Merge "Add read barriers for the roots in the verifier."

12 files changed, 475 insertions, 478 deletions

diff --git a/runtime/verifier/method_verifier-inl.h b/runtime/verifier/method_verifier-inl.h
index 62ecf4b49f..d4fe1061e2 100644
--- a/runtime/verifier/method_verifier-inl.h
+++ b/runtime/verifier/method_verifier-inl.h
@@ -66,9 +66,9 @@ inline bool MethodVerifier::HasFailures() const {
   return !failure_messages_.empty();
 }
 
-inline const RegType& MethodVerifier::ResolveCheckedClass(uint32_t class_idx) {
+inline RegType& MethodVerifier::ResolveCheckedClass(uint32_t class_idx) {
   DCHECK(!HasFailures());
-  const RegType& result = ResolveClassAndCheckAccess(class_idx);
+  RegType& result = ResolveClassAndCheckAccess(class_idx);
   DCHECK(!HasFailures());
   return result;
 }
diff --git a/runtime/verifier/method_verifier.cc b/runtime/verifier/method_verifier.cc
index 2571cf1f6c..18f762603a 100644
--- a/runtime/verifier/method_verifier.cc
+++ b/runtime/verifier/method_verifier.cc
@@ -1175,7 +1175,7 @@ bool MethodVerifier::SetTypesFromSignature() {
     // If this is a constructor for a class other than java.lang.Object, mark the first ("this")
     // argument as uninitialized. This restricts field access until the superclass constructor is
     // called.
-    const RegType& declaring_class = GetDeclaringClass();
+    RegType& declaring_class = GetDeclaringClass();
     if (IsConstructor() && !declaring_class.IsJavaLangObject()) {
       reg_line->SetRegisterType(arg_start + cur_arg,
                                 reg_types_.UninitializedThisArgument(declaring_class));
@@ -1207,7 +1207,7 @@ bool MethodVerifier::SetTypesFromSignature() {
         // it's effectively considered initialized the instant we reach here (in the sense that we
         // can return without doing anything or call virtual methods).
         {
-          const RegType& reg_type = ResolveClassAndCheckAccess(iterator.GetTypeIdx());
+          RegType& reg_type = ResolveClassAndCheckAccess(iterator.GetTypeIdx());
           if (!reg_type.IsNonZeroReferenceTypes()) {
             DCHECK(HasFailures());
             return false;
@@ -1241,8 +1241,8 @@ bool MethodVerifier::SetTypesFromSignature() {
           return false;
         }
 
-        const RegType& lo_half = descriptor[0] == 'J' ? reg_types_.LongLo() : reg_types_.DoubleLo();
-        const RegType& hi_half = descriptor[0] == 'J' ? reg_types_.LongHi() : reg_types_.DoubleHi();
+        RegType& lo_half = descriptor[0] == 'J' ? reg_types_.LongLo() : reg_types_.DoubleLo();
+        RegType& hi_half = descriptor[0] == 'J' ? reg_types_.LongHi() : reg_types_.DoubleHi();
         reg_line->SetRegisterTypeWide(arg_start + cur_arg, lo_half, hi_half);
         cur_arg++;
         break;
@@ -1536,7 +1536,7 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
        * This statement can only appear as the first instruction in an exception handler. We verify
        * that as part of extracting the exception type from the catch block list.
        */
-      const RegType& res_type = GetCaughtExceptionType();
+      RegType& res_type = GetCaughtExceptionType();
       work_line_->SetRegisterType(inst->VRegA_11x(), res_type);
       break;
     }
@@ -1550,7 +1550,7 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
     case Instruction::RETURN:
       if (!IsConstructor() || work_line_->CheckConstructorReturn()) {
         /* check the method signature */
-        const RegType& return_type = GetMethodReturnType();
+        RegType& return_type = GetMethodReturnType();
         if (!return_type.IsCategory1Types()) {
           Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "unexpected non-category 1 return type "
                                             << return_type;
@@ -1558,7 +1558,7 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
           // Compilers may generate synthetic functions that write byte values into boolean fields.
           // Also, it may use integer values for boolean, byte, short, and character return types.
           const uint32_t vregA = inst->VRegA_11x();
-          const RegType& src_type = work_line_->GetRegisterType(vregA);
+          RegType& src_type = work_line_->GetRegisterType(vregA);
           bool use_src = ((return_type.IsBoolean() && src_type.IsByte()) ||
                           ((return_type.IsBoolean() || return_type.IsByte() ||
                            return_type.IsShort() || return_type.IsChar()) &&
@@ -1575,7 +1575,7 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
     case Instruction::RETURN_WIDE:
       if (!IsConstructor() || work_line_->CheckConstructorReturn()) {
         /* check the method signature */
-        const RegType& return_type = GetMethodReturnType();
+        RegType& return_type = GetMethodReturnType();
         if (!return_type.IsCategory2Types()) {
           Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "return-wide not expected";
         } else {
@@ -1590,7 +1590,7 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
       break;
     case Instruction::RETURN_OBJECT:
       if (!IsConstructor() || work_line_->CheckConstructorReturn()) {
-        const RegType& return_type = GetMethodReturnType();
+        RegType& return_type = GetMethodReturnType();
         if (!return_type.IsReferenceTypes()) {
           Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "return-object not expected";
         } else {
@@ -1598,7 +1598,7 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
           DCHECK(!return_type.IsZero());
           DCHECK(!return_type.IsUninitializedReference());
           const uint32_t vregA = inst->VRegA_11x();
-          const RegType& reg_type = work_line_->GetRegisterType(vregA);
+          RegType& reg_type = work_line_->GetRegisterType(vregA);
           // Disallow returning uninitialized values and verify that the reference in vAA is an
           // instance of the "return_type"
           if (reg_type.IsUninitializedTypes()) {
@@ -1645,29 +1645,29 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
       /* could be long or double; resolved upon use */
     case Instruction::CONST_WIDE_16: {
       int64_t val = static_cast<int16_t>(inst->VRegB_21s());
-      const RegType& lo = reg_types_.FromCat2ConstLo(static_cast<int32_t>(val), true);
-      const RegType& hi = reg_types_.FromCat2ConstHi(static_cast<int32_t>(val >> 32), true);
+      RegType& lo = reg_types_.FromCat2ConstLo(static_cast<int32_t>(val), true);
+      RegType& hi = reg_types_.FromCat2ConstHi(static_cast<int32_t>(val >> 32), true);
       work_line_->SetRegisterTypeWide(inst->VRegA_21s(), lo, hi);
       break;
     }
     case Instruction::CONST_WIDE_32: {
       int64_t val = static_cast<int32_t>(inst->VRegB_31i());
-      const RegType& lo = reg_types_.FromCat2ConstLo(static_cast<int32_t>(val), true);
-      const RegType& hi = reg_types_.FromCat2ConstHi(static_cast<int32_t>(val >> 32), true);
+      RegType& lo = reg_types_.FromCat2ConstLo(static_cast<int32_t>(val), true);
+      RegType& hi = reg_types_.FromCat2ConstHi(static_cast<int32_t>(val >> 32), true);
       work_line_->SetRegisterTypeWide(inst->VRegA_31i(), lo, hi);
       break;
     }
     case Instruction::CONST_WIDE: {
       int64_t val = inst->VRegB_51l();
-      const RegType& lo = reg_types_.FromCat2ConstLo(static_cast<int32_t>(val), true);
-      const RegType& hi = reg_types_.FromCat2ConstHi(static_cast<int32_t>(val >> 32), true);
+      RegType& lo = reg_types_.FromCat2ConstLo(static_cast<int32_t>(val), true);
+      RegType& hi = reg_types_.FromCat2ConstHi(static_cast<int32_t>(val >> 32), true);
       work_line_->SetRegisterTypeWide(inst->VRegA_51l(), lo, hi);
       break;
     }
     case Instruction::CONST_WIDE_HIGH16: {
       int64_t val = static_cast<uint64_t>(inst->VRegB_21h()) << 48;
-      const RegType& lo = reg_types_.FromCat2ConstLo(static_cast<int32_t>(val), true);
-      const RegType& hi = reg_types_.FromCat2ConstHi(static_cast<int32_t>(val >> 32), true);
+      RegType& lo = reg_types_.FromCat2ConstLo(static_cast<int32_t>(val), true);
+      RegType& hi = reg_types_.FromCat2ConstHi(static_cast<int32_t>(val >> 32), true);
       work_line_->SetRegisterTypeWide(inst->VRegA_21h(), lo, hi);
       break;
     }
@@ -1680,7 +1680,7 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
     case Instruction::CONST_CLASS: {
       // Get type from instruction if unresolved then we need an access check
       // TODO: check Compiler::CanAccessTypeWithoutChecks returns false when res_type is unresolved
-      const RegType& res_type = ResolveClassAndCheckAccess(inst->VRegB_21c());
+      RegType& res_type = ResolveClassAndCheckAccess(inst->VRegB_21c());
       // Register holds class, ie its type is class, on error it will hold Conflict.
       work_line_->SetRegisterType(inst->VRegA_21c(),
                                   res_type.IsConflict() ? res_type
@@ -1726,7 +1726,7 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
        */
       const bool is_checkcast = (inst->Opcode() == Instruction::CHECK_CAST);
       const uint32_t type_idx = (is_checkcast) ? inst->VRegB_21c() : inst->VRegC_22c();
-      const RegType& res_type = ResolveClassAndCheckAccess(type_idx);
+      RegType& res_type = ResolveClassAndCheckAccess(type_idx);
       if (res_type.IsConflict()) {
         // If this is a primitive type, fail HARD.
         mirror::Class* klass = (*dex_cache_)->GetResolvedType(type_idx);
@@ -1745,7 +1745,7 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
       }
       // TODO: check Compiler::CanAccessTypeWithoutChecks returns false when res_type is unresolved
       uint32_t orig_type_reg = (is_checkcast) ? inst->VRegA_21c() : inst->VRegB_22c();
-      const RegType& orig_type = work_line_->GetRegisterType(orig_type_reg);
+      RegType& orig_type = work_line_->GetRegisterType(orig_type_reg);
       if (!res_type.IsNonZeroReferenceTypes()) {
         if (is_checkcast) {
           Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "check-cast on unexpected class " << res_type;
@@ -1768,7 +1768,7 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
       break;
     }
     case Instruction::ARRAY_LENGTH: {
-      const RegType& res_type = work_line_->GetRegisterType(inst->VRegB_12x());
+      RegType& res_type = work_line_->GetRegisterType(inst->VRegB_12x());
       if (res_type.IsReferenceTypes()) {
         if (!res_type.IsArrayTypes() && !res_type.IsZero()) {  // ie not an array or null
           Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "array-length on non-array " << res_type;
@@ -1781,7 +1781,7 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
       break;
     }
     case Instruction::NEW_INSTANCE: {
-      const RegType& res_type = ResolveClassAndCheckAccess(inst->VRegB_21c());
+      RegType& res_type = ResolveClassAndCheckAccess(inst->VRegB_21c());
       if (res_type.IsConflict()) {
         DCHECK_NE(failures_.size(), 0U);
         break;  // bad class
@@ -1793,7 +1793,7 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
             << "new-instance on primitive, interface or abstract class" << res_type;
         // Soft failure so carry on to set register type.
       }
-      const RegType& uninit_type = reg_types_.Uninitialized(res_type, work_insn_idx_);
+      RegType& uninit_type = reg_types_.Uninitialized(res_type, work_insn_idx_);
       // Any registers holding previous allocations from this address that have not yet been
       // initialized must be marked invalid.
       work_line_->MarkUninitRefsAsInvalid(uninit_type);
@@ -1846,7 +1846,7 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
       work_line_->SetRegisterType(inst->VRegA_23x(), reg_types_.Integer());
       break;
     case Instruction::THROW: {
-      const RegType& res_type = work_line_->GetRegisterType(inst->VRegA_11x());
+      RegType& res_type = work_line_->GetRegisterType(inst->VRegA_11x());
       if (!reg_types_.JavaLangThrowable(false).IsAssignableFrom(res_type)) {
         Fail(res_type.IsUnresolvedTypes() ? VERIFY_ERROR_NO_CLASS : VERIFY_ERROR_BAD_CLASS_SOFT)
             << "thrown class " << res_type << " not instanceof Throwable";
@@ -1867,14 +1867,14 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
 
     case Instruction::FILL_ARRAY_DATA: {
       /* Similar to the verification done for APUT */
-      const RegType& array_type = work_line_->GetRegisterType(inst->VRegA_31t());
+      RegType& array_type = work_line_->GetRegisterType(inst->VRegA_31t());
       /* array_type can be null if the reg type is Zero */
       if (!array_type.IsZero()) {
         if (!array_type.IsArrayTypes()) {
           Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "invalid fill-array-data with array type "
                                             << array_type;
         } else {
-          const RegType& component_type = reg_types_.GetComponentType(array_type,
+          RegType& component_type = reg_types_.GetComponentType(array_type,
                                                                       class_loader_->Get());
           DCHECK(!component_type.IsConflict());
           if (component_type.IsNonZeroReferenceTypes()) {
@@ -1902,8 +1902,8 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
     }
     case Instruction::IF_EQ:
     case Instruction::IF_NE: {
-      const RegType& reg_type1 = work_line_->GetRegisterType(inst->VRegA_22t());
-      const RegType& reg_type2 = work_line_->GetRegisterType(inst->VRegB_22t());
+      RegType& reg_type1 = work_line_->GetRegisterType(inst->VRegA_22t());
+      RegType& reg_type2 = work_line_->GetRegisterType(inst->VRegB_22t());
       bool mismatch = false;
       if (reg_type1.IsZero()) {  // zero then integral or reference expected
         mismatch = !reg_type2.IsReferenceTypes() && !reg_type2.IsIntegralTypes();
@@ -1922,8 +1922,8 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
     case Instruction::IF_GE:
     case Instruction::IF_GT:
     case Instruction::IF_LE: {
-      const RegType& reg_type1 = work_line_->GetRegisterType(inst->VRegA_22t());
-      const RegType& reg_type2 = work_line_->GetRegisterType(inst->VRegB_22t());
+      RegType& reg_type1 = work_line_->GetRegisterType(inst->VRegA_22t());
+      RegType& reg_type2 = work_line_->GetRegisterType(inst->VRegB_22t());
       if (!reg_type1.IsIntegralTypes() || !reg_type2.IsIntegralTypes()) {
         Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "args to 'if' (" << reg_type1 << ","
                                           << reg_type2 << ") must be integral";
@@ -1932,7 +1932,7 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
     }
     case Instruction::IF_EQZ:
     case Instruction::IF_NEZ: {
-      const RegType& reg_type = work_line_->GetRegisterType(inst->VRegA_21t());
+      RegType& reg_type = work_line_->GetRegisterType(inst->VRegA_21t());
       if (!reg_type.IsReferenceTypes() && !reg_type.IsIntegralTypes()) {
         Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "type " << reg_type
                                           << " unexpected as arg to if-eqz/if-nez";
@@ -1978,8 +1978,8 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
         // type is assignable to the original then allow optimization. This check is performed to
         // ensure that subsequent merges don't lose type information - such as becoming an
         // interface from a class that would lose information relevant to field checks.
-        const RegType& orig_type = work_line_->GetRegisterType(instance_of_inst->VRegB_22c());
-        const RegType& cast_type = ResolveClassAndCheckAccess(instance_of_inst->VRegC_22c());
+        RegType& orig_type = work_line_->GetRegisterType(instance_of_inst->VRegB_22c());
+        RegType& cast_type = ResolveClassAndCheckAccess(instance_of_inst->VRegC_22c());
 
         if (!orig_type.Equals(cast_type) &&
             !cast_type.IsUnresolvedTypes() && !orig_type.IsUnresolvedTypes() &&
@@ -2034,7 +2034,7 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
     case Instruction::IF_GEZ:
     case Instruction::IF_GTZ:
     case Instruction::IF_LEZ: {
-      const RegType& reg_type = work_line_->GetRegisterType(inst->VRegA_21t());
+      RegType& reg_type = work_line_->GetRegisterType(inst->VRegA_21t());
       if (!reg_type.IsIntegralTypes()) {
         Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "type " << reg_type
                                           << " unexpected as arg to if-ltz/if-gez/if-gtz/if-lez";
@@ -2183,7 +2183,7 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
                        inst->Opcode() == Instruction::INVOKE_SUPER_RANGE);
       mirror::ArtMethod* called_method = VerifyInvocationArgs(inst, METHOD_VIRTUAL, is_range,
                                                               is_super);
-      const RegType* return_type = nullptr;
+      RegType* return_type = nullptr;
       if (called_method != nullptr) {
         Thread* self = Thread::Current();
         StackHandleScope<1> hs(self);
@@ -2239,7 +2239,7 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
          * allowing the latter only if the "this" argument is the same as the "this" argument to
          * this method (which implies that we're in a constructor ourselves).
          */
-        const RegType& this_type = work_line_->GetInvocationThis(inst, is_range);
+        RegType& this_type = work_line_->GetInvocationThis(inst, is_range);
         if (this_type.IsConflict())  // failure.
           break;
 
@@ -2250,7 +2250,7 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
         }
 
         /* must be in same class or in superclass */
-        // const RegType& this_super_klass = this_type.GetSuperClass(&reg_types_);
+        // RegType& this_super_klass = this_type.GetSuperClass(&reg_types_);
         // TODO: re-enable constructor type verification
         // if (this_super_klass.IsConflict()) {
           // Unknown super class, fail so we re-check at runtime.
@@ -2271,7 +2271,7 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
          */
         work_line_->MarkRefsAsInitialized(this_type);
       }
-      const RegType& return_type = reg_types_.FromDescriptor(class_loader_->Get(),
+      RegType& return_type = reg_types_.FromDescriptor(class_loader_->Get(),
                                                              return_type_descriptor, false);
       if (!return_type.IsLowHalf()) {
         work_line_->SetResultRegisterType(return_type);
@@ -2297,7 +2297,7 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
         } else {
           descriptor = called_method->GetReturnTypeDescriptor();
         }
-        const RegType& return_type = reg_types_.FromDescriptor(class_loader_->Get(), descriptor,
+        RegType& return_type = reg_types_.FromDescriptor(class_loader_->Get(), descriptor,
                                                                false);
         if (!return_type.IsLowHalf()) {
           work_line_->SetResultRegisterType(return_type);
@@ -2325,7 +2325,7 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
       /* Get the type of the "this" arg, which should either be a sub-interface of called
        * interface or Object (see comments in RegType::JoinClass).
        */
-      const RegType& this_type = work_line_->GetInvocationThis(inst, is_range);
+      RegType& this_type = work_line_->GetInvocationThis(inst, is_range);
       if (this_type.IsZero()) {
         /* null pointer always passes (and always fails at runtime) */
       } else {
@@ -2355,7 +2355,7 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
       } else {
         descriptor = abs_method->GetReturnTypeDescriptor();
       }
-      const RegType& return_type = reg_types_.FromDescriptor(class_loader_->Get(), descriptor,
+      RegType& return_type = reg_types_.FromDescriptor(class_loader_->Get(), descriptor,
                                                              false);
       if (!return_type.IsLowHalf()) {
         work_line_->SetResultRegisterType(return_type);
@@ -2621,7 +2621,7 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
       mirror::ArtMethod* called_method = VerifyInvokeVirtualQuickArgs(inst, is_range);
       if (called_method != NULL) {
         const char* descriptor = called_method->GetReturnTypeDescriptor();
-        const RegType& return_type = reg_types_.FromDescriptor(class_loader_->Get(), descriptor,
+        RegType& return_type = reg_types_.FromDescriptor(class_loader_->Get(), descriptor,
                                                                false);
         if (!return_type.IsLowHalf()) {
           work_line_->SetResultRegisterType(return_type);
@@ -2905,11 +2905,11 @@ bool MethodVerifier::CodeFlowVerifyInstruction(uint32_t* start_guess) {
   return true;
 }  // NOLINT(readability/fn_size)
 
-const RegType& MethodVerifier::ResolveClassAndCheckAccess(uint32_t class_idx) {
+RegType& MethodVerifier::ResolveClassAndCheckAccess(uint32_t class_idx) {
   const char* descriptor = dex_file_->StringByTypeIdx(class_idx);
-  const RegType& referrer = GetDeclaringClass();
+  RegType& referrer = GetDeclaringClass();
   mirror::Class* klass = (*dex_cache_)->GetResolvedType(class_idx);
-  const RegType& result =
+  RegType& result =
       klass != NULL ? reg_types_.FromClass(descriptor, klass,
                                            klass->CannotBeAssignedFromOtherTypes())
                     : reg_types_.FromDescriptor(class_loader_->Get(), descriptor, false);
@@ -2932,8 +2932,8 @@ const RegType& MethodVerifier::ResolveClassAndCheckAccess(uint32_t class_idx) {
   return result;
 }
 
-const RegType& MethodVerifier::GetCaughtExceptionType() {
-  const RegType* common_super = NULL;
+RegType& MethodVerifier::GetCaughtExceptionType() {
+  RegType* common_super = NULL;
   if (code_item_->tries_size_ != 0) {
     const byte* handlers_ptr = DexFile::GetCatchHandlerData(*code_item_, 0);
     uint32_t handlers_size = DecodeUnsignedLeb128(&handlers_ptr);
@@ -2944,7 +2944,7 @@ const RegType& MethodVerifier::GetCaughtExceptionType() {
           if (iterator.GetHandlerTypeIndex() == DexFile::kDexNoIndex16) {
             common_super = &reg_types_.JavaLangThrowable(false);
           } else {
-            const RegType& exception = ResolveClassAndCheckAccess(iterator.GetHandlerTypeIndex());
+            RegType& exception = ResolveClassAndCheckAccess(iterator.GetHandlerTypeIndex());
             if (!reg_types_.JavaLangThrowable(false).IsAssignableFrom(exception)) {
               if (exception.IsUnresolvedTypes()) {
                 // We don't know enough about the type. Fail here and let runtime handle it.
@@ -2979,7 +2979,7 @@ const RegType& MethodVerifier::GetCaughtExceptionType() {
 mirror::ArtMethod* MethodVerifier::ResolveMethodAndCheckAccess(uint32_t dex_method_idx,
                                                                MethodType method_type) {
   const DexFile::MethodId& method_id = dex_file_->GetMethodId(dex_method_idx);
-  const RegType& klass_type = ResolveClassAndCheckAccess(method_id.class_idx_);
+  RegType& klass_type = ResolveClassAndCheckAccess(method_id.class_idx_);
   if (klass_type.IsConflict()) {
     std::string append(" in attempt to access method ");
     append += dex_file_->GetMethodName(method_id);
@@ -2990,7 +2990,7 @@ mirror::ArtMethod* MethodVerifier::ResolveMethodAndCheckAccess(uint32_t dex_meth
     return NULL;  // Can't resolve Class so no more to do here
   }
   mirror::Class* klass = klass_type.GetClass();
-  const RegType& referrer = GetDeclaringClass();
+  RegType& referrer = GetDeclaringClass();
   mirror::ArtMethod* res_method = (*dex_cache_)->GetResolvedMethod(dex_method_idx);
   if (res_method == NULL) {
     const char* name = dex_file_->GetMethodName(method_id);
@@ -3097,7 +3097,7 @@ mirror::ArtMethod* MethodVerifier::VerifyInvocationArgsFromIterator(T* it, const
    * rigorous check here (which is okay since we have to do it at runtime).
    */
   if (method_type != METHOD_STATIC) {
-    const RegType& actual_arg_type = work_line_->GetInvocationThis(inst, is_range);
+    RegType& actual_arg_type = work_line_->GetInvocationThis(inst, is_range);
     if (actual_arg_type.IsConflict()) {  // GetInvocationThis failed.
       CHECK(have_pending_hard_failure_);
       return nullptr;
@@ -3118,7 +3118,7 @@ mirror::ArtMethod* MethodVerifier::VerifyInvocationArgsFromIterator(T* it, const
       }
     }
     if (method_type != METHOD_INTERFACE && !actual_arg_type.IsZero()) {
-      const RegType* res_method_class;
+      RegType* res_method_class;
       if (res_method != nullptr) {
         mirror::Class* klass = res_method->GetDeclaringClass();
         res_method_class = &reg_types_.FromClass(klass->GetDescriptor().c_str(), klass,
@@ -3159,12 +3159,12 @@ mirror::ArtMethod* MethodVerifier::VerifyInvocationArgsFromIterator(T* it, const
       return nullptr;
     }
 
-    const RegType& reg_type = reg_types_.FromDescriptor(class_loader_->Get(), param_descriptor,
+    RegType& reg_type = reg_types_.FromDescriptor(class_loader_->Get(), param_descriptor,
                                                         false);
     uint32_t get_reg = is_range ? inst->VRegC_3rc() + static_cast<uint32_t>(sig_registers) :
         arg[sig_registers];
     if (reg_type.IsIntegralTypes()) {
-      const RegType& src_type = work_line_->GetRegisterType(get_reg);
+      RegType& src_type = work_line_->GetRegisterType(get_reg);
       if (!src_type.IsIntegralTypes()) {
         Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "register v" << get_reg << " has type " << src_type
             << " but expected " << reg_type;
@@ -3247,7 +3247,7 @@ mirror::ArtMethod* MethodVerifier::VerifyInvocationArgs(const Instruction* inst,
   // has a vtable entry for the target method.
   if (is_super) {
     DCHECK(method_type == METHOD_VIRTUAL);
-    const RegType& super = GetDeclaringClass().GetSuperClass(&reg_types_);
+    RegType& super = GetDeclaringClass().GetSuperClass(&reg_types_);
     if (super.IsUnresolvedTypes()) {
       Fail(VERIFY_ERROR_NO_METHOD) << "unknown super class in invoke-super from "
                                    << PrettyMethod(dex_method_idx_, *dex_file_)
@@ -3275,7 +3275,7 @@ mirror::ArtMethod* MethodVerifier::GetQuickInvokedMethod(const Instruction* inst
                                                          RegisterLine* reg_line, bool is_range) {
   DCHECK(inst->Opcode() == Instruction::INVOKE_VIRTUAL_QUICK ||
          inst->Opcode() == Instruction::INVOKE_VIRTUAL_RANGE_QUICK);
-  const RegType& actual_arg_type = reg_line->GetInvocationThis(inst, is_range);
+  RegType& actual_arg_type = reg_line->GetInvocationThis(inst, is_range);
   if (!actual_arg_type.HasClass()) {
     VLOG(verifier) << "Failed to get mirror::Class* from '" << actual_arg_type << "'";
     return nullptr;
@@ -3313,7 +3313,7 @@ mirror::ArtMethod* MethodVerifier::VerifyInvokeVirtualQuickArgs(const Instructio
   // We use vAA as our expected arg count, rather than res_method->insSize, because we need to
   // match the call to the signature. Also, we might be calling through an abstract method
   // definition (which doesn't have register count values).
-  const RegType& actual_arg_type = work_line_->GetInvocationThis(inst, is_range);
+  RegType& actual_arg_type = work_line_->GetInvocationThis(inst, is_range);
   if (actual_arg_type.IsConflict()) {  // GetInvocationThis failed.
     return NULL;
   }
@@ -3337,7 +3337,7 @@ mirror::ArtMethod* MethodVerifier::VerifyInvokeVirtualQuickArgs(const Instructio
   }
   if (!actual_arg_type.IsZero()) {
     mirror::Class* klass = res_method->GetDeclaringClass();
-    const RegType& res_method_class =
+    RegType& res_method_class =
         reg_types_.FromClass(klass->GetDescriptor().c_str(), klass,
                              klass->CannotBeAssignedFromOtherTypes());
     if (!res_method_class.IsAssignableFrom(actual_arg_type)) {
@@ -3373,7 +3373,7 @@ mirror::ArtMethod* MethodVerifier::VerifyInvokeVirtualQuickArgs(const Instructio
                                         << " missing signature component";
       return NULL;
     }
-    const RegType& reg_type = reg_types_.FromDescriptor(class_loader_->Get(), descriptor, false);
+    RegType& reg_type = reg_types_.FromDescriptor(class_loader_->Get(), descriptor, false);
     uint32_t get_reg = is_range ? inst->VRegC_3rc() + actual_args : arg[actual_args];
     if (!work_line_->VerifyRegisterType(get_reg, reg_type)) {
       return res_method;
@@ -3401,7 +3401,7 @@ void MethodVerifier::VerifyNewArray(const Instruction* inst, bool is_filled, boo
     DCHECK_EQ(inst->Opcode(), Instruction::FILLED_NEW_ARRAY_RANGE);
     type_idx = inst->VRegB_3rc();
   }
-  const RegType& res_type = ResolveClassAndCheckAccess(type_idx);
+  RegType& res_type = ResolveClassAndCheckAccess(type_idx);
   if (res_type.IsConflict()) {  // bad class
     DCHECK_NE(failures_.size(), 0U);
   } else {
@@ -3412,12 +3412,12 @@ void MethodVerifier::VerifyNewArray(const Instruction* inst, bool is_filled, boo
       /* make sure "size" register is valid type */
       work_line_->VerifyRegisterType(inst->VRegB_22c(), reg_types_.Integer());
       /* set register type to array class */
-      const RegType& precise_type = reg_types_.FromUninitialized(res_type);
+      RegType& precise_type = reg_types_.FromUninitialized(res_type);
       work_line_->SetRegisterType(inst->VRegA_22c(), precise_type);
     } else {
       // Verify each register. If "arg_count" is bad, VerifyRegisterType() will run off the end of
       // the list and fail. It's legal, if silly, for arg_count to be zero.
-      const RegType& expected_type = reg_types_.GetComponentType(res_type, class_loader_->Get());
+      RegType& expected_type = reg_types_.GetComponentType(res_type, class_loader_->Get());
       uint32_t arg_count = (is_range) ? inst->VRegA_3rc() : inst->VRegA_35c();
       uint32_t arg[5];
       if (!is_range) {
@@ -3431,19 +3431,19 @@ void MethodVerifier::VerifyNewArray(const Instruction* inst, bool is_filled, boo
         }
       }
       // filled-array result goes into "result" register
-      const RegType& precise_type = reg_types_.FromUninitialized(res_type);
+      RegType& precise_type = reg_types_.FromUninitialized(res_type);
       work_line_->SetResultRegisterType(precise_type);
     }
   }
 }
 
 void MethodVerifier::VerifyAGet(const Instruction* inst,
-                                const RegType& insn_type, bool is_primitive) {
-  const RegType& index_type = work_line_->GetRegisterType(inst->VRegC_23x());
+                                RegType& insn_type, bool is_primitive) {
+  RegType& index_type = work_line_->GetRegisterType(inst->VRegC_23x());
   if (!index_type.IsArrayIndexTypes()) {
     Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "Invalid reg type for array index (" << index_type << ")";
   } else {
-    const RegType& array_type = work_line_->GetRegisterType(inst->VRegB_23x());
+    RegType& array_type = work_line_->GetRegisterType(inst->VRegB_23x());
     if (array_type.IsZero()) {
       // Null array class; this code path will fail at runtime. Infer a merge-able type from the
       // instruction type. TODO: have a proper notion of bottom here.
@@ -3459,7 +3459,7 @@ void MethodVerifier::VerifyAGet(const Instruction* inst,
       Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "not array type " << array_type << " with aget";
     } else {
       /* verify the class */
-      const RegType& component_type = reg_types_.GetComponentType(array_type, class_loader_->Get());
+      RegType& component_type = reg_types_.GetComponentType(array_type, class_loader_->Get());
       if (!component_type.IsReferenceTypes() && !is_primitive) {
         Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "primitive array type " << array_type
             << " source for aget-object";
@@ -3486,12 +3486,12 @@ void MethodVerifier::VerifyAGet(const Instruction* inst,
   }
 }
 
-void MethodVerifier::VerifyPrimitivePut(const RegType& target_type, const RegType& insn_type,
+void MethodVerifier::VerifyPrimitivePut(RegType& target_type, RegType& insn_type,
                                         const uint32_t vregA) {
   // Primitive assignability rules are weaker than regular assignability rules.
   bool instruction_compatible;
   bool value_compatible;
-  const RegType& value_type = work_line_->GetRegisterType(vregA);
+  RegType& value_type = work_line_->GetRegisterType(vregA);
   if (target_type.IsIntegralTypes()) {
     instruction_compatible = target_type.Equals(insn_type);
     value_compatible = value_type.IsIntegralTypes();
@@ -3500,11 +3500,11 @@ void MethodVerifier::VerifyPrimitivePut(const RegType& target_type, const RegTyp
     value_compatible = value_type.IsFloatTypes();
   } else if (target_type.IsLong()) {
     instruction_compatible = insn_type.IsLong();
-    const RegType& value_type_hi = work_line_->GetRegisterType(vregA + 1);
+    RegType& value_type_hi = work_line_->GetRegisterType(vregA + 1);
     value_compatible = value_type.IsLongTypes() && value_type.CheckWidePair(value_type_hi);
   } else if (target_type.IsDouble()) {
     instruction_compatible = insn_type.IsLong();  // no put-double, so expect put-long
-    const RegType& value_type_hi = work_line_->GetRegisterType(vregA + 1);
+    RegType& value_type_hi = work_line_->GetRegisterType(vregA + 1);
     value_compatible = value_type.IsDoubleTypes() && value_type.CheckWidePair(value_type_hi);
   } else {
     instruction_compatible = false;  // reference with primitive store
@@ -3526,19 +3526,19 @@ void MethodVerifier::VerifyPrimitivePut(const RegType& target_type, const RegTyp
 }
 
 void MethodVerifier::VerifyAPut(const Instruction* inst,
-                                const RegType& insn_type, bool is_primitive) {
-  const RegType& index_type = work_line_->GetRegisterType(inst->VRegC_23x());
+                                RegType& insn_type, bool is_primitive) {
+  RegType& index_type = work_line_->GetRegisterType(inst->VRegC_23x());
   if (!index_type.IsArrayIndexTypes()) {
     Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "Invalid reg type for array index (" << index_type << ")";
   } else {
-    const RegType& array_type = work_line_->GetRegisterType(inst->VRegB_23x());
+    RegType& array_type = work_line_->GetRegisterType(inst->VRegB_23x());
     if (array_type.IsZero()) {
       // Null array type; this code path will fail at runtime. Infer a merge-able type from the
       // instruction type.
     } else if (!array_type.IsArrayTypes()) {
       Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "not array type " << array_type << " with aput";
     } else {
-      const RegType& component_type = reg_types_.GetComponentType(array_type, class_loader_->Get());
+      RegType& component_type = reg_types_.GetComponentType(array_type, class_loader_->Get());
       const uint32_t vregA = inst->VRegA_23x();
       if (is_primitive) {
         VerifyPrimitivePut(component_type, insn_type, vregA);
@@ -3560,7 +3560,7 @@ void MethodVerifier::VerifyAPut(const Instruction* inst,
 mirror::ArtField* MethodVerifier::GetStaticField(int field_idx) {
   const DexFile::FieldId& field_id = dex_file_->GetFieldId(field_idx);
   // Check access to class
-  const RegType& klass_type = ResolveClassAndCheckAccess(field_id.class_idx_);
+  RegType& klass_type = ResolveClassAndCheckAccess(field_id.class_idx_);
   if (klass_type.IsConflict()) {  // bad class
     AppendToLastFailMessage(StringPrintf(" in attempt to access static field %d (%s) in %s",
                                          field_idx, dex_file_->GetFieldName(field_id),
@@ -3592,10 +3592,10 @@ mirror::ArtField* MethodVerifier::GetStaticField(int field_idx) {
   return field;
 }
 
-mirror::ArtField* MethodVerifier::GetInstanceField(const RegType& obj_type, int field_idx) {
+mirror::ArtField* MethodVerifier::GetInstanceField(RegType& obj_type, int field_idx) {
   const DexFile::FieldId& field_id = dex_file_->GetFieldId(field_idx);
   // Check access to class
-  const RegType& klass_type = ResolveClassAndCheckAccess(field_id.class_idx_);
+  RegType& klass_type = ResolveClassAndCheckAccess(field_id.class_idx_);
   if (klass_type.IsConflict()) {
     AppendToLastFailMessage(StringPrintf(" in attempt to access instance field %d (%s) in %s",
                                          field_idx, dex_file_->GetFieldName(field_id),
@@ -3629,7 +3629,7 @@ mirror::ArtField* MethodVerifier::GetInstanceField(const RegType& obj_type, int
     return field;
   } else {
     mirror::Class* klass = field->GetDeclaringClass();
-    const RegType& field_klass =
+    RegType& field_klass =
         reg_types_.FromClass(dex_file_->GetFieldDeclaringClassDescriptor(field_id),
                              klass, klass->CannotBeAssignedFromOtherTypes());
     if (obj_type.IsUninitializedTypes() &&
@@ -3654,17 +3654,17 @@ mirror::ArtField* MethodVerifier::GetInstanceField(const RegType& obj_type, int
   }
 }
 
-void MethodVerifier::VerifyISGet(const Instruction* inst, const RegType& insn_type,
+void MethodVerifier::VerifyISGet(const Instruction* inst, RegType& insn_type,
                                  bool is_primitive, bool is_static) {
   uint32_t field_idx = is_static ? inst->VRegB_21c() : inst->VRegC_22c();
   mirror::ArtField* field;
   if (is_static) {
     field = GetStaticField(field_idx);
   } else {
-    const RegType& object_type = work_line_->GetRegisterType(inst->VRegB_22c());
+    RegType& object_type = work_line_->GetRegisterType(inst->VRegB_22c());
     field = GetInstanceField(object_type, field_idx);
   }
-  const RegType* field_type = nullptr;
+  RegType* field_type = nullptr;
   if (field != NULL) {
     Thread* self = Thread::Current();
     mirror::Class* field_type_class;
@@ -3720,17 +3720,17 @@ void MethodVerifier::VerifyISGet(const Instruction* inst, const RegType& insn_ty
   }
 }
 
-void MethodVerifier::VerifyISPut(const Instruction* inst, const RegType& insn_type,
+void MethodVerifier::VerifyISPut(const Instruction* inst, RegType& insn_type,
                                  bool is_primitive, bool is_static) {
   uint32_t field_idx = is_static ? inst->VRegB_21c() : inst->VRegC_22c();
   mirror::ArtField* field;
   if (is_static) {
     field = GetStaticField(field_idx);
   } else {
-    const RegType& object_type = work_line_->GetRegisterType(inst->VRegB_22c());
+    RegType& object_type = work_line_->GetRegisterType(inst->VRegB_22c());
     field = GetInstanceField(object_type, field_idx);
   }
-  const RegType* field_type = nullptr;
+  RegType* field_type = nullptr;
   if (field != NULL) {
     if (field->IsFinal() && field->GetDeclaringClass() != GetDeclaringClass().GetClass()) {
       Fail(VERIFY_ERROR_ACCESS_FIELD) << "cannot modify final field " << PrettyField(field)
@@ -3782,7 +3782,7 @@ mirror::ArtField* MethodVerifier::GetQuickFieldAccess(const Instruction* inst,
          inst->Opcode() == Instruction::IPUT_QUICK ||
          inst->Opcode() == Instruction::IPUT_WIDE_QUICK ||
          inst->Opcode() == Instruction::IPUT_OBJECT_QUICK);
-  const RegType& object_type = reg_line->GetRegisterType(inst->VRegB_22c());
+  RegType& object_type = reg_line->GetRegisterType(inst->VRegB_22c());
   if (!object_type.HasClass()) {
     VLOG(verifier) << "Failed to get mirror::Class* from '" << object_type << "'";
     return nullptr;
@@ -3797,7 +3797,7 @@ mirror::ArtField* MethodVerifier::GetQuickFieldAccess(const Instruction* inst,
   return f;
 }
 
-void MethodVerifier::VerifyIGetQuick(const Instruction* inst, const RegType& insn_type,
+void MethodVerifier::VerifyIGetQuick(const Instruction* inst, RegType& insn_type,
                                      bool is_primitive) {
   DCHECK(Runtime::Current()->IsStarted());
   mirror::ArtField* field = GetQuickFieldAccess(inst, work_line_.get());
@@ -3812,7 +3812,7 @@ void MethodVerifier::VerifyIGetQuick(const Instruction* inst, const RegType& ins
     FieldHelper fh(h_field);
     field_type_class = fh.GetType(can_load_classes_);
   }
-  const RegType* field_type;
+  RegType* field_type;
   if (field_type_class != nullptr) {
     field_type = &reg_types_.FromClass(field->GetTypeDescriptor(), field_type_class,
                                        field_type_class->CannotBeAssignedFromOtherTypes());
@@ -3857,7 +3857,7 @@ void MethodVerifier::VerifyIGetQuick(const Instruction* inst, const RegType& ins
   }
 }
 
-void MethodVerifier::VerifyIPutQuick(const Instruction* inst, const RegType& insn_type,
+void MethodVerifier::VerifyIPutQuick(const Instruction* inst, RegType& insn_type,
                                      bool is_primitive) {
   DCHECK(Runtime::Current()->IsStarted());
   mirror::ArtField* field = GetQuickFieldAccess(inst, work_line_.get());
@@ -3867,7 +3867,7 @@ void MethodVerifier::VerifyIPutQuick(const Instruction* inst, const RegType& ins
   }
   const char* descriptor = field->GetTypeDescriptor();
   mirror::ClassLoader* loader = field->GetDeclaringClass()->GetClassLoader();
-  const RegType& field_type = reg_types_.FromDescriptor(loader, descriptor, false);
+  RegType& field_type = reg_types_.FromDescriptor(loader, descriptor, false);
   if (field != NULL) {
     if (field->IsFinal() && field->GetDeclaringClass() != GetDeclaringClass().GetClass()) {
       Fail(VERIFY_ERROR_ACCESS_FIELD) << "cannot modify final field " << PrettyField(field)
@@ -3880,7 +3880,7 @@ void MethodVerifier::VerifyIPutQuick(const Instruction* inst, const RegType& ins
     // Primitive field assignability rules are weaker than regular assignability rules
     bool instruction_compatible;
     bool value_compatible;
-    const RegType& value_type = work_line_->GetRegisterType(vregA);
+    RegType& value_type = work_line_->GetRegisterType(vregA);
     if (field_type.IsIntegralTypes()) {
       instruction_compatible = insn_type.IsIntegralTypes();
       value_compatible = value_type.IsIntegralTypes();
@@ -3998,7 +3998,7 @@ InstructionFlags* MethodVerifier::CurrentInsnFlags() {
   return &insn_flags_[work_insn_idx_];
 }
 
-const RegType& MethodVerifier::GetMethodReturnType() {
+RegType& MethodVerifier::GetMethodReturnType() {
   if (return_type_ == nullptr) {
     if (mirror_method_ != NULL) {
       Thread* self = Thread::Current();
@@ -4028,7 +4028,7 @@ const RegType& MethodVerifier::GetMethodReturnType() {
   return *return_type_;
 }
 
-const RegType& MethodVerifier::GetDeclaringClass() {
+RegType& MethodVerifier::GetDeclaringClass() {
   if (declaring_class_ == NULL) {
     const DexFile::MethodId& method_id = dex_file_->GetMethodId(dex_method_idx_);
     const char* descriptor
@@ -4049,7 +4049,7 @@ std::vector<int32_t> MethodVerifier::DescribeVRegs(uint32_t dex_pc) {
   DCHECK(line != nullptr) << "No register line at DEX pc " << StringPrintf("0x%x", dex_pc);
   std::vector<int32_t> result;
   for (size_t i = 0; i < line->NumRegs(); ++i) {
-    const RegType& type = line->GetRegisterType(i);
+    RegType& type = line->GetRegisterType(i);
     if (type.IsConstant()) {
       result.push_back(type.IsPreciseConstant() ? kConstant : kImpreciseConstant);
       result.push_back(type.ConstantValue());
@@ -4089,7 +4089,7 @@ std::vector<int32_t> MethodVerifier::DescribeVRegs(uint32_t dex_pc) {
   return result;
 }
 
-const RegType& MethodVerifier::DetermineCat1Constant(int32_t value, bool precise) {
+RegType& MethodVerifier::DetermineCat1Constant(int32_t value, bool precise) {
   if (precise) {
     // Precise constant type.
     return reg_types_.FromCat1Const(value, true);
diff --git a/runtime/verifier/method_verifier.h b/runtime/verifier/method_verifier.h
index 757c41993c..e63a90c2ba 100644
--- a/runtime/verifier/method_verifier.h
+++ b/runtime/verifier/method_verifier.h
@@ -230,7 +230,7 @@ class MethodVerifier {
   bool HasCheckCasts() const;
   bool HasVirtualOrInterfaceInvokes() const;
   bool HasFailures() const;
-  const RegType& ResolveCheckedClass(uint32_t class_idx)
+  RegType& ResolveCheckedClass(uint32_t class_idx)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
  private:
@@ -471,34 +471,34 @@ class MethodVerifier {
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   // Helper to perform verification on puts of primitive type.
-  void VerifyPrimitivePut(const RegType& target_type, const RegType& insn_type,
+  void VerifyPrimitivePut(RegType& target_type, RegType& insn_type,
                           const uint32_t vregA) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   // Perform verification of an aget instruction. The destination register's type will be set to
   // be that of component type of the array unless the array type is unknown, in which case a
   // bottom type inferred from the type of instruction is used. is_primitive is false for an
   // aget-object.
-  void VerifyAGet(const Instruction* inst, const RegType& insn_type,
+  void VerifyAGet(const Instruction* inst, RegType& insn_type,
                   bool is_primitive) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   // Perform verification of an aput instruction.
-  void VerifyAPut(const Instruction* inst, const RegType& insn_type,
+  void VerifyAPut(const Instruction* inst, RegType& insn_type,
                   bool is_primitive) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   // Lookup instance field and fail for resolution violations
-  mirror::ArtField* GetInstanceField(const RegType& obj_type, int field_idx)
+  mirror::ArtField* GetInstanceField(RegType& obj_type, int field_idx)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   // Lookup static field and fail for resolution violations
   mirror::ArtField* GetStaticField(int field_idx) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   // Perform verification of an iget or sget instruction.
-  void VerifyISGet(const Instruction* inst, const RegType& insn_type,
+  void VerifyISGet(const Instruction* inst, RegType& insn_type,
                    bool is_primitive, bool is_static)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   // Perform verification of an iput or sput instruction.
-  void VerifyISPut(const Instruction* inst, const RegType& insn_type,
+  void VerifyISPut(const Instruction* inst, RegType& insn_type,
                    bool is_primitive, bool is_static)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
@@ -508,18 +508,18 @@ class MethodVerifier {
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   // Perform verification of an iget-quick instruction.
-  void VerifyIGetQuick(const Instruction* inst, const RegType& insn_type,
+  void VerifyIGetQuick(const Instruction* inst, RegType& insn_type,
                        bool is_primitive)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   // Perform verification of an iput-quick instruction.
-  void VerifyIPutQuick(const Instruction* inst, const RegType& insn_type,
+  void VerifyIPutQuick(const Instruction* inst, RegType& insn_type,
                        bool is_primitive)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   // Resolves a class based on an index and performs access checks to ensure the referrer can
   // access the resolved class.
-  const RegType& ResolveClassAndCheckAccess(uint32_t class_idx)
+  RegType& ResolveClassAndCheckAccess(uint32_t class_idx)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   /*
@@ -527,7 +527,7 @@ class MethodVerifier {
    * address, determine the Join of all exceptions that can land here. Fails if no matching
    * exception handler can be found or if the Join of exception types fails.
    */
-  const RegType& GetCaughtExceptionType()
+  RegType& GetCaughtExceptionType()
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   /*
@@ -613,14 +613,14 @@ class MethodVerifier {
   }
 
   // Return the register type for the method.
-  const RegType& GetMethodReturnType() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  RegType& GetMethodReturnType() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   // Get a type representing the declaring class of the method.
-  const RegType& GetDeclaringClass() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  RegType& GetDeclaringClass() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   InstructionFlags* CurrentInsnFlags();
 
-  const RegType& DetermineCat1Constant(int32_t value, bool precise)
+  RegType& DetermineCat1Constant(int32_t value, bool precise)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   RegTypeCache reg_types_;
@@ -641,7 +641,7 @@ class MethodVerifier {
   // Its object representation if known.
   mirror::ArtMethod* mirror_method_ GUARDED_BY(Locks::mutator_lock_);
   const uint32_t method_access_flags_;  // Method's access flags.
-  const RegType* return_type_;  // Lazily computed return type of the method.
+  RegType* return_type_;  // Lazily computed return type of the method.
   const DexFile* const dex_file_;  // The dex file containing the method.
   // The dex_cache for the declaring class of the method.
   Handle<mirror::DexCache>* dex_cache_ GUARDED_BY(Locks::mutator_lock_);
@@ -649,7 +649,7 @@ class MethodVerifier {
   Handle<mirror::ClassLoader>* class_loader_ GUARDED_BY(Locks::mutator_lock_);
   const DexFile::ClassDef* const class_def_;  // The class def of the declaring class of the method.
   const DexFile::CodeItem* const code_item_;  // The code item containing the code for the method.
-  const RegType* declaring_class_;  // Lazily computed reg type of the method's declaring class.
+  RegType* declaring_class_;  // Lazily computed reg type of the method's declaring class.
   // Instruction widths and flags, one entry per code unit.
   std::unique_ptr<InstructionFlags[]> insn_flags_;
   // The dex PC of a FindLocksAtDexPc request, -1 otherwise.
diff --git a/runtime/verifier/reg_type.cc b/runtime/verifier/reg_type.cc
index f0729e4271..6422cdf979 100644
--- a/runtime/verifier/reg_type.cc
+++ b/runtime/verifier/reg_type.cc
@@ -81,7 +81,7 @@ Cat2Type::Cat2Type(mirror::Class* klass, const std::string& descriptor, uint16_t
     : PrimitiveType(klass, descriptor, cache_id) {
 }
 
-std::string PreciseConstType::Dump() const {
+std::string PreciseConstType::Dump() {
   std::stringstream result;
   uint32_t val = ConstantValue();
   if (val == 0) {
@@ -98,47 +98,47 @@ std::string PreciseConstType::Dump() const {
   return result.str();
 }
 
-std::string BooleanType::Dump() const {
+std::string BooleanType::Dump() {
   return "Boolean";
 }
 
-std::string ConflictType::Dump() const {
+std::string ConflictType::Dump() {
     return "Conflict";
 }
 
-std::string ByteType::Dump() const {
+std::string ByteType::Dump() {
   return "Byte";
 }
 
-std::string ShortType::Dump() const {
+std::string ShortType::Dump() {
   return "Short";
 }
 
-std::string CharType::Dump() const {
+std::string CharType::Dump() {
   return "Char";
 }
 
-std::string FloatType::Dump() const {
+std::string FloatType::Dump() {
   return "Float";
 }
 
-std::string LongLoType::Dump() const {
+std::string LongLoType::Dump() {
   return "Long (Low Half)";
 }
 
-std::string LongHiType::Dump() const {
+std::string LongHiType::Dump() {
   return "Long (High Half)";
 }
 
-std::string DoubleLoType::Dump() const {
+std::string DoubleLoType::Dump() {
   return "Double (Low Half)";
 }
 
-std::string DoubleHiType::Dump() const {
+std::string DoubleHiType::Dump() {
   return "Double (High Half)";
 }
 
-std::string IntegerType::Dump() const {
+std::string IntegerType::Dump() {
     return "Integer";
 }
 
@@ -361,7 +361,7 @@ void BooleanType::Destroy() {
   }
 }
 
-std::string UndefinedType::Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
+std::string UndefinedType::Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
   return "Undefined";
 }
 
@@ -391,7 +391,7 @@ PreciseReferenceType::PreciseReferenceType(mirror::Class* klass, const std::stri
   DCHECK(klass->IsInstantiable());
 }
 
-std::string UnresolvedMergedType::Dump() const {
+std::string UnresolvedMergedType::Dump() {
   std::stringstream result;
   std::set<uint16_t> types = GetMergedTypes();
   result << "UnresolvedMergedReferences(";
@@ -405,59 +405,59 @@ std::string UnresolvedMergedType::Dump() const {
   return result.str();
 }
 
-std::string UnresolvedSuperClass::Dump() const {
+std::string UnresolvedSuperClass::Dump() {
   std::stringstream result;
   uint16_t super_type_id = GetUnresolvedSuperClassChildId();
   result << "UnresolvedSuperClass(" << reg_type_cache_->GetFromId(super_type_id).Dump() << ")";
   return result.str();
 }
 
-std::string UnresolvedReferenceType::Dump() const {
+std::string UnresolvedReferenceType::Dump() {
   std::stringstream result;
   result << "Unresolved Reference" << ": " << PrettyDescriptor(GetDescriptor());
   return result.str();
 }
 
-std::string UnresolvedUninitializedRefType::Dump() const {
+std::string UnresolvedUninitializedRefType::Dump() {
   std::stringstream result;
   result << "Unresolved And Uninitialized Reference" << ": " << PrettyDescriptor(GetDescriptor());
   result << " Allocation PC: " << GetAllocationPc();
   return result.str();
 }
 
-std::string UnresolvedUninitializedThisRefType::Dump() const {
+std::string UnresolvedUninitializedThisRefType::Dump() {
   std::stringstream result;
   result << "Unresolved And Uninitialized This Reference" << PrettyDescriptor(GetDescriptor());
   return result.str();
 }
 
-std::string ReferenceType::Dump() const {
+std::string ReferenceType::Dump() {
   std::stringstream result;
   result << "Reference" << ": " << PrettyDescriptor(GetClass());
   return result.str();
 }
 
-std::string PreciseReferenceType::Dump() const {
+std::string PreciseReferenceType::Dump() {
   std::stringstream result;
   result << "Precise Reference" << ": "<< PrettyDescriptor(GetClass());
   return result.str();
 }
 
-std::string UninitializedReferenceType::Dump() const {
+std::string UninitializedReferenceType::Dump() {
   std::stringstream result;
   result << "Uninitialized Reference" << ": " << PrettyDescriptor(GetClass());
   result << " Allocation PC: " << GetAllocationPc();
   return result.str();
 }
 
-std::string UninitializedThisReferenceType::Dump() const {
+std::string UninitializedThisReferenceType::Dump() {
   std::stringstream result;
   result << "Uninitialized This Reference" << ": " << PrettyDescriptor(GetClass());
   result << "Allocation PC: " << GetAllocationPc();
   return result.str();
 }
 
-std::string ImpreciseConstType::Dump() const {
+std::string ImpreciseConstType::Dump() {
   std::stringstream result;
   uint32_t val = ConstantValue();
   if (val == 0) {
@@ -472,7 +472,7 @@ std::string ImpreciseConstType::Dump() const {
   }
   return result.str();
 }
-std::string PreciseConstLoType::Dump() const {
+std::string PreciseConstLoType::Dump() {
   std::stringstream result;
 
   int32_t val = ConstantValueLo();
@@ -486,7 +486,7 @@ std::string PreciseConstLoType::Dump() const {
   return result.str();
 }
 
-std::string ImpreciseConstLoType::Dump() const {
+std::string ImpreciseConstLoType::Dump() {
   std::stringstream result;
 
   int32_t val = ConstantValueLo();
@@ -500,7 +500,7 @@ std::string ImpreciseConstLoType::Dump() const {
   return result.str();
 }
 
-std::string PreciseConstHiType::Dump() const {
+std::string PreciseConstHiType::Dump() {
   std::stringstream result;
   int32_t val = ConstantValueHi();
   result << "Precise ";
@@ -513,7 +513,7 @@ std::string PreciseConstHiType::Dump() const {
   return result.str();
 }
 
-std::string ImpreciseConstHiType::Dump() const {
+std::string ImpreciseConstHiType::Dump() {
   std::stringstream result;
   int32_t val = ConstantValueHi();
   result << "Imprecise ";
@@ -530,7 +530,7 @@ ConstantType::ConstantType(uint32_t constant, uint16_t cache_id)
     : RegType(NULL, "", cache_id), constant_(constant) {
 }
 
-const RegType& UndefinedType::Merge(const RegType& incoming_type, RegTypeCache* reg_types) const
+RegType& UndefinedType::Merge(RegType& incoming_type, RegTypeCache* reg_types)
     SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
   if (incoming_type.IsUndefined()) {
     return *this;  // Undefined MERGE Undefined => Undefined
@@ -538,7 +538,7 @@ const RegType& UndefinedType::Merge(const RegType& incoming_type, RegTypeCache*
   return reg_types->Conflict();
 }
 
-const RegType& RegType::HighHalf(RegTypeCache* cache) const {
+RegType& RegType::HighHalf(RegTypeCache* cache) const {
   DCHECK(IsLowHalf());
   if (IsLongLo()) {
     return cache->LongHi();
@@ -586,12 +586,10 @@ bool UnresolvedType::IsNonZeroReferenceTypes() const {
 }
 std::set<uint16_t> UnresolvedMergedType::GetMergedTypes() const {
   std::pair<uint16_t, uint16_t> refs = GetTopMergedTypes();
-  const RegType& _left(reg_type_cache_->GetFromId(refs.first));
-  RegType& __left(const_cast<RegType&>(_left));
-  UnresolvedMergedType* left = down_cast<UnresolvedMergedType*>(&__left);
+  RegType& _left(reg_type_cache_->GetFromId(refs.first));
+  UnresolvedMergedType* left = down_cast<UnresolvedMergedType*>(&_left);
 
-  RegType& _right(
-      const_cast<RegType&>(reg_type_cache_->GetFromId(refs.second)));
+  RegType& _right(reg_type_cache_->GetFromId(refs.second));
   UnresolvedMergedType* right = down_cast<UnresolvedMergedType*>(&_right);
 
   std::set<uint16_t> types;
@@ -614,7 +612,7 @@ std::set<uint16_t> UnresolvedMergedType::GetMergedTypes() const {
   return types;
 }
 
-const RegType& RegType::GetSuperClass(RegTypeCache* cache) const {
+RegType& RegType::GetSuperClass(RegTypeCache* cache) {
   if (!IsUnresolvedTypes()) {
     mirror::Class* super_klass = GetClass()->GetSuperClass();
     if (super_klass != NULL) {
@@ -635,7 +633,7 @@ const RegType& RegType::GetSuperClass(RegTypeCache* cache) const {
   }
 }
 
-bool RegType::CanAccess(const RegType& other) const {
+bool RegType::CanAccess(RegType& other) {
   if (Equals(other)) {
     return true;  // Trivial accessibility.
   } else {
@@ -651,7 +649,7 @@ bool RegType::CanAccess(const RegType& other) const {
   }
 }
 
-bool RegType::CanAccessMember(mirror::Class* klass, uint32_t access_flags) const {
+bool RegType::CanAccessMember(mirror::Class* klass, uint32_t access_flags) {
   if ((access_flags & kAccPublic) != 0) {
     return true;
   }
@@ -662,7 +660,7 @@ bool RegType::CanAccessMember(mirror::Class* klass, uint32_t access_flags) const
   }
 }
 
-bool RegType::IsObjectArrayTypes() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
+bool RegType::IsObjectArrayTypes() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
   if (IsUnresolvedTypes() && !IsUnresolvedMergedReference() && !IsUnresolvedSuperClass()) {
     // Primitive arrays will always resolve
     DCHECK(descriptor_[1] == 'L' || descriptor_[1] == '[');
@@ -675,11 +673,11 @@ bool RegType::IsObjectArrayTypes() const SHARED_LOCKS_REQUIRED(Locks::mutator_lo
   }
 }
 
-bool RegType::IsJavaLangObject() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
+bool RegType::IsJavaLangObject() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
   return IsReference() && GetClass()->IsObjectClass();
 }
 
-bool RegType::IsArrayTypes() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
+bool RegType::IsArrayTypes() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
   if (IsUnresolvedTypes() && !IsUnresolvedMergedReference() && !IsUnresolvedSuperClass()) {
     return descriptor_[0] == '[';
   } else if (HasClass()) {
@@ -689,7 +687,7 @@ bool RegType::IsArrayTypes() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
   }
 }
 
-bool RegType::IsJavaLangObjectArray() const {
+bool RegType::IsJavaLangObjectArray() {
   if (HasClass()) {
     mirror::Class* type = GetClass();
     return type->IsArrayClass() && type->GetComponentType()->IsObjectClass();
@@ -697,7 +695,7 @@ bool RegType::IsJavaLangObjectArray() const {
   return false;
 }
 
-bool RegType::IsInstantiableTypes() const {
+bool RegType::IsInstantiableTypes() {
   return IsUnresolvedTypes() || (IsNonZeroReferenceTypes() && GetClass()->IsInstantiable());
 }
 
@@ -705,7 +703,7 @@ ImpreciseConstType::ImpreciseConstType(uint32_t constat, uint16_t cache_id)
   : ConstantType(constat, cache_id) {
 }
 
-static bool AssignableFrom(const RegType& lhs, const RegType& rhs, bool strict)
+static bool AssignableFrom(RegType& lhs, RegType& rhs, bool strict)
     SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
   if (lhs.Equals(rhs)) {
     return true;
@@ -753,11 +751,11 @@ static bool AssignableFrom(const RegType& lhs, const RegType& rhs, bool strict)
   }
 }
 
-bool RegType::IsAssignableFrom(const RegType& src) const {
+bool RegType::IsAssignableFrom(RegType& src) {
   return AssignableFrom(*this, src, false);
 }
 
-bool RegType::IsStrictlyAssignableFrom(const RegType& src) const {
+bool RegType::IsStrictlyAssignableFrom(RegType& src) {
   return AssignableFrom(*this, src, true);
 }
 
@@ -775,11 +773,11 @@ int32_t ConstantType::ConstantValueHi() const {
   }
 }
 
-static const RegType& SelectNonConstant(const RegType& a, const RegType& b) {
+static RegType& SelectNonConstant(RegType& a, RegType& b) {
   return a.IsConstantTypes() ? b : a;
 }
 
-const RegType& RegType::Merge(const RegType& incoming_type, RegTypeCache* reg_types) const {
+RegType& RegType::Merge(RegType& incoming_type, RegTypeCache* reg_types) {
   DCHECK(!Equals(incoming_type));  // Trivial equality handled by caller
   if (IsConflict()) {
     return *this;  // Conflict MERGE * => Conflict
@@ -958,16 +956,16 @@ mirror::Class* RegType::ClassJoin(mirror::Class* s, mirror::Class* t) {
 void RegType::CheckInvariants() const {
   if (IsConstant() || IsConstantLo() || IsConstantHi()) {
     CHECK(descriptor_.empty()) << *this;
-    CHECK(klass_ == NULL) << *this;
+    CHECK(klass_.IsNull()) << *this;
   }
-  if (klass_ != NULL) {
+  if (!klass_.IsNull()) {
     CHECK(!descriptor_.empty()) << *this;
   }
 }
 
 void RegType::VisitRoots(RootCallback* callback, void* arg) {
-  if (klass_ != nullptr) {
-    callback(reinterpret_cast<mirror::Object**>(&klass_), arg, 0, kRootUnknown);
+  if (!klass_.IsNull()) {
+    klass_.VisitRoot(callback, arg, 0, kRootUnknown);
   }
 }
 
@@ -978,36 +976,37 @@ void UninitializedThisReferenceType::CheckInvariants() const {
 void UnresolvedUninitializedThisRefType::CheckInvariants() const {
   CHECK_EQ(GetAllocationPc(), 0U) << *this;
   CHECK(!descriptor_.empty()) << *this;
-  CHECK(klass_ == NULL) << *this;
+  CHECK(klass_.IsNull()) << *this;
 }
 
 void UnresolvedUninitializedRefType::CheckInvariants() const {
   CHECK(!descriptor_.empty()) << *this;
-  CHECK(klass_ == NULL) << *this;
+  CHECK(klass_.IsNull()) << *this;
 }
 
 void UnresolvedMergedType::CheckInvariants() const {
   // Unresolved merged types: merged types should be defined.
   CHECK(descriptor_.empty()) << *this;
-  CHECK(klass_ == NULL) << *this;
+  CHECK(klass_.IsNull()) << *this;
   CHECK_NE(merged_types_.first, 0U) << *this;
   CHECK_NE(merged_types_.second, 0U) << *this;
 }
 
 void UnresolvedReferenceType::CheckInvariants() const {
   CHECK(!descriptor_.empty()) << *this;
-  CHECK(klass_ == NULL) << *this;
+  CHECK(klass_.IsNull()) << *this;
 }
 
 void UnresolvedSuperClass::CheckInvariants() const {
   // Unresolved merged types: merged types should be defined.
   CHECK(descriptor_.empty()) << *this;
-  CHECK(klass_ == NULL) << *this;
+  CHECK(klass_.IsNull()) << *this;
   CHECK_NE(unresolved_child_id_, 0U) << *this;
 }
 
 std::ostream& operator<<(std::ostream& os, const RegType& rhs) {
-  os << rhs.Dump();
+  RegType& rhs_non_const = const_cast<RegType&>(rhs);
+  os << rhs_non_const.Dump();
   return os;
 }
 
diff --git a/runtime/verifier/reg_type.h b/runtime/verifier/reg_type.h
index e985f3a2de..d508fb5ffc 100644
--- a/runtime/verifier/reg_type.h
+++ b/runtime/verifier/reg_type.h
@@ -25,6 +25,7 @@
 #include "jni.h"
 
 #include "base/macros.h"
+#include "gc_root.h"
 #include "globals.h"
 #include "object_callbacks.h"
 #include "primitive.h"
@@ -107,7 +108,7 @@ class RegType {
     return IsLowHalf();
   }
   // Check this is the low half, and that type_h is its matching high-half.
-  inline bool CheckWidePair(const RegType& type_h) const {
+  inline bool CheckWidePair(RegType& type_h) const {
     if (IsLowHalf()) {
       return ((IsPreciseConstantLo() && type_h.IsPreciseConstantHi()) ||
               (IsPreciseConstantLo() && type_h.IsImpreciseConstantHi()) ||
@@ -119,7 +120,7 @@ class RegType {
     return false;
   }
   // The high half that corresponds to this low half
-  const RegType& HighHalf(RegTypeCache* cache) const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  RegType& HighHalf(RegTypeCache* cache) const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   bool IsConstantBoolean() const {
     return IsConstant() && (ConstantValue() >= 0) && (ConstantValue() <= 1);
@@ -198,55 +199,54 @@ class RegType {
   virtual bool HasClass() const {
     return false;
   }
-  bool IsJavaLangObject() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
-  bool IsArrayTypes() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
-  bool IsObjectArrayTypes() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  bool IsJavaLangObject() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  bool IsArrayTypes() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  bool IsObjectArrayTypes() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
   Primitive::Type GetPrimitiveType() const;
-  bool IsJavaLangObjectArray() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
-  bool IsInstantiableTypes() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  bool IsJavaLangObjectArray() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  bool IsInstantiableTypes() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
   const std::string& GetDescriptor() const {
     DCHECK(HasClass() || (IsUnresolvedTypes() && !IsUnresolvedMergedReference() &&
                           !IsUnresolvedSuperClass()));
     return descriptor_;
   }
-  mirror::Class* GetClass() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
+  mirror::Class* GetClass() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
     DCHECK(!IsUnresolvedReference());
-    DCHECK(klass_ != NULL) << Dump();
+    DCHECK(!klass_.IsNull()) << Dump();
     DCHECK(HasClass());
-    return klass_;
+    return klass_.Read();
   }
   uint16_t GetId() const {
     return cache_id_;
   }
-  const RegType& GetSuperClass(RegTypeCache* cache) const
+  RegType& GetSuperClass(RegTypeCache* cache)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
-  virtual std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) = 0;
+  virtual std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) = 0;
 
   // Can this type access other?
-  bool CanAccess(const RegType& other) const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  bool CanAccess(RegType& other) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   // Can this type access a member with the given properties?
-  bool CanAccessMember(mirror::Class* klass, uint32_t access_flags) const
+  bool CanAccessMember(mirror::Class* klass, uint32_t access_flags)
     SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   // Can this type be assigned by src?
   // Note: Object and interface types may always be assigned to one another, see comment on
   // ClassJoin.
-  bool IsAssignableFrom(const RegType& src) const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  bool IsAssignableFrom(RegType& src) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   // Can this type be assigned by src? Variant of IsAssignableFrom that doesn't allow assignment to
   // an interface from an Object.
-  bool IsStrictlyAssignableFrom(const RegType& src) const
-      SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  bool IsStrictlyAssignableFrom(RegType& src) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   // Are these RegTypes the same?
-  bool Equals(const RegType& other) const {
+  bool Equals(RegType& other) const {
     return GetId() == other.GetId();
   }
 
   // Compute the merge of this register from one edge (path) with incoming_type from another.
-  virtual const RegType& Merge(const RegType& incoming_type, RegTypeCache* reg_types) const
+  virtual RegType& Merge(RegType& incoming_type, RegTypeCache* reg_types)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   /*
@@ -275,7 +275,7 @@ class RegType {
  protected:
   RegType(mirror::Class* klass, const std::string& descriptor, uint16_t cache_id)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_)
-      : descriptor_(descriptor), klass_(klass), cache_id_(cache_id) {
+      : descriptor_(descriptor), klass_(GcRoot<mirror::Class>(klass)), cache_id_(cache_id) {
     if (kIsDebugBuild) {
       CheckInvariants();
     }
@@ -285,7 +285,7 @@ class RegType {
 
 
   const std::string descriptor_;
-  mirror::Class* klass_;  // Non-const only due to moving classes.
+  GcRoot<mirror::Class> klass_;
   const uint16_t cache_id_;
 
   friend class RegTypeCache;
@@ -301,7 +301,7 @@ class ConflictType : public RegType {
     return true;
   }
 
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   // Get the singleton Conflict instance.
   static ConflictType* GetInstance();
@@ -331,7 +331,7 @@ class UndefinedType : public RegType {
     return true;
   }
 
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   // Get the singleton Undefined instance.
   static UndefinedType* GetInstance();
@@ -350,7 +350,7 @@ class UndefinedType : public RegType {
       : RegType(klass, descriptor, cache_id) {
   }
 
-  virtual const RegType& Merge(const RegType& incoming_type, RegTypeCache* reg_types) const
+  virtual RegType& Merge(RegType& incoming_type, RegTypeCache* reg_types)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   static UndefinedType* instance_;
@@ -373,7 +373,7 @@ class IntegerType : public Cat1Type {
   bool IsInteger() const {
     return true;
   }
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
   static IntegerType* CreateInstance(mirror::Class* klass, const std::string& descriptor,
                                      uint16_t cache_id)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
@@ -392,7 +392,7 @@ class BooleanType : public Cat1Type {
   bool IsBoolean() const {
     return true;
   }
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
   static BooleanType* CreateInstance(mirror::Class* klass, const std::string& descriptor,
                                      uint16_t cache_id)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
@@ -412,7 +412,7 @@ class ByteType : public Cat1Type {
   bool IsByte() const {
     return true;
   }
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
   static ByteType* CreateInstance(mirror::Class* klass, const std::string& descriptor,
                                   uint16_t cache_id)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
@@ -431,7 +431,7 @@ class ShortType : public Cat1Type {
   bool IsShort() const {
     return true;
   }
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
   static ShortType* CreateInstance(mirror::Class* klass, const std::string& descriptor,
                                    uint16_t cache_id)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
@@ -450,7 +450,7 @@ class CharType : public Cat1Type {
   bool IsChar() const {
     return true;
   }
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
   static CharType* CreateInstance(mirror::Class* klass, const std::string& descriptor,
                                   uint16_t cache_id)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
@@ -469,7 +469,7 @@ class FloatType : public Cat1Type {
   bool IsFloat() const {
     return true;
   }
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
   static FloatType* CreateInstance(mirror::Class* klass, const std::string& descriptor,
                                    uint16_t cache_id)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
@@ -491,7 +491,7 @@ class Cat2Type : public PrimitiveType {
 
 class LongLoType : public Cat2Type {
  public:
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
   bool IsLongLo() const {
     return true;
   }
@@ -513,7 +513,7 @@ class LongLoType : public Cat2Type {
 
 class LongHiType : public Cat2Type {
  public:
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
   bool IsLongHi() const {
     return true;
   }
@@ -532,7 +532,7 @@ class LongHiType : public Cat2Type {
 
 class DoubleLoType : public Cat2Type {
  public:
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
   bool IsDoubleLo() const {
     return true;
   }
@@ -554,7 +554,7 @@ class DoubleLoType : public Cat2Type {
 
 class DoubleHiType : public Cat2Type {
  public:
-  std::string Dump() const;
+  std::string Dump();
   virtual bool IsDoubleHi() const {
     return true;
   }
@@ -621,7 +621,7 @@ class PreciseConstType : public ConstantType {
     return true;
   }
 
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 };
 
 class PreciseConstLoType : public ConstantType {
@@ -633,7 +633,7 @@ class PreciseConstLoType : public ConstantType {
   bool IsPreciseConstantLo() const {
     return true;
   }
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 };
 
 class PreciseConstHiType : public ConstantType {
@@ -645,7 +645,7 @@ class PreciseConstHiType : public ConstantType {
   bool IsPreciseConstantHi() const {
     return true;
   }
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 };
 
 class ImpreciseConstType : public ConstantType {
@@ -655,7 +655,7 @@ class ImpreciseConstType : public ConstantType {
   bool IsImpreciseConstant() const {
     return true;
   }
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 };
 
 class ImpreciseConstLoType : public ConstantType {
@@ -666,7 +666,7 @@ class ImpreciseConstLoType : public ConstantType {
   bool IsImpreciseConstantLo() const {
     return true;
   }
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 };
 
 class ImpreciseConstHiType : public ConstantType {
@@ -677,7 +677,7 @@ class ImpreciseConstHiType : public ConstantType {
   bool IsImpreciseConstantHi() const {
     return true;
   }
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 };
 
 // Common parent of all uninitialized types. Uninitialized types are created by "new" dex
@@ -718,7 +718,7 @@ class UninitializedReferenceType : public UninitializedType {
     return true;
   }
 
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 };
 
 // Similar to UnresolvedReferenceType but not yet having been passed to a constructor.
@@ -737,7 +737,7 @@ class UnresolvedUninitializedRefType : public UninitializedType {
     return true;
   }
 
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
  private:
   void CheckInvariants() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 };
@@ -762,7 +762,7 @@ class UninitializedThisReferenceType : public UninitializedType {
     return true;
   }
 
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
  private:
   void CheckInvariants() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
@@ -782,7 +782,7 @@ class UnresolvedUninitializedThisRefType : public UninitializedType {
     return true;
   }
 
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
  private:
   void CheckInvariants() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 };
@@ -807,7 +807,7 @@ class ReferenceType : public RegType {
     return true;
   }
 
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 };
 
 // A type of register holding a reference to an Object of type GetClass and only an object of that
@@ -829,7 +829,7 @@ class PreciseReferenceType : public RegType {
     return true;
   }
 
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 };
 
 // Common parent of unresolved types.
@@ -857,7 +857,7 @@ class UnresolvedReferenceType : public UnresolvedType {
     return true;
   }
 
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
  private:
   void CheckInvariants() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 };
@@ -883,7 +883,7 @@ class UnresolvedSuperClass : public UnresolvedType {
     return static_cast<uint16_t>(unresolved_child_id_ & 0xFFFF);
   }
 
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
  private:
   void CheckInvariants() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
@@ -918,7 +918,7 @@ class UnresolvedMergedType : public UnresolvedType {
     return true;
   }
 
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
  private:
   void CheckInvariants() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
diff --git a/runtime/verifier/reg_type_cache-inl.h b/runtime/verifier/reg_type_cache-inl.h
index fc9e5c98f7..fdf96a86e1 100644
--- a/runtime/verifier/reg_type_cache-inl.h
+++ b/runtime/verifier/reg_type_cache-inl.h
@@ -24,14 +24,14 @@
 namespace art {
 namespace verifier {
 
-inline const art::verifier::RegType& RegTypeCache::GetFromId(uint16_t id) const {
+inline RegType& RegTypeCache::GetFromId(uint16_t id) const {
   DCHECK_LT(id, entries_.size());
   RegType* result = entries_[id];
   DCHECK(result != NULL);
   return *result;
 }
 
-inline const ConstantType& RegTypeCache::FromCat1Const(int32_t value, bool precise) {
+inline ConstantType& RegTypeCache::FromCat1Const(int32_t value, bool precise) {
   // We only expect 0 to be a precise constant.
   DCHECK(value != 0 || precise);
   if (precise && (value >= kMinSmallConstant) && (value <= kMaxSmallConstant)) {
diff --git a/runtime/verifier/reg_type_cache.cc b/runtime/verifier/reg_type_cache.cc
index d51374bf2d..255b506d1d 100644
--- a/runtime/verifier/reg_type_cache.cc
+++ b/runtime/verifier/reg_type_cache.cc
@@ -65,8 +65,8 @@ void RegTypeCache::FillPrimitiveAndSmallConstantTypes() {
   DCHECK_EQ(entries_.size(), primitive_count_);
 }
 
-const RegType& RegTypeCache::FromDescriptor(mirror::ClassLoader* loader, const char* descriptor,
-                                            bool precise) {
+RegType& RegTypeCache::FromDescriptor(mirror::ClassLoader* loader, const char* descriptor,
+                                      bool precise) {
   DCHECK(RegTypeCache::primitive_initialized_);
   if (descriptor[1] == '\0') {
     switch (descriptor[0]) {
@@ -97,7 +97,7 @@ const RegType& RegTypeCache::FromDescriptor(mirror::ClassLoader* loader, const c
   }
 };
 
-const RegType& RegTypeCache::RegTypeFromPrimitiveType(Primitive::Type prim_type) const {
+RegType& RegTypeCache::RegTypeFromPrimitiveType(Primitive::Type prim_type) const {
   CHECK(RegTypeCache::primitive_initialized_);
   switch (prim_type) {
     case Primitive::kPrimBoolean:
@@ -156,8 +156,8 @@ mirror::Class* RegTypeCache::ResolveClass(const char* descriptor, mirror::ClassL
   return klass;
 }
 
-const RegType& RegTypeCache::From(mirror::ClassLoader* loader, const char* descriptor,
-                                  bool precise) {
+RegType& RegTypeCache::From(mirror::ClassLoader* loader, const char* descriptor,
+                            bool precise) {
   // Try looking up the class in the cache first.
   for (size_t i = primitive_count_; i < entries_.size(); i++) {
     if (MatchDescriptor(i, descriptor, precise)) {
@@ -208,7 +208,7 @@ const RegType& RegTypeCache::From(mirror::ClassLoader* loader, const char* descr
   }
 }
 
-const RegType& RegTypeCache::FromClass(const char* descriptor, mirror::Class* klass, bool precise) {
+RegType& RegTypeCache::FromClass(const char* descriptor, mirror::Class* klass, bool precise) {
   DCHECK(klass != nullptr && !klass->IsErroneous());
   if (klass->IsPrimitive()) {
     // Note: precise isn't used for primitive classes. A char is assignable to an int. All
@@ -218,7 +218,7 @@ const RegType& RegTypeCache::FromClass(const char* descriptor, mirror::Class* kl
     // Look for the reference in the list of entries to have.
     for (size_t i = primitive_count_; i < entries_.size(); i++) {
       RegType* cur_entry = entries_[i];
-      if (cur_entry->klass_ == klass && MatchingPrecisionForClass(cur_entry, precise)) {
+      if (cur_entry->klass_.Read() == klass && MatchingPrecisionForClass(cur_entry, precise)) {
         return *cur_entry;
       }
     }
@@ -311,17 +311,15 @@ void RegTypeCache::CreatePrimitiveAndSmallConstantTypes() {
   }
 }
 
-const RegType& RegTypeCache::FromUnresolvedMerge(const RegType& left, const RegType& right) {
+RegType& RegTypeCache::FromUnresolvedMerge(RegType& left, RegType& right) {
   std::set<uint16_t> types;
   if (left.IsUnresolvedMergedReference()) {
-    RegType& non_const(const_cast<RegType&>(left));
-    types = (down_cast<UnresolvedMergedType*>(&non_const))->GetMergedTypes();
+    types = (down_cast<UnresolvedMergedType*>(&left))->GetMergedTypes();
   } else {
     types.insert(left.GetId());
   }
   if (right.IsUnresolvedMergedReference()) {
-    RegType& non_const(const_cast<RegType&>(right));
-    std::set<uint16_t> right_types = (down_cast<UnresolvedMergedType*>(&non_const))->GetMergedTypes();
+    std::set<uint16_t> right_types = (down_cast<UnresolvedMergedType*>(&right))->GetMergedTypes();
     types.insert(right_types.begin(), right_types.end());
   } else {
     types.insert(right.GetId());
@@ -348,7 +346,7 @@ const RegType& RegTypeCache::FromUnresolvedMerge(const RegType& left, const RegT
   return *entry;
 }
 
-const RegType& RegTypeCache::FromUnresolvedSuperClass(const RegType& child) {
+RegType& RegTypeCache::FromUnresolvedSuperClass(RegType& child) {
   // Check if entry already exists.
   for (size_t i = primitive_count_; i < entries_.size(); i++) {
     RegType* cur_entry = entries_[i];
@@ -367,7 +365,7 @@ const RegType& RegTypeCache::FromUnresolvedSuperClass(const RegType& child) {
   return *entry;
 }
 
-const UninitializedType& RegTypeCache::Uninitialized(const RegType& type, uint32_t allocation_pc) {
+UninitializedType& RegTypeCache::Uninitialized(RegType& type, uint32_t allocation_pc) {
   UninitializedType* entry = NULL;
   const std::string& descriptor(type.GetDescriptor());
   if (type.IsUnresolvedTypes()) {
@@ -397,7 +395,7 @@ const UninitializedType& RegTypeCache::Uninitialized(const RegType& type, uint32
   return *entry;
 }
 
-const RegType& RegTypeCache::FromUninitialized(const RegType& uninit_type) {
+RegType& RegTypeCache::FromUninitialized(RegType& uninit_type) {
   RegType* entry;
 
   if (uninit_type.IsUnresolvedTypes()) {
@@ -439,44 +437,44 @@ const RegType& RegTypeCache::FromUninitialized(const RegType& uninit_type) {
   return *entry;
 }
 
-const ImpreciseConstType& RegTypeCache::ByteConstant() {
-  const ConstantType& result = FromCat1Const(std::numeric_limits<jbyte>::min(), false);
+ImpreciseConstType& RegTypeCache::ByteConstant() {
+  ConstantType& result = FromCat1Const(std::numeric_limits<jbyte>::min(), false);
   DCHECK(result.IsImpreciseConstant());
-  return *down_cast<const ImpreciseConstType*>(&result);
+  return *down_cast<ImpreciseConstType*>(&result);
 }
 
-const ImpreciseConstType& RegTypeCache::CharConstant() {
+ImpreciseConstType& RegTypeCache::CharConstant() {
   int32_t jchar_max = static_cast<int32_t>(std::numeric_limits<jchar>::max());
-  const ConstantType& result =  FromCat1Const(jchar_max, false);
+  ConstantType& result =  FromCat1Const(jchar_max, false);
   DCHECK(result.IsImpreciseConstant());
-  return *down_cast<const ImpreciseConstType*>(&result);
+  return *down_cast<ImpreciseConstType*>(&result);
 }
 
-const ImpreciseConstType& RegTypeCache::ShortConstant() {
-  const ConstantType& result =  FromCat1Const(std::numeric_limits<jshort>::min(), false);
+ImpreciseConstType& RegTypeCache::ShortConstant() {
+  ConstantType& result =  FromCat1Const(std::numeric_limits<jshort>::min(), false);
   DCHECK(result.IsImpreciseConstant());
-  return *down_cast<const ImpreciseConstType*>(&result);
+  return *down_cast<ImpreciseConstType*>(&result);
 }
 
-const ImpreciseConstType& RegTypeCache::IntConstant() {
-  const ConstantType& result = FromCat1Const(std::numeric_limits<jint>::max(), false);
+ImpreciseConstType& RegTypeCache::IntConstant() {
+  ConstantType& result = FromCat1Const(std::numeric_limits<jint>::max(), false);
   DCHECK(result.IsImpreciseConstant());
-  return *down_cast<const ImpreciseConstType*>(&result);
+  return *down_cast<ImpreciseConstType*>(&result);
 }
 
-const ImpreciseConstType& RegTypeCache::PosByteConstant() {
-  const ConstantType& result = FromCat1Const(std::numeric_limits<jbyte>::max(), false);
+ImpreciseConstType& RegTypeCache::PosByteConstant() {
+  ConstantType& result = FromCat1Const(std::numeric_limits<jbyte>::max(), false);
   DCHECK(result.IsImpreciseConstant());
-  return *down_cast<const ImpreciseConstType*>(&result);
+  return *down_cast<ImpreciseConstType*>(&result);
 }
 
-const ImpreciseConstType& RegTypeCache::PosShortConstant() {
-  const ConstantType& result =  FromCat1Const(std::numeric_limits<jshort>::max(), false);
+ImpreciseConstType& RegTypeCache::PosShortConstant() {
+  ConstantType& result =  FromCat1Const(std::numeric_limits<jshort>::max(), false);
   DCHECK(result.IsImpreciseConstant());
-  return *down_cast<const ImpreciseConstType*>(&result);
+  return *down_cast<ImpreciseConstType*>(&result);
 }
 
-const UninitializedType& RegTypeCache::UninitializedThisArgument(const RegType& type) {
+UninitializedType& RegTypeCache::UninitializedThisArgument(RegType& type) {
   UninitializedType* entry;
   const std::string& descriptor(type.GetDescriptor());
   if (type.IsUnresolvedTypes()) {
@@ -502,10 +500,10 @@ const UninitializedType& RegTypeCache::UninitializedThisArgument(const RegType&
   return *entry;
 }
 
-const ConstantType& RegTypeCache::FromCat1NonSmallConstant(int32_t value, bool precise) {
+ConstantType& RegTypeCache::FromCat1NonSmallConstant(int32_t value, bool precise) {
   for (size_t i = primitive_count_; i < entries_.size(); i++) {
     RegType* cur_entry = entries_[i];
-    if (cur_entry->klass_ == NULL && cur_entry->IsConstant() &&
+    if (cur_entry->klass_.IsNull() && cur_entry->IsConstant() &&
         cur_entry->IsPreciseConstant() == precise &&
         (down_cast<ConstantType*>(cur_entry))->ConstantValue() == value) {
       return *down_cast<ConstantType*>(cur_entry);
@@ -521,7 +519,7 @@ const ConstantType& RegTypeCache::FromCat1NonSmallConstant(int32_t value, bool p
   return *entry;
 }
 
-const ConstantType& RegTypeCache::FromCat2ConstLo(int32_t value, bool precise) {
+ConstantType& RegTypeCache::FromCat2ConstLo(int32_t value, bool precise) {
   for (size_t i = primitive_count_; i < entries_.size(); i++) {
     RegType* cur_entry = entries_[i];
     if (cur_entry->IsConstantLo() && (cur_entry->IsPrecise() == precise) &&
@@ -539,7 +537,7 @@ const ConstantType& RegTypeCache::FromCat2ConstLo(int32_t value, bool precise) {
   return *entry;
 }
 
-const ConstantType& RegTypeCache::FromCat2ConstHi(int32_t value, bool precise) {
+ConstantType& RegTypeCache::FromCat2ConstHi(int32_t value, bool precise) {
   for (size_t i = primitive_count_; i < entries_.size(); i++) {
     RegType* cur_entry = entries_[i];
     if (cur_entry->IsConstantHi() && (cur_entry->IsPrecise() == precise) &&
@@ -557,7 +555,7 @@ const ConstantType& RegTypeCache::FromCat2ConstHi(int32_t value, bool precise) {
   return *entry;
 }
 
-const RegType& RegTypeCache::GetComponentType(const RegType& array, mirror::ClassLoader* loader) {
+RegType& RegTypeCache::GetComponentType(RegType& array, mirror::ClassLoader* loader) {
   if (!array.IsArrayTypes()) {
     return Conflict();
   } else if (array.IsUnresolvedTypes()) {
diff --git a/runtime/verifier/reg_type_cache.h b/runtime/verifier/reg_type_cache.h
index f42fdd1c16..d46cf2cc6e 100644
--- a/runtime/verifier/reg_type_cache.h
+++ b/runtime/verifier/reg_type_cache.h
@@ -49,99 +49,99 @@ class RegTypeCache {
     }
   }
   static void ShutDown();
-  const art::verifier::RegType& GetFromId(uint16_t id) const;
-  const RegType& From(mirror::ClassLoader* loader, const char* descriptor, bool precise)
+  RegType& GetFromId(uint16_t id) const;
+  RegType& From(mirror::ClassLoader* loader, const char* descriptor, bool precise)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
-  const RegType& FromClass(const char* descriptor, mirror::Class* klass, bool precise)
+  RegType& FromClass(const char* descriptor, mirror::Class* klass, bool precise)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
-  const ConstantType& FromCat1Const(int32_t value, bool precise)
+  ConstantType& FromCat1Const(int32_t value, bool precise)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
-  const ConstantType& FromCat2ConstLo(int32_t value, bool precise)
+  ConstantType& FromCat2ConstLo(int32_t value, bool precise)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
-  const ConstantType& FromCat2ConstHi(int32_t value, bool precise)
+  ConstantType& FromCat2ConstHi(int32_t value, bool precise)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
-  const RegType& FromDescriptor(mirror::ClassLoader* loader, const char* descriptor, bool precise)
+  RegType& FromDescriptor(mirror::ClassLoader* loader, const char* descriptor, bool precise)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
-  const RegType& FromUnresolvedMerge(const RegType& left, const RegType& right)
+  RegType& FromUnresolvedMerge(RegType& left, RegType& right)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
-  const RegType& FromUnresolvedSuperClass(const RegType& child)
+  RegType& FromUnresolvedSuperClass(RegType& child)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
-  const RegType& JavaLangString() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
+  RegType& JavaLangString() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
     // String is final and therefore always precise.
     return From(NULL, "Ljava/lang/String;", true);
   }
-  const RegType& JavaLangThrowable(bool precise)
+  RegType& JavaLangThrowable(bool precise)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
     return From(NULL, "Ljava/lang/Throwable;", precise);
   }
-  const ConstantType& Zero() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
+  ConstantType& Zero() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
     return FromCat1Const(0, true);
   }
-  const ConstantType& One() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
+  ConstantType& One() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
     return FromCat1Const(1, true);
   }
   size_t GetCacheSize() {
     return entries_.size();
   }
-  const RegType& Boolean() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
+  RegType& Boolean() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
     return *BooleanType::GetInstance();
   }
-  const RegType& Byte() {
+  RegType& Byte() {
     return *ByteType::GetInstance();
   }
-  const RegType& Char()  {
+  RegType& Char()  {
     return *CharType::GetInstance();
   }
-  const RegType& Short()  {
+  RegType& Short()  {
     return *ShortType::GetInstance();
   }
-  const RegType& Integer() {
+  RegType& Integer() {
     return *IntegerType::GetInstance();
   }
-  const RegType& Float() {
+  RegType& Float() {
     return *FloatType::GetInstance();
   }
-  const RegType& LongLo() {
+  RegType& LongLo() {
     return *LongLoType::GetInstance();
   }
-  const RegType& LongHi() {
+  RegType& LongHi() {
     return *LongHiType::GetInstance();
   }
-  const RegType& DoubleLo() {
+  RegType& DoubleLo() {
     return *DoubleLoType::GetInstance();
   }
-  const RegType& DoubleHi() {
+  RegType& DoubleHi() {
     return *DoubleHiType::GetInstance();
   }
-  const RegType& Undefined() {
+  RegType& Undefined() {
     return *UndefinedType::GetInstance();
   }
-  const RegType& Conflict() {
+  RegType& Conflict() {
     return *ConflictType::GetInstance();
   }
-  const RegType& JavaLangClass(bool precise) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
+  RegType& JavaLangClass(bool precise) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
     return From(NULL, "Ljava/lang/Class;", precise);
   }
-  const RegType& JavaLangObject(bool precise) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
+  RegType& JavaLangObject(bool precise) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
     return From(NULL, "Ljava/lang/Object;", precise);
   }
-  const UninitializedType& Uninitialized(const RegType& type, uint32_t allocation_pc)
+  UninitializedType& Uninitialized(RegType& type, uint32_t allocation_pc)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
   // Create an uninitialized 'this' argument for the given type.
-  const UninitializedType& UninitializedThisArgument(const RegType& type)
+  UninitializedType& UninitializedThisArgument(RegType& type)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
-  const RegType& FromUninitialized(const RegType& uninit_type)
+  RegType& FromUninitialized(RegType& uninit_type)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
-  const ImpreciseConstType& ByteConstant() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
-  const ImpreciseConstType& CharConstant() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
-  const ImpreciseConstType& ShortConstant() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
-  const ImpreciseConstType& IntConstant() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
-  const ImpreciseConstType& PosByteConstant() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
-  const ImpreciseConstType& PosShortConstant() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
-  const RegType& GetComponentType(const RegType& array, mirror::ClassLoader* loader)
+  ImpreciseConstType& ByteConstant() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  ImpreciseConstType& CharConstant() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  ImpreciseConstType& ShortConstant() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  ImpreciseConstType& IntConstant() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  ImpreciseConstType& PosByteConstant() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  ImpreciseConstType& PosShortConstant() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  RegType& GetComponentType(RegType& array, mirror::ClassLoader* loader)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
   void Dump(std::ostream& os) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
-  const RegType& RegTypeFromPrimitiveType(Primitive::Type) const;
+  RegType& RegTypeFromPrimitiveType(Primitive::Type) const;
 
   void VisitRoots(RootCallback* callback, void* arg) SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
@@ -151,7 +151,7 @@ class RegTypeCache {
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
   bool MatchDescriptor(size_t idx, const char* descriptor, bool precise)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
-  const ConstantType& FromCat1NonSmallConstant(int32_t value, bool precise)
+  ConstantType& FromCat1NonSmallConstant(int32_t value, bool precise)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   void AddEntry(RegType* new_entry);
diff --git a/runtime/verifier/reg_type_test.cc b/runtime/verifier/reg_type_test.cc
index 9dc0df13fb..e27558a613 100644
--- a/runtime/verifier/reg_type_test.cc
+++ b/runtime/verifier/reg_type_test.cc
@@ -33,21 +33,21 @@ TEST_F(RegTypeTest, ConstLoHi) {
   // Tests creating primitive types types.
   ScopedObjectAccess soa(Thread::Current());
   RegTypeCache cache(true);
-  const RegType& ref_type_const_0 = cache.FromCat1Const(10, true);
-  const RegType& ref_type_const_1 = cache.FromCat1Const(10, true);
-  const RegType& ref_type_const_2 = cache.FromCat1Const(30, true);
-  const RegType& ref_type_const_3 = cache.FromCat1Const(30, false);
+  RegType& ref_type_const_0 = cache.FromCat1Const(10, true);
+  RegType& ref_type_const_1 = cache.FromCat1Const(10, true);
+  RegType& ref_type_const_2 = cache.FromCat1Const(30, true);
+  RegType& ref_type_const_3 = cache.FromCat1Const(30, false);
   EXPECT_TRUE(ref_type_const_0.Equals(ref_type_const_1));
   EXPECT_FALSE(ref_type_const_0.Equals(ref_type_const_2));
   EXPECT_FALSE(ref_type_const_0.Equals(ref_type_const_3));
 
-  const RegType& ref_type_const_wide_0 = cache.FromCat2ConstHi(50, true);
-  const RegType& ref_type_const_wide_1 = cache.FromCat2ConstHi(50, true);
+  RegType& ref_type_const_wide_0 = cache.FromCat2ConstHi(50, true);
+  RegType& ref_type_const_wide_1 = cache.FromCat2ConstHi(50, true);
   EXPECT_TRUE(ref_type_const_wide_0.Equals(ref_type_const_wide_1));
 
-  const RegType& ref_type_const_wide_2 = cache.FromCat2ConstLo(50, true);
-  const RegType& ref_type_const_wide_3 = cache.FromCat2ConstLo(50, true);
-  const RegType& ref_type_const_wide_4 = cache.FromCat2ConstLo(55, true);
+  RegType& ref_type_const_wide_2 = cache.FromCat2ConstLo(50, true);
+  RegType& ref_type_const_wide_3 = cache.FromCat2ConstLo(50, true);
+  RegType& ref_type_const_wide_4 = cache.FromCat2ConstLo(55, true);
   EXPECT_TRUE(ref_type_const_wide_2.Equals(ref_type_const_wide_3));
   EXPECT_FALSE(ref_type_const_wide_2.Equals(ref_type_const_wide_4));
 }
@@ -56,11 +56,11 @@ TEST_F(RegTypeTest, Pairs) {
   ScopedObjectAccess soa(Thread::Current());
   RegTypeCache cache(true);
   int64_t val = static_cast<int32_t>(1234);
-  const RegType& precise_lo = cache.FromCat2ConstLo(static_cast<int32_t>(val), true);
-  const RegType& precise_hi = cache.FromCat2ConstHi(static_cast<int32_t>(val >> 32), true);
-  const RegType& precise_const = cache.FromCat1Const(static_cast<int32_t>(val >> 32), true);
-  const RegType& long_lo = cache.LongLo();
-  const RegType& long_hi = cache.LongHi();
+  RegType& precise_lo = cache.FromCat2ConstLo(static_cast<int32_t>(val), true);
+  RegType& precise_hi = cache.FromCat2ConstHi(static_cast<int32_t>(val >> 32), true);
+  RegType& precise_const = cache.FromCat1Const(static_cast<int32_t>(val >> 32), true);
+  RegType& long_lo = cache.LongLo();
+  RegType& long_hi = cache.LongHi();
   // Check sanity of types.
   EXPECT_TRUE(precise_lo.IsLowHalf());
   EXPECT_FALSE(precise_hi.IsLowHalf());
@@ -80,7 +80,7 @@ TEST_F(RegTypeTest, Primitives) {
   ScopedObjectAccess soa(Thread::Current());
   RegTypeCache cache(true);
 
-  const RegType& bool_reg_type = cache.Boolean();
+  RegType& bool_reg_type = cache.Boolean();
   EXPECT_FALSE(bool_reg_type.IsUndefined());
   EXPECT_FALSE(bool_reg_type.IsConflict());
   EXPECT_FALSE(bool_reg_type.IsZero());
@@ -112,7 +112,7 @@ TEST_F(RegTypeTest, Primitives) {
   EXPECT_TRUE(bool_reg_type.IsArrayIndexTypes());
   EXPECT_FALSE(bool_reg_type.IsNonZeroReferenceTypes());
 
-  const RegType& byte_reg_type = cache.Byte();
+  RegType& byte_reg_type = cache.Byte();
   EXPECT_FALSE(byte_reg_type.IsUndefined());
   EXPECT_FALSE(byte_reg_type.IsConflict());
   EXPECT_FALSE(byte_reg_type.IsZero());
@@ -144,7 +144,7 @@ TEST_F(RegTypeTest, Primitives) {
   EXPECT_TRUE(byte_reg_type.IsArrayIndexTypes());
   EXPECT_FALSE(byte_reg_type.IsNonZeroReferenceTypes());
 
-  const RegType& char_reg_type = cache.Char();
+  RegType& char_reg_type = cache.Char();
   EXPECT_FALSE(char_reg_type.IsUndefined());
   EXPECT_FALSE(char_reg_type.IsConflict());
   EXPECT_FALSE(char_reg_type.IsZero());
@@ -176,7 +176,7 @@ TEST_F(RegTypeTest, Primitives) {
   EXPECT_TRUE(char_reg_type.IsArrayIndexTypes());
   EXPECT_FALSE(char_reg_type.IsNonZeroReferenceTypes());
 
-  const RegType& short_reg_type = cache.Short();
+  RegType& short_reg_type = cache.Short();
   EXPECT_FALSE(short_reg_type.IsUndefined());
   EXPECT_FALSE(short_reg_type.IsConflict());
   EXPECT_FALSE(short_reg_type.IsZero());
@@ -208,7 +208,7 @@ TEST_F(RegTypeTest, Primitives) {
   EXPECT_TRUE(short_reg_type.IsArrayIndexTypes());
   EXPECT_FALSE(short_reg_type.IsNonZeroReferenceTypes());
 
-  const RegType& int_reg_type = cache.Integer();
+  RegType& int_reg_type = cache.Integer();
   EXPECT_FALSE(int_reg_type.IsUndefined());
   EXPECT_FALSE(int_reg_type.IsConflict());
   EXPECT_FALSE(int_reg_type.IsZero());
@@ -240,7 +240,7 @@ TEST_F(RegTypeTest, Primitives) {
   EXPECT_TRUE(int_reg_type.IsArrayIndexTypes());
   EXPECT_FALSE(int_reg_type.IsNonZeroReferenceTypes());
 
-  const RegType& long_reg_type = cache.LongLo();
+  RegType& long_reg_type = cache.LongLo();
   EXPECT_FALSE(long_reg_type.IsUndefined());
   EXPECT_FALSE(long_reg_type.IsConflict());
   EXPECT_FALSE(long_reg_type.IsZero());
@@ -272,7 +272,7 @@ TEST_F(RegTypeTest, Primitives) {
   EXPECT_FALSE(long_reg_type.IsArrayIndexTypes());
   EXPECT_FALSE(long_reg_type.IsNonZeroReferenceTypes());
 
-  const RegType& float_reg_type = cache.Float();
+  RegType& float_reg_type = cache.Float();
   EXPECT_FALSE(float_reg_type.IsUndefined());
   EXPECT_FALSE(float_reg_type.IsConflict());
   EXPECT_FALSE(float_reg_type.IsZero());
@@ -304,7 +304,7 @@ TEST_F(RegTypeTest, Primitives) {
   EXPECT_FALSE(float_reg_type.IsArrayIndexTypes());
   EXPECT_FALSE(float_reg_type.IsNonZeroReferenceTypes());
 
-  const RegType& double_reg_type = cache.DoubleLo();
+  RegType& double_reg_type = cache.DoubleLo();
   EXPECT_FALSE(double_reg_type.IsUndefined());
   EXPECT_FALSE(double_reg_type.IsConflict());
   EXPECT_FALSE(double_reg_type.IsZero());
@@ -344,9 +344,9 @@ TEST_F(RegTypeReferenceTest, JavalangObjectImprecise) {
   // match the one that is imprecise.
   ScopedObjectAccess soa(Thread::Current());
   RegTypeCache cache(true);
-  const RegType& imprecise_obj = cache.JavaLangObject(false);
-  const RegType& precise_obj = cache.JavaLangObject(true);
-  const RegType& precise_obj_2 = cache.FromDescriptor(NULL, "Ljava/lang/Object;", true);
+  RegType& imprecise_obj = cache.JavaLangObject(false);
+  RegType& precise_obj = cache.JavaLangObject(true);
+  RegType& precise_obj_2 = cache.FromDescriptor(NULL, "Ljava/lang/Object;", true);
 
   EXPECT_TRUE(precise_obj.Equals(precise_obj_2));
   EXPECT_FALSE(imprecise_obj.Equals(precise_obj));
@@ -359,14 +359,14 @@ TEST_F(RegTypeReferenceTest, UnresolvedType) {
   // a hit second time.
   ScopedObjectAccess soa(Thread::Current());
   RegTypeCache cache(true);
-  const RegType& ref_type_0 = cache.FromDescriptor(NULL, "Ljava/lang/DoesNotExist;", true);
+  RegType& ref_type_0 = cache.FromDescriptor(NULL, "Ljava/lang/DoesNotExist;", true);
   EXPECT_TRUE(ref_type_0.IsUnresolvedReference());
   EXPECT_TRUE(ref_type_0.IsNonZeroReferenceTypes());
 
-  const RegType& ref_type_1 = cache.FromDescriptor(NULL, "Ljava/lang/DoesNotExist;", true);
+  RegType& ref_type_1 = cache.FromDescriptor(NULL, "Ljava/lang/DoesNotExist;", true);
   EXPECT_TRUE(ref_type_0.Equals(ref_type_1));
 
-  const RegType& unresolved_super_class =  cache.FromUnresolvedSuperClass(ref_type_0);
+  RegType& unresolved_super_class =  cache.FromUnresolvedSuperClass(ref_type_0);
   EXPECT_TRUE(unresolved_super_class.IsUnresolvedSuperClass());
   EXPECT_TRUE(unresolved_super_class.IsNonZeroReferenceTypes());
 }
@@ -375,21 +375,21 @@ TEST_F(RegTypeReferenceTest, UnresolvedUnintializedType) {
   // Tests creating types uninitialized types from unresolved types.
   ScopedObjectAccess soa(Thread::Current());
   RegTypeCache cache(true);
-  const RegType& ref_type_0 = cache.FromDescriptor(NULL, "Ljava/lang/DoesNotExist;", true);
+  RegType& ref_type_0 = cache.FromDescriptor(NULL, "Ljava/lang/DoesNotExist;", true);
   EXPECT_TRUE(ref_type_0.IsUnresolvedReference());
-  const RegType& ref_type = cache.FromDescriptor(NULL, "Ljava/lang/DoesNotExist;", true);
+  RegType& ref_type = cache.FromDescriptor(NULL, "Ljava/lang/DoesNotExist;", true);
   EXPECT_TRUE(ref_type_0.Equals(ref_type));
   // Create an uninitialized type of this unresolved type
-  const RegType& unresolved_unintialised = cache.Uninitialized(ref_type, 1101ull);
+  RegType& unresolved_unintialised = cache.Uninitialized(ref_type, 1101ull);
   EXPECT_TRUE(unresolved_unintialised.IsUnresolvedAndUninitializedReference());
   EXPECT_TRUE(unresolved_unintialised.IsUninitializedTypes());
   EXPECT_TRUE(unresolved_unintialised.IsNonZeroReferenceTypes());
   // Create an uninitialized type of this unresolved type with different  PC
-  const RegType& ref_type_unresolved_unintialised_1 =  cache.Uninitialized(ref_type, 1102ull);
+  RegType& ref_type_unresolved_unintialised_1 =  cache.Uninitialized(ref_type, 1102ull);
   EXPECT_TRUE(unresolved_unintialised.IsUnresolvedAndUninitializedReference());
   EXPECT_FALSE(unresolved_unintialised.Equals(ref_type_unresolved_unintialised_1));
   // Create an uninitialized type of this unresolved type with the same PC
-  const RegType& unresolved_unintialised_2 = cache.Uninitialized(ref_type, 1101ull);
+  RegType& unresolved_unintialised_2 = cache.Uninitialized(ref_type, 1101ull);
   EXPECT_TRUE(unresolved_unintialised.Equals(unresolved_unintialised_2));
 }
 
@@ -397,12 +397,12 @@ TEST_F(RegTypeReferenceTest, Dump) {
   // Tests types for proper Dump messages.
   ScopedObjectAccess soa(Thread::Current());
   RegTypeCache cache(true);
-  const RegType& unresolved_ref = cache.FromDescriptor(NULL, "Ljava/lang/DoesNotExist;", true);
-  const RegType& unresolved_ref_another = cache.FromDescriptor(NULL, "Ljava/lang/DoesNotExistEither;", true);
-  const RegType& resolved_ref = cache.JavaLangString();
-  const RegType& resolved_unintialiesd = cache.Uninitialized(resolved_ref, 10);
-  const RegType& unresolved_unintialized = cache.Uninitialized(unresolved_ref, 12);
-  const RegType& unresolved_merged = cache.FromUnresolvedMerge(unresolved_ref, unresolved_ref_another);
+  RegType& unresolved_ref = cache.FromDescriptor(NULL, "Ljava/lang/DoesNotExist;", true);
+  RegType& unresolved_ref_another = cache.FromDescriptor(NULL, "Ljava/lang/DoesNotExistEither;", true);
+  RegType& resolved_ref = cache.JavaLangString();
+  RegType& resolved_unintialiesd = cache.Uninitialized(resolved_ref, 10);
+  RegType& unresolved_unintialized = cache.Uninitialized(unresolved_ref, 12);
+  RegType& unresolved_merged = cache.FromUnresolvedMerge(unresolved_ref, unresolved_ref_another);
 
   std::string expected = "Unresolved Reference: java.lang.DoesNotExist";
   EXPECT_EQ(expected, unresolved_ref.Dump());
@@ -422,16 +422,16 @@ TEST_F(RegTypeReferenceTest, JavalangString) {
   // The JavaLangObject method instead of FromDescriptor. String class is final.
   ScopedObjectAccess soa(Thread::Current());
   RegTypeCache cache(true);
-  const RegType& ref_type = cache.JavaLangString();
-  const RegType& ref_type_2 = cache.JavaLangString();
-  const RegType& ref_type_3 = cache.FromDescriptor(NULL, "Ljava/lang/String;", true);
+  RegType& ref_type = cache.JavaLangString();
+  RegType& ref_type_2 = cache.JavaLangString();
+  RegType& ref_type_3 = cache.FromDescriptor(NULL, "Ljava/lang/String;", true);
 
   EXPECT_TRUE(ref_type.Equals(ref_type_2));
   EXPECT_TRUE(ref_type_2.Equals(ref_type_3));
   EXPECT_TRUE(ref_type.IsPreciseReference());
 
   // Create an uninitialized type out of this:
-  const RegType& ref_type_unintialized = cache.Uninitialized(ref_type, 0110ull);
+  RegType& ref_type_unintialized = cache.Uninitialized(ref_type, 0110ull);
   EXPECT_TRUE(ref_type_unintialized.IsUninitializedReference());
   EXPECT_FALSE(ref_type_unintialized.IsUnresolvedAndUninitializedReference());
 }
@@ -442,9 +442,9 @@ TEST_F(RegTypeReferenceTest, JavalangObject) {
   // The JavaLangObject method instead of FromDescriptor. Object Class in not final.
   ScopedObjectAccess soa(Thread::Current());
   RegTypeCache cache(true);
-  const RegType& ref_type = cache.JavaLangObject(true);
-  const RegType& ref_type_2 = cache.JavaLangObject(true);
-  const RegType& ref_type_3 = cache.FromDescriptor(NULL, "Ljava/lang/Object;", true);
+  RegType& ref_type = cache.JavaLangObject(true);
+  RegType& ref_type_2 = cache.JavaLangObject(true);
+  RegType& ref_type_3 = cache.FromDescriptor(NULL, "Ljava/lang/Object;", true);
 
   EXPECT_TRUE(ref_type.Equals(ref_type_2));
   EXPECT_TRUE(ref_type_3.Equals(ref_type_2));
@@ -455,20 +455,19 @@ TEST_F(RegTypeReferenceTest, Merging) {
   // String and object , LUB is object.
   ScopedObjectAccess soa(Thread::Current());
   RegTypeCache cache_new(true);
-  const RegType& string = cache_new.JavaLangString();
-  const RegType& Object = cache_new.JavaLangObject(true);
+  RegType& string = cache_new.JavaLangString();
+  RegType& Object = cache_new.JavaLangObject(true);
   EXPECT_TRUE(string.Merge(Object, &cache_new).IsJavaLangObject());
   // Merge two unresolved types.
-  const RegType& ref_type_0 = cache_new.FromDescriptor(NULL, "Ljava/lang/DoesNotExist;", true);
+  RegType& ref_type_0 = cache_new.FromDescriptor(NULL, "Ljava/lang/DoesNotExist;", true);
   EXPECT_TRUE(ref_type_0.IsUnresolvedReference());
-  const RegType& ref_type_1 = cache_new.FromDescriptor(NULL, "Ljava/lang/DoesNotExistToo;", true);
+  RegType& ref_type_1 = cache_new.FromDescriptor(NULL, "Ljava/lang/DoesNotExistToo;", true);
   EXPECT_FALSE(ref_type_0.Equals(ref_type_1));
 
-  const RegType& merged = ref_type_1.Merge(ref_type_0, &cache_new);
+  RegType& merged = ref_type_1.Merge(ref_type_0, &cache_new);
   EXPECT_TRUE(merged.IsUnresolvedMergedReference());
-  RegType& merged_nonconst = const_cast<RegType&>(merged);
 
-  std::set<uint16_t> merged_ids = (down_cast<UnresolvedMergedType*>(&merged_nonconst))->GetMergedTypes();
+  std::set<uint16_t> merged_ids = (down_cast<UnresolvedMergedType*>(&merged))->GetMergedTypes();
   EXPECT_EQ(ref_type_0.GetId(), *(merged_ids.begin()));
   EXPECT_EQ(ref_type_1.GetId(), *((++merged_ids.begin())));
 }
@@ -479,27 +478,27 @@ TEST_F(RegTypeTest, MergingFloat) {
   RegTypeCache cache_new(true);
 
   constexpr int32_t kTestConstantValue = 10;
-  const RegType& float_type = cache_new.Float();
-  const RegType& precise_cst = cache_new.FromCat1Const(kTestConstantValue, true);
-  const RegType& imprecise_cst = cache_new.FromCat1Const(kTestConstantValue, false);
+  RegType& float_type = cache_new.Float();
+  RegType& precise_cst = cache_new.FromCat1Const(kTestConstantValue, true);
+  RegType& imprecise_cst = cache_new.FromCat1Const(kTestConstantValue, false);
   {
     // float MERGE precise cst => float.
-    const RegType& merged = float_type.Merge(precise_cst, &cache_new);
+    RegType& merged = float_type.Merge(precise_cst, &cache_new);
     EXPECT_TRUE(merged.IsFloat());
   }
   {
     // precise cst MERGE float => float.
-    const RegType& merged = precise_cst.Merge(float_type, &cache_new);
+    RegType& merged = precise_cst.Merge(float_type, &cache_new);
     EXPECT_TRUE(merged.IsFloat());
   }
   {
     // float MERGE imprecise cst => float.
-    const RegType& merged = float_type.Merge(imprecise_cst, &cache_new);
+    RegType& merged = float_type.Merge(imprecise_cst, &cache_new);
     EXPECT_TRUE(merged.IsFloat());
   }
   {
     // imprecise cst MERGE float => float.
-    const RegType& merged = imprecise_cst.Merge(float_type, &cache_new);
+    RegType& merged = imprecise_cst.Merge(float_type, &cache_new);
     EXPECT_TRUE(merged.IsFloat());
   }
 }
@@ -510,50 +509,50 @@ TEST_F(RegTypeTest, MergingLong) {
   RegTypeCache cache_new(true);
 
   constexpr int32_t kTestConstantValue = 10;
-  const RegType& long_lo_type = cache_new.LongLo();
-  const RegType& long_hi_type = cache_new.LongHi();
-  const RegType& precise_cst_lo = cache_new.FromCat2ConstLo(kTestConstantValue, true);
-  const RegType& imprecise_cst_lo = cache_new.FromCat2ConstLo(kTestConstantValue, false);
-  const RegType& precise_cst_hi = cache_new.FromCat2ConstHi(kTestConstantValue, true);
-  const RegType& imprecise_cst_hi = cache_new.FromCat2ConstHi(kTestConstantValue, false);
+  RegType& long_lo_type = cache_new.LongLo();
+  RegType& long_hi_type = cache_new.LongHi();
+  RegType& precise_cst_lo = cache_new.FromCat2ConstLo(kTestConstantValue, true);
+  RegType& imprecise_cst_lo = cache_new.FromCat2ConstLo(kTestConstantValue, false);
+  RegType& precise_cst_hi = cache_new.FromCat2ConstHi(kTestConstantValue, true);
+  RegType& imprecise_cst_hi = cache_new.FromCat2ConstHi(kTestConstantValue, false);
   {
     // lo MERGE precise cst lo => lo.
-    const RegType& merged = long_lo_type.Merge(precise_cst_lo, &cache_new);
+    RegType& merged = long_lo_type.Merge(precise_cst_lo, &cache_new);
     EXPECT_TRUE(merged.IsLongLo());
   }
   {
     // precise cst lo MERGE lo => lo.
-    const RegType& merged = precise_cst_lo.Merge(long_lo_type, &cache_new);
+    RegType& merged = precise_cst_lo.Merge(long_lo_type, &cache_new);
     EXPECT_TRUE(merged.IsLongLo());
   }
   {
     // lo MERGE imprecise cst lo => lo.
-    const RegType& merged = long_lo_type.Merge(imprecise_cst_lo, &cache_new);
+    RegType& merged = long_lo_type.Merge(imprecise_cst_lo, &cache_new);
     EXPECT_TRUE(merged.IsLongLo());
   }
   {
     // imprecise cst lo MERGE lo => lo.
-    const RegType& merged = imprecise_cst_lo.Merge(long_lo_type, &cache_new);
+    RegType& merged = imprecise_cst_lo.Merge(long_lo_type, &cache_new);
     EXPECT_TRUE(merged.IsLongLo());
   }
   {
     // hi MERGE precise cst hi => hi.
-    const RegType& merged = long_hi_type.Merge(precise_cst_hi, &cache_new);
+    RegType& merged = long_hi_type.Merge(precise_cst_hi, &cache_new);
     EXPECT_TRUE(merged.IsLongHi());
   }
   {
     // precise cst hi MERGE hi => hi.
-    const RegType& merged = precise_cst_hi.Merge(long_hi_type, &cache_new);
+    RegType& merged = precise_cst_hi.Merge(long_hi_type, &cache_new);
     EXPECT_TRUE(merged.IsLongHi());
   }
   {
     // hi MERGE imprecise cst hi => hi.
-    const RegType& merged = long_hi_type.Merge(imprecise_cst_hi, &cache_new);
+    RegType& merged = long_hi_type.Merge(imprecise_cst_hi, &cache_new);
     EXPECT_TRUE(merged.IsLongHi());
   }
   {
     // imprecise cst hi MERGE hi => hi.
-    const RegType& merged = imprecise_cst_hi.Merge(long_hi_type, &cache_new);
+    RegType& merged = imprecise_cst_hi.Merge(long_hi_type, &cache_new);
     EXPECT_TRUE(merged.IsLongHi());
   }
 }
@@ -564,50 +563,50 @@ TEST_F(RegTypeTest, MergingDouble) {
   RegTypeCache cache_new(true);
 
   constexpr int32_t kTestConstantValue = 10;
-  const RegType& double_lo_type = cache_new.DoubleLo();
-  const RegType& double_hi_type = cache_new.DoubleHi();
-  const RegType& precise_cst_lo = cache_new.FromCat2ConstLo(kTestConstantValue, true);
-  const RegType& imprecise_cst_lo = cache_new.FromCat2ConstLo(kTestConstantValue, false);
-  const RegType& precise_cst_hi = cache_new.FromCat2ConstHi(kTestConstantValue, true);
-  const RegType& imprecise_cst_hi = cache_new.FromCat2ConstHi(kTestConstantValue, false);
+  RegType& double_lo_type = cache_new.DoubleLo();
+  RegType& double_hi_type = cache_new.DoubleHi();
+  RegType& precise_cst_lo = cache_new.FromCat2ConstLo(kTestConstantValue, true);
+  RegType& imprecise_cst_lo = cache_new.FromCat2ConstLo(kTestConstantValue, false);
+  RegType& precise_cst_hi = cache_new.FromCat2ConstHi(kTestConstantValue, true);
+  RegType& imprecise_cst_hi = cache_new.FromCat2ConstHi(kTestConstantValue, false);
   {
     // lo MERGE precise cst lo => lo.
-    const RegType& merged = double_lo_type.Merge(precise_cst_lo, &cache_new);
+    RegType& merged = double_lo_type.Merge(precise_cst_lo, &cache_new);
     EXPECT_TRUE(merged.IsDoubleLo());
   }
   {
     // precise cst lo MERGE lo => lo.
-    const RegType& merged = precise_cst_lo.Merge(double_lo_type, &cache_new);
+    RegType& merged = precise_cst_lo.Merge(double_lo_type, &cache_new);
     EXPECT_TRUE(merged.IsDoubleLo());
   }
   {
     // lo MERGE imprecise cst lo => lo.
-    const RegType& merged = double_lo_type.Merge(imprecise_cst_lo, &cache_new);
+    RegType& merged = double_lo_type.Merge(imprecise_cst_lo, &cache_new);
     EXPECT_TRUE(merged.IsDoubleLo());
   }
   {
     // imprecise cst lo MERGE lo => lo.
-    const RegType& merged = imprecise_cst_lo.Merge(double_lo_type, &cache_new);
+    RegType& merged = imprecise_cst_lo.Merge(double_lo_type, &cache_new);
     EXPECT_TRUE(merged.IsDoubleLo());
   }
   {
     // hi MERGE precise cst hi => hi.
-    const RegType& merged = double_hi_type.Merge(precise_cst_hi, &cache_new);
+    RegType& merged = double_hi_type.Merge(precise_cst_hi, &cache_new);
     EXPECT_TRUE(merged.IsDoubleHi());
   }
   {
     // precise cst hi MERGE hi => hi.
-    const RegType& merged = precise_cst_hi.Merge(double_hi_type, &cache_new);
+    RegType& merged = precise_cst_hi.Merge(double_hi_type, &cache_new);
     EXPECT_TRUE(merged.IsDoubleHi());
   }
   {
     // hi MERGE imprecise cst hi => hi.
-    const RegType& merged = double_hi_type.Merge(imprecise_cst_hi, &cache_new);
+    RegType& merged = double_hi_type.Merge(imprecise_cst_hi, &cache_new);
     EXPECT_TRUE(merged.IsDoubleHi());
   }
   {
     // imprecise cst hi MERGE hi => hi.
-    const RegType& merged = imprecise_cst_hi.Merge(double_hi_type, &cache_new);
+    RegType& merged = imprecise_cst_hi.Merge(double_hi_type, &cache_new);
     EXPECT_TRUE(merged.IsDoubleHi());
   }
 }
@@ -616,8 +615,8 @@ TEST_F(RegTypeTest, ConstPrecision) {
   // Tests creating primitive types types.
   ScopedObjectAccess soa(Thread::Current());
   RegTypeCache cache_new(true);
-  const RegType& imprecise_const = cache_new.FromCat1Const(10, false);
-  const RegType& precise_const = cache_new.FromCat1Const(10, true);
+  RegType& imprecise_const = cache_new.FromCat1Const(10, false);
+  RegType& precise_const = cache_new.FromCat1Const(10, true);
 
   EXPECT_TRUE(imprecise_const.IsImpreciseConstant());
   EXPECT_TRUE(precise_const.IsPreciseConstant());
diff --git a/runtime/verifier/register_line-inl.h b/runtime/verifier/register_line-inl.h
index 0989cd0c41..378c6d3d61 100644
--- a/runtime/verifier/register_line-inl.h
+++ b/runtime/verifier/register_line-inl.h
@@ -25,7 +25,7 @@
 namespace art {
 namespace verifier {
 
-inline const RegType& RegisterLine::GetRegisterType(uint32_t vsrc) const {
+inline RegType& RegisterLine::GetRegisterType(uint32_t vsrc) const {
   // The register index was validated during the static pass, so we don't need to check it here.
   DCHECK_LT(vsrc, num_regs_);
   return verifier_->GetRegTypeCache()->GetFromId(line_[vsrc]);
diff --git a/runtime/verifier/register_line.cc b/runtime/verifier/register_line.cc
index 556056ce04..4d67cfb969 100644
--- a/runtime/verifier/register_line.cc
+++ b/runtime/verifier/register_line.cc
@@ -36,7 +36,7 @@ bool RegisterLine::CheckConstructorReturn() const {
   return true;
 }
 
-bool RegisterLine::SetRegisterType(uint32_t vdst, const RegType& new_type) {
+bool RegisterLine::SetRegisterType(uint32_t vdst, RegType& new_type) {
   DCHECK_LT(vdst, num_regs_);
   if (new_type.IsLowHalf() || new_type.IsHighHalf()) {
     verifier_->Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "Expected category1 register type not '"
@@ -53,8 +53,8 @@ bool RegisterLine::SetRegisterType(uint32_t vdst, const RegType& new_type) {
   return true;
 }
 
-bool RegisterLine::SetRegisterTypeWide(uint32_t vdst, const RegType& new_type1,
-                                       const RegType& new_type2) {
+bool RegisterLine::SetRegisterTypeWide(uint32_t vdst, RegType& new_type1,
+                                       RegType& new_type2) {
   DCHECK_LT(vdst + 1, num_regs_);
   if (!new_type1.CheckWidePair(new_type2)) {
     verifier_->Fail(VERIFY_ERROR_BAD_CLASS_SOFT) << "Invalid wide pair '"
@@ -75,21 +75,21 @@ void RegisterLine::SetResultTypeToUnknown() {
   result_[1] = result_[0];
 }
 
-void RegisterLine::SetResultRegisterType(const RegType& new_type) {
+void RegisterLine::SetResultRegisterType(RegType& new_type) {
   DCHECK(!new_type.IsLowHalf());
   DCHECK(!new_type.IsHighHalf());
   result_[0] = new_type.GetId();
   result_[1] = verifier_->GetRegTypeCache()->Undefined().GetId();
 }
 
-void RegisterLine::SetResultRegisterTypeWide(const RegType& new_type1,
-                                             const RegType& new_type2) {
+void RegisterLine::SetResultRegisterTypeWide(RegType& new_type1,
+                                             RegType& new_type2) {
   DCHECK(new_type1.CheckWidePair(new_type2));
   result_[0] = new_type1.GetId();
   result_[1] = new_type2.GetId();
 }
 
-const RegType& RegisterLine::GetInvocationThis(const Instruction* inst, bool is_range) {
+RegType& RegisterLine::GetInvocationThis(const Instruction* inst, bool is_range) {
   const size_t args_count = is_range ? inst->VRegA_3rc() : inst->VRegA_35c();
   if (args_count < 1) {
     verifier_->Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "invoke lacks 'this'";
@@ -97,7 +97,7 @@ const RegType& RegisterLine::GetInvocationThis(const Instruction* inst, bool is_
   }
   /* Get the element type of the array held in vsrc */
   const uint32_t this_reg = (is_range) ? inst->VRegC_3rc() : inst->VRegC_35c();
-  const RegType& this_type = GetRegisterType(this_reg);
+  RegType& this_type = GetRegisterType(this_reg);
   if (!this_type.IsReferenceTypes()) {
     verifier_->Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "tried to get class from non-reference register v"
                                                  << this_reg << " (type=" << this_type << ")";
@@ -107,9 +107,9 @@ const RegType& RegisterLine::GetInvocationThis(const Instruction* inst, bool is_
 }
 
 bool RegisterLine::VerifyRegisterType(uint32_t vsrc,
-                                      const RegType& check_type) {
+                                      RegType& check_type) {
   // Verify the src register type against the check type refining the type of the register
-  const RegType& src_type = GetRegisterType(vsrc);
+  RegType& src_type = GetRegisterType(vsrc);
   if (!(check_type.IsAssignableFrom(src_type))) {
     enum VerifyError fail_type;
     if (!check_type.IsNonZeroReferenceTypes() || !src_type.IsNonZeroReferenceTypes()) {
@@ -125,7 +125,7 @@ bool RegisterLine::VerifyRegisterType(uint32_t vsrc,
     return false;
   }
   if (check_type.IsLowHalf()) {
-    const RegType& src_type_h = GetRegisterType(vsrc + 1);
+    RegType& src_type_h = GetRegisterType(vsrc + 1);
     if (!src_type.CheckWidePair(src_type_h)) {
       verifier_->Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "wide register v" << vsrc << " has type "
                                                    << src_type << "/" << src_type_h;
@@ -139,17 +139,17 @@ bool RegisterLine::VerifyRegisterType(uint32_t vsrc,
   return true;
 }
 
-bool RegisterLine::VerifyRegisterTypeWide(uint32_t vsrc, const RegType& check_type1,
-                                          const RegType& check_type2) {
+bool RegisterLine::VerifyRegisterTypeWide(uint32_t vsrc, RegType& check_type1,
+                                          RegType& check_type2) {
   DCHECK(check_type1.CheckWidePair(check_type2));
   // Verify the src register type against the check type refining the type of the register
-  const RegType& src_type = GetRegisterType(vsrc);
+  RegType& src_type = GetRegisterType(vsrc);
   if (!check_type1.IsAssignableFrom(src_type)) {
     verifier_->Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "register v" << vsrc << " has type " << src_type
                                << " but expected " << check_type1;
     return false;
   }
-  const RegType& src_type_h = GetRegisterType(vsrc + 1);
+  RegType& src_type_h = GetRegisterType(vsrc + 1);
   if (!src_type.CheckWidePair(src_type_h)) {
     verifier_->Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "wide register v" << vsrc << " has type "
         << src_type << "/" << src_type_h;
@@ -162,9 +162,9 @@ bool RegisterLine::VerifyRegisterTypeWide(uint32_t vsrc, const RegType& check_ty
   return true;
 }
 
-void RegisterLine::MarkRefsAsInitialized(const RegType& uninit_type) {
+void RegisterLine::MarkRefsAsInitialized(RegType& uninit_type) {
   DCHECK(uninit_type.IsUninitializedTypes());
-  const RegType& init_type = verifier_->GetRegTypeCache()->FromUninitialized(uninit_type);
+  RegType& init_type = verifier_->GetRegTypeCache()->FromUninitialized(uninit_type);
   size_t changed = 0;
   for (uint32_t i = 0; i < num_regs_; i++) {
     if (GetRegisterType(i).Equals(uninit_type)) {
@@ -200,7 +200,7 @@ void RegisterLine::MarkAllRegistersAsConflictsExceptWide(uint32_t vsrc) {
   }
 }
 
-std::string RegisterLine::Dump() const {
+std::string RegisterLine::Dump() {
   std::string result;
   for (size_t i = 0; i < num_regs_; i++) {
     result += StringPrintf("%zd:[", i);
@@ -213,7 +213,7 @@ std::string RegisterLine::Dump() const {
   return result;
 }
 
-void RegisterLine::MarkUninitRefsAsInvalid(const RegType& uninit_type) {
+void RegisterLine::MarkUninitRefsAsInvalid(RegType& uninit_type) {
   for (size_t i = 0; i < num_regs_; i++) {
     if (GetRegisterType(i).Equals(uninit_type)) {
       line_[i] = verifier_->GetRegTypeCache()->Conflict().GetId();
@@ -224,7 +224,7 @@ void RegisterLine::MarkUninitRefsAsInvalid(const RegType& uninit_type) {
 
 void RegisterLine::CopyRegister1(uint32_t vdst, uint32_t vsrc, TypeCategory cat) {
   DCHECK(cat == kTypeCategory1nr || cat == kTypeCategoryRef);
-  const RegType& type = GetRegisterType(vsrc);
+  RegType& type = GetRegisterType(vsrc);
   if (!SetRegisterType(vdst, type)) {
     return;
   }
@@ -238,8 +238,8 @@ void RegisterLine::CopyRegister1(uint32_t vdst, uint32_t vsrc, TypeCategory cat)
 }
 
 void RegisterLine::CopyRegister2(uint32_t vdst, uint32_t vsrc) {
-  const RegType& type_l = GetRegisterType(vsrc);
-  const RegType& type_h = GetRegisterType(vsrc + 1);
+  RegType& type_l = GetRegisterType(vsrc);
+  RegType& type_h = GetRegisterType(vsrc + 1);
 
   if (!type_l.CheckWidePair(type_h)) {
     verifier_->Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "copy2 v" << vdst << "<-v" << vsrc
@@ -250,7 +250,7 @@ void RegisterLine::CopyRegister2(uint32_t vdst, uint32_t vsrc) {
 }
 
 void RegisterLine::CopyResultRegister1(uint32_t vdst, bool is_reference) {
-  const RegType& type = verifier_->GetRegTypeCache()->GetFromId(result_[0]);
+  RegType& type = verifier_->GetRegTypeCache()->GetFromId(result_[0]);
   if ((!is_reference && !type.IsCategory1Types()) ||
       (is_reference && !type.IsReferenceTypes())) {
     verifier_->Fail(VERIFY_ERROR_BAD_CLASS_HARD)
@@ -267,8 +267,8 @@ void RegisterLine::CopyResultRegister1(uint32_t vdst, bool is_reference) {
  * register to another register, and reset the result register.
  */
 void RegisterLine::CopyResultRegister2(uint32_t vdst) {
-  const RegType& type_l = verifier_->GetRegTypeCache()->GetFromId(result_[0]);
-  const RegType& type_h = verifier_->GetRegTypeCache()->GetFromId(result_[1]);
+  RegType& type_l = verifier_->GetRegTypeCache()->GetFromId(result_[0]);
+  RegType& type_h = verifier_->GetRegTypeCache()->GetFromId(result_[1]);
   if (!type_l.IsCategory2Types()) {
     verifier_->Fail(VERIFY_ERROR_BAD_CLASS_HARD)
         << "copyRes2 v" << vdst << "<- result0"  << " type=" << type_l;
@@ -281,40 +281,40 @@ void RegisterLine::CopyResultRegister2(uint32_t vdst) {
 }
 
 void RegisterLine::CheckUnaryOp(const Instruction* inst,
-                                const RegType& dst_type,
-                                const RegType& src_type) {
+                                RegType& dst_type,
+                                RegType& src_type) {
   if (VerifyRegisterType(inst->VRegB_12x(), src_type)) {
     SetRegisterType(inst->VRegA_12x(), dst_type);
   }
 }
 
 void RegisterLine::CheckUnaryOpWide(const Instruction* inst,
-                                    const RegType& dst_type1, const RegType& dst_type2,
-                                    const RegType& src_type1, const RegType& src_type2) {
+                                    RegType& dst_type1, RegType& dst_type2,
+                                    RegType& src_type1, RegType& src_type2) {
   if (VerifyRegisterTypeWide(inst->VRegB_12x(), src_type1, src_type2)) {
     SetRegisterTypeWide(inst->VRegA_12x(), dst_type1, dst_type2);
   }
 }
 
 void RegisterLine::CheckUnaryOpToWide(const Instruction* inst,
-                                      const RegType& dst_type1, const RegType& dst_type2,
-                                      const RegType& src_type) {
+                                      RegType& dst_type1, RegType& dst_type2,
+                                      RegType& src_type) {
   if (VerifyRegisterType(inst->VRegB_12x(), src_type)) {
     SetRegisterTypeWide(inst->VRegA_12x(), dst_type1, dst_type2);
   }
 }
 
 void RegisterLine::CheckUnaryOpFromWide(const Instruction* inst,
-                                        const RegType& dst_type,
-                                        const RegType& src_type1, const RegType& src_type2) {
+                                        RegType& dst_type,
+                                        RegType& src_type1, RegType& src_type2) {
   if (VerifyRegisterTypeWide(inst->VRegB_12x(), src_type1, src_type2)) {
     SetRegisterType(inst->VRegA_12x(), dst_type);
   }
 }
 
 void RegisterLine::CheckBinaryOp(const Instruction* inst,
-                                 const RegType& dst_type,
-                                 const RegType& src_type1, const RegType& src_type2,
+                                 RegType& dst_type,
+                                 RegType& src_type1, RegType& src_type2,
                                  bool check_boolean_op) {
   const uint32_t vregB = inst->VRegB_23x();
   const uint32_t vregC = inst->VRegC_23x();
@@ -333,9 +333,9 @@ void RegisterLine::CheckBinaryOp(const Instruction* inst,
 }
 
 void RegisterLine::CheckBinaryOpWide(const Instruction* inst,
-                                     const RegType& dst_type1, const RegType& dst_type2,
-                                     const RegType& src_type1_1, const RegType& src_type1_2,
-                                     const RegType& src_type2_1, const RegType& src_type2_2) {
+                                     RegType& dst_type1, RegType& dst_type2,
+                                     RegType& src_type1_1, RegType& src_type1_2,
+                                     RegType& src_type2_1, RegType& src_type2_2) {
   if (VerifyRegisterTypeWide(inst->VRegB_23x(), src_type1_1, src_type1_2) &&
       VerifyRegisterTypeWide(inst->VRegC_23x(), src_type2_1, src_type2_2)) {
     SetRegisterTypeWide(inst->VRegA_23x(), dst_type1, dst_type2);
@@ -343,8 +343,8 @@ void RegisterLine::CheckBinaryOpWide(const Instruction* inst,
 }
 
 void RegisterLine::CheckBinaryOpWideShift(const Instruction* inst,
-                                          const RegType& long_lo_type, const RegType& long_hi_type,
-                                          const RegType& int_type) {
+                                          RegType& long_lo_type, RegType& long_hi_type,
+                                          RegType& int_type) {
   if (VerifyRegisterTypeWide(inst->VRegB_23x(), long_lo_type, long_hi_type) &&
       VerifyRegisterType(inst->VRegC_23x(), int_type)) {
     SetRegisterTypeWide(inst->VRegA_23x(), long_lo_type, long_hi_type);
@@ -352,8 +352,8 @@ void RegisterLine::CheckBinaryOpWideShift(const Instruction* inst,
 }
 
 void RegisterLine::CheckBinaryOp2addr(const Instruction* inst,
-                                      const RegType& dst_type, const RegType& src_type1,
-                                      const RegType& src_type2, bool check_boolean_op) {
+                                      RegType& dst_type, RegType& src_type1,
+                                      RegType& src_type2, bool check_boolean_op) {
   const uint32_t vregA = inst->VRegA_12x();
   const uint32_t vregB = inst->VRegB_12x();
   if (VerifyRegisterType(vregA, src_type1) &&
@@ -371,9 +371,9 @@ void RegisterLine::CheckBinaryOp2addr(const Instruction* inst,
 }
 
 void RegisterLine::CheckBinaryOp2addrWide(const Instruction* inst,
-                                          const RegType& dst_type1, const RegType& dst_type2,
-                                          const RegType& src_type1_1, const RegType& src_type1_2,
-                                          const RegType& src_type2_1, const RegType& src_type2_2) {
+                                          RegType& dst_type1, RegType& dst_type2,
+                                          RegType& src_type1_1, RegType& src_type1_2,
+                                          RegType& src_type2_1, RegType& src_type2_2) {
   const uint32_t vregA = inst->VRegA_12x();
   const uint32_t vregB = inst->VRegB_12x();
   if (VerifyRegisterTypeWide(vregA, src_type1_1, src_type1_2) &&
@@ -383,8 +383,8 @@ void RegisterLine::CheckBinaryOp2addrWide(const Instruction* inst,
 }
 
 void RegisterLine::CheckBinaryOp2addrWideShift(const Instruction* inst,
-                                               const RegType& long_lo_type, const RegType& long_hi_type,
-                                               const RegType& int_type) {
+                                               RegType& long_lo_type, RegType& long_hi_type,
+                                               RegType& int_type) {
   const uint32_t vregA = inst->VRegA_12x();
   const uint32_t vregB = inst->VRegB_12x();
   if (VerifyRegisterTypeWide(vregA, long_lo_type, long_hi_type) &&
@@ -394,7 +394,7 @@ void RegisterLine::CheckBinaryOp2addrWideShift(const Instruction* inst,
 }
 
 void RegisterLine::CheckLiteralOp(const Instruction* inst,
-                                  const RegType& dst_type, const RegType& src_type,
+                                  RegType& dst_type, RegType& src_type,
                                   bool check_boolean_op, bool is_lit16) {
   const uint32_t vregA = is_lit16 ? inst->VRegA_22s() : inst->VRegA_22b();
   const uint32_t vregB = is_lit16 ? inst->VRegB_22s() : inst->VRegB_22b();
@@ -413,7 +413,7 @@ void RegisterLine::CheckLiteralOp(const Instruction* inst,
 }
 
 void RegisterLine::PushMonitor(uint32_t reg_idx, int32_t insn_idx) {
-  const RegType& reg_type = GetRegisterType(reg_idx);
+  RegType& reg_type = GetRegisterType(reg_idx);
   if (!reg_type.IsReferenceTypes()) {
     verifier_->Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "monitor-enter on non-object (" << reg_type << ")";
   } else if (monitors_.size() >= 32) {
@@ -425,7 +425,7 @@ void RegisterLine::PushMonitor(uint32_t reg_idx, int32_t insn_idx) {
 }
 
 void RegisterLine::PopMonitor(uint32_t reg_idx) {
-  const RegType& reg_type = GetRegisterType(reg_idx);
+  RegType& reg_type = GetRegisterType(reg_idx);
   if (!reg_type.IsReferenceTypes()) {
     verifier_->Fail(VERIFY_ERROR_BAD_CLASS_HARD) << "monitor-exit on non-object (" << reg_type << ")";
   } else if (monitors_.empty()) {
@@ -460,9 +460,9 @@ bool RegisterLine::MergeRegisters(const RegisterLine* incoming_line) {
   DCHECK(incoming_line != nullptr);
   for (size_t idx = 0; idx < num_regs_; idx++) {
     if (line_[idx] != incoming_line->line_[idx]) {
-      const RegType& incoming_reg_type = incoming_line->GetRegisterType(idx);
-      const RegType& cur_type = GetRegisterType(idx);
-      const RegType& new_type = cur_type.Merge(incoming_reg_type, verifier_->GetRegTypeCache());
+      RegType& incoming_reg_type = incoming_line->GetRegisterType(idx);
+      RegType& cur_type = GetRegisterType(idx);
+      RegType& new_type = cur_type.Merge(incoming_reg_type, verifier_->GetRegTypeCache());
       changed = changed || !cur_type.Equals(new_type);
       line_[idx] = new_type.GetId();
     }
@@ -508,7 +508,8 @@ void RegisterLine::WriteReferenceBitMap(std::vector<uint8_t>& data, size_t max_b
 
 std::ostream& operator<<(std::ostream& os, const RegisterLine& rhs)
     SHARED_LOCKS_REQUIRED(Locks::mutator_lock_) {
-  os << rhs.Dump();
+  RegisterLine& rhs_non_const = const_cast<RegisterLine&>(rhs);
+  os << rhs_non_const.Dump();
   return os;
 }
 
diff --git a/runtime/verifier/register_line.h b/runtime/verifier/register_line.h
index 57c7517713..b0018d2048 100644
--- a/runtime/verifier/register_line.h
+++ b/runtime/verifier/register_line.h
@@ -81,26 +81,26 @@ class RegisterLine {
   // Set the type of register N, verifying that the register is valid.  If "newType" is the "Lo"
   // part of a 64-bit value, register N+1 will be set to "newType+1".
   // The register index was validated during the static pass, so we don't need to check it here.
-  bool SetRegisterType(uint32_t vdst, const RegType& new_type)
+  bool SetRegisterType(uint32_t vdst, RegType& new_type)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
-  bool SetRegisterTypeWide(uint32_t vdst, const RegType& new_type1, const RegType& new_type2)
+  bool SetRegisterTypeWide(uint32_t vdst, RegType& new_type1, RegType& new_type2)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   /* Set the type of the "result" register. */
-  void SetResultRegisterType(const RegType& new_type)
+  void SetResultRegisterType(RegType& new_type)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
-  void SetResultRegisterTypeWide(const RegType& new_type1, const RegType& new_type2)
+  void SetResultRegisterTypeWide(RegType& new_type1, RegType& new_type2)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   // Get the type of register vsrc.
-  const RegType& GetRegisterType(uint32_t vsrc) const;
+  RegType& GetRegisterType(uint32_t vsrc) const;
 
-  bool VerifyRegisterType(uint32_t vsrc, const RegType& check_type)
+  bool VerifyRegisterType(uint32_t vsrc, RegType& check_type)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
-  bool VerifyRegisterTypeWide(uint32_t vsrc, const RegType& check_type1, const RegType& check_type2)
+  bool VerifyRegisterTypeWide(uint32_t vsrc, RegType& check_type1, RegType& check_type2)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   void CopyFromLine(const RegisterLine* src) {
@@ -110,7 +110,7 @@ class RegisterLine {
     reg_to_lock_depths_ = src->reg_to_lock_depths_;
   }
 
-  std::string Dump() const SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
+  std::string Dump() SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   void FillWithGarbage() {
     memset(&line_, 0xf1, num_regs_ * sizeof(uint16_t));
@@ -126,7 +126,7 @@ class RegisterLine {
    * to prevent them from being used (otherwise, MarkRefsAsInitialized would mark the old ones and
    * the new ones at the same time).
    */
-  void MarkUninitRefsAsInvalid(const RegType& uninit_type)
+  void MarkUninitRefsAsInvalid(RegType& uninit_type)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   /*
@@ -134,7 +134,7 @@ class RegisterLine {
    * reference type. This is called when an appropriate constructor is invoked -- all copies of
    * the reference must be marked as initialized.
    */
-  void MarkRefsAsInitialized(const RegType& uninit_type)
+  void MarkRefsAsInitialized(RegType& uninit_type)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   /*
@@ -173,30 +173,30 @@ class RegisterLine {
    * The argument count is in vA, and the first argument is in vC, for both "simple" and "range"
    * versions. We just need to make sure vA is >= 1 and then return vC.
    */
-  const RegType& GetInvocationThis(const Instruction* inst, bool is_range)
+  RegType& GetInvocationThis(const Instruction* inst, bool is_range)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   /*
    * Verify types for a simple two-register instruction (e.g. "neg-int").
    * "dst_type" is stored into vA, and "src_type" is verified against vB.
    */
-  void CheckUnaryOp(const Instruction* inst, const RegType& dst_type,
-                    const RegType& src_type)
+  void CheckUnaryOp(const Instruction* inst, RegType& dst_type,
+                    RegType& src_type)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   void CheckUnaryOpWide(const Instruction* inst,
-                        const RegType& dst_type1, const RegType& dst_type2,
-                        const RegType& src_type1, const RegType& src_type2)
+                        RegType& dst_type1, RegType& dst_type2,
+                        RegType& src_type1, RegType& src_type2)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   void CheckUnaryOpToWide(const Instruction* inst,
-                          const RegType& dst_type1, const RegType& dst_type2,
-                          const RegType& src_type)
+                          RegType& dst_type1, RegType& dst_type2,
+                          RegType& src_type)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   void CheckUnaryOpFromWide(const Instruction* inst,
-                            const RegType& dst_type,
-                            const RegType& src_type1, const RegType& src_type2)
+                            RegType& dst_type,
+                            RegType& src_type1, RegType& src_type2)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   /*
@@ -205,19 +205,19 @@ class RegisterLine {
    * against vB/vC.
    */
   void CheckBinaryOp(const Instruction* inst,
-                     const RegType& dst_type, const RegType& src_type1, const RegType& src_type2,
+                     RegType& dst_type, RegType& src_type1, RegType& src_type2,
                      bool check_boolean_op)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   void CheckBinaryOpWide(const Instruction* inst,
-                         const RegType& dst_type1, const RegType& dst_type2,
-                         const RegType& src_type1_1, const RegType& src_type1_2,
-                         const RegType& src_type2_1, const RegType& src_type2_2)
+                         RegType& dst_type1, RegType& dst_type2,
+                         RegType& src_type1_1, RegType& src_type1_2,
+                         RegType& src_type2_1, RegType& src_type2_2)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   void CheckBinaryOpWideShift(const Instruction* inst,
-                              const RegType& long_lo_type, const RegType& long_hi_type,
-                              const RegType& int_type)
+                              RegType& long_lo_type, RegType& long_hi_type,
+                              RegType& int_type)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   /*
@@ -225,20 +225,20 @@ class RegisterLine {
    * are verified against vA/vB, then "dst_type" is stored into vA.
    */
   void CheckBinaryOp2addr(const Instruction* inst,
-                          const RegType& dst_type,
-                          const RegType& src_type1, const RegType& src_type2,
+                          RegType& dst_type,
+                          RegType& src_type1, RegType& src_type2,
                           bool check_boolean_op)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   void CheckBinaryOp2addrWide(const Instruction* inst,
-                              const RegType& dst_type1, const RegType& dst_type2,
-                              const RegType& src_type1_1, const RegType& src_type1_2,
-                              const RegType& src_type2_1, const RegType& src_type2_2)
+                              RegType& dst_type1, RegType& dst_type2,
+                              RegType& src_type1_1, RegType& src_type1_2,
+                              RegType& src_type2_1, RegType& src_type2_2)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   void CheckBinaryOp2addrWideShift(const Instruction* inst,
-                                   const RegType& long_lo_type, const RegType& long_hi_type,
-                                   const RegType& int_type)
+                                   RegType& long_lo_type, RegType& long_hi_type,
+                                   RegType& int_type)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);
 
   /*
@@ -248,7 +248,7 @@ class RegisterLine {
    * If "check_boolean_op" is set, we use the constant value in vC.
    */
   void CheckLiteralOp(const Instruction* inst,
-                      const RegType& dst_type, const RegType& src_type,
+                      RegType& dst_type, RegType& src_type,
                       bool check_boolean_op, bool is_lit16)
       SHARED_LOCKS_REQUIRED(Locks::mutator_lock_);