RC_NO_FP, OptoRuntime::aescrypt_block_Type(),
                    stubAddr, stubName, TypePtr::BOTTOM,
                    src_start, dest_start, k_start);

  return true;
}

//------------------------------inline_cipherBlockChaining_AESCrypt-----------------------
bool LibraryCallKit::inline_cipherBlockChaining_AESCrypt(vmIntrinsics::ID id) {
  address stubAddr;
  const char *stubName;

  assert(UseAES, "need AES instruction support");

  switch(id) {
  case vmIntrinsics::_cipherBlockChaining_encryptAESCrypt:
    stubAddr = StubRoutines::cipherBlockChaining_encryptAESCrypt();
    stubName = "cipherBlockChaining_encryptAESCrypt";
    break;
  case vmIntrinsics::_cipherBlockChaining_decryptAESCrypt:
    stubAddr = StubRoutines::cipherBlockChaining_decryptAESCrypt();
    stubName = "cipherBlockChaining_decryptAESCrypt";
    break;
  }
  if (stubAddr == NULL) return false;

5745 5746 5747 5748 5749 5750
  Node* cipherBlockChaining_object = argument(0);
  Node* src                        = argument(1);
  Node* src_offset                 = argument(2);
  Node* len                        = argument(3);
  Node* dest                       = argument(4);
  Node* dest_offset                = argument(5);
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  // (1) src and dest are arrays.
  const Type* src_type = src->Value(&_gvn);
  const Type* dest_type = dest->Value(&_gvn);
  const TypeAryPtr* top_src = src_type->isa_aryptr();
  const TypeAryPtr* top_dest = dest_type->isa_aryptr();
  assert (top_src  != NULL && top_src->klass()  != NULL
          &&  top_dest != NULL && top_dest->klass() != NULL, "args are strange");

  // checks are the responsibility of the caller
  Node* src_start  = src;
  Node* dest_start = dest;
  if (src_offset != NULL || dest_offset != NULL) {
    assert(src_offset != NULL && dest_offset != NULL, "");
    src_start  = array_element_address(src,  src_offset,  T_BYTE);
    dest_start = array_element_address(dest, dest_offset, T_BYTE);
  }

  // if we are in this set of code, we "know" the embeddedCipher is an AESCrypt object
  // (because of the predicated logic executed earlier).
  // so we cast it here safely.
  // this requires a newer class file that has this array as littleEndian ints, otherwise we revert to java

  Node* embeddedCipherObj = load_field_from_object(cipherBlockChaining_object, "embeddedCipher", "Lcom/sun/crypto/provider/SymmetricCipher;", /*is_exact*/ false);
  if (embeddedCipherObj == NULL) return false;

  // cast it to what we know it will be at runtime
  const TypeInstPtr* tinst = _gvn.type(cipherBlockChaining_object)->isa_instptr();
  assert(tinst != NULL, "CBC obj is null");
  assert(tinst->klass()->is_loaded(), "CBC obj is not loaded");
  ciKlass* klass_AESCrypt = tinst->klass()->as_instance_klass()->find_klass(ciSymbol::make("com/sun/crypto/provider/AESCrypt"));
  if (!klass_AESCrypt->is_loaded()) return false;

  ciInstanceKlass* instklass_AESCrypt = klass_AESCrypt->as_instance_klass();
  const TypeKlassPtr* aklass = TypeKlassPtr::make(instklass_AESCrypt);
  const TypeOopPtr* xtype = aklass->as_instance_type();
  Node* aescrypt_object = new(C) CheckCastPPNode(control(), embeddedCipherObj, xtype);
  aescrypt_object = _gvn.transform(aescrypt_object);

  // we need to get the start of the aescrypt_object's expanded key array
  Node* k_start = get_key_start_from_aescrypt_object(aescrypt_object);
  if (k_start == NULL) return false;

  // similarly, get the start address of the r vector
  Node* objRvec = load_field_from_object(cipherBlockChaining_object, "r", "[B", /*is_exact*/ false);
  if (objRvec == NULL) return false;
  Node* r_start = array_element_address(objRvec, intcon(0), T_BYTE);

  // Call the stub, passing src_start, dest_start, k_start, r_start and src_len
  make_runtime_call(RC_LEAF|RC_NO_FP,
                    OptoRuntime::cipherBlockChaining_aescrypt_Type(),
                    stubAddr, stubName, TypePtr::BOTTOM,
                    src_start, dest_start, k_start, r_start, len);

  // return is void so no result needs to be pushed

  return true;
}

//------------------------------get_key_start_from_aescrypt_object-----------------------
Node * LibraryCallKit::get_key_start_from_aescrypt_object(Node *aescrypt_object) {
  Node* objAESCryptKey = load_field_from_object(aescrypt_object, "K", "[I", /*is_exact*/ false);
  assert (objAESCryptKey != NULL, "wrong version of com.sun.crypto.provider.AESCrypt");
  if (objAESCryptKey == NULL) return (Node *) NULL;

  // now have the array, need to get the start address of the K array
  Node* k_start = array_element_address(objAESCryptKey, intcon(0), T_INT);
  return k_start;
}

//----------------------------inline_cipherBlockChaining_AESCrypt_predicate----------------------------
// Return node representing slow path of predicate check.
// the pseudo code we want to emulate with this predicate is:
// for encryption:
//    if (embeddedCipherObj instanceof AESCrypt) do_intrinsic, else do_javapath
// for decryption:
//    if ((embeddedCipherObj instanceof AESCrypt) && (cipher!=plain)) do_intrinsic, else do_javapath
//    note cipher==plain is more conservative than the original java code but that's OK
//
Node* LibraryCallKit::inline_cipherBlockChaining_AESCrypt_predicate(bool decrypting) {
  // First, check receiver for NULL since it is virtual method.
  Node* objCBC = argument(0);
5833
  objCBC = null_check(objCBC);
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  if (stopped()) return NULL; // Always NULL

  // Load embeddedCipher field of CipherBlockChaining object.
  Node* embeddedCipherObj = load_field_from_object(objCBC, "embeddedCipher", "Lcom/sun/crypto/provider/SymmetricCipher;", /*is_exact*/ false);

  // get AESCrypt klass for instanceOf check
  // AESCrypt might not be loaded yet if some other SymmetricCipher got us to this compile point
  // will have same classloader as CipherBlockChaining object
  const TypeInstPtr* tinst = _gvn.type(objCBC)->isa_instptr();
  assert(tinst != NULL, "CBCobj is null");
  assert(tinst->klass()->is_loaded(), "CBCobj is not loaded");

  // we want to do an instanceof comparison against the AESCrypt class
  ciKlass* klass_AESCrypt = tinst->klass()->as_instance_klass()->find_klass(ciSymbol::make("com/sun/crypto/provider/AESCrypt"));
  if (!klass_AESCrypt->is_loaded()) {
    // if AESCrypt is not even loaded, we never take the intrinsic fast path
    Node* ctrl = control();
    set_control(top()); // no regular fast path
    return ctrl;
  }
  ciInstanceKlass* instklass_AESCrypt = klass_AESCrypt->as_instance_klass();

  Node* instof = gen_instanceof(embeddedCipherObj, makecon(TypeKlassPtr::make(instklass_AESCrypt)));
  Node* cmp_instof  = _gvn.transform(new (C) CmpINode(instof, intcon(1)));
  Node* bool_instof  = _gvn.transform(new (C) BoolNode(cmp_instof, BoolTest::ne));

  Node* instof_false = generate_guard(bool_instof, NULL, PROB_MIN);

  // for encryption, we are done
  if (!decrypting)
    return instof_false;  // even if it is NULL

  // for decryption, we need to add a further check to avoid
  // taking the intrinsic path when cipher and plain are the same
  // see the original java code for why.
  RegionNode* region = new(C) RegionNode(3);
  region->init_req(1, instof_false);
  Node* src = argument(1);
5873
  Node* dest = argument(4);
5874 5875 5876 5877 5878 5879 5880 5881
  Node* cmp_src_dest = _gvn.transform(new (C) CmpPNode(src, dest));
  Node* bool_src_dest = _gvn.transform(new (C) BoolNode(cmp_src_dest, BoolTest::eq));
  Node* src_dest_conjoint = generate_guard(bool_src_dest, NULL, PROB_MIN);
  region->init_req(2, src_dest_conjoint);

  record_for_igvn(region);
  return _gvn.transform(region);
}