runtime/arch/arm/entrypoints_init_arm.cc - LeafOS-Project/android_art - Gitiles

 /*
  * Copyright (C) 2012 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #include <math.h>
 #include <string.h>

 #include "arch/arm/asm_support_arm.h"
 #include "base/bit_utils.h"
 #include "entrypoints/entrypoint_utils.h"
 #include "entrypoints/jni/jni_entrypoints.h"
 #include "entrypoints/math_entrypoints.h"
 #include "entrypoints/quick/quick_alloc_entrypoints.h"
 #include "entrypoints/quick/quick_default_externs.h"
 #include "entrypoints/quick/quick_default_init_entrypoints.h"
 #include "entrypoints/quick/quick_entrypoints.h"
 #include "entrypoints/runtime_asm_entrypoints.h"
 #include "interpreter/interpreter.h"

 namespace art HIDDEN {

 // Cast entrypoints.
 extern "C" size_t artInstanceOfFromCode(mirror::Object* obj, mirror::Class* ref_class);

 // Read barrier entrypoints.
 // art_quick_read_barrier_mark_regX uses an non-standard calling
 // convention: it expects its input in register X and returns its
 // result in that same register, and saves and restores all
 // caller-save registers.
 extern "C" mirror::Object* art_quick_read_barrier_mark_reg00(mirror::Object*);
 extern "C" mirror::Object* art_quick_read_barrier_mark_reg01(mirror::Object*);
 extern "C" mirror::Object* art_quick_read_barrier_mark_reg02(mirror::Object*);
 extern "C" mirror::Object* art_quick_read_barrier_mark_reg03(mirror::Object*);
 extern "C" mirror::Object* art_quick_read_barrier_mark_reg04(mirror::Object*);
 extern "C" mirror::Object* art_quick_read_barrier_mark_reg05(mirror::Object*);
 extern "C" mirror::Object* art_quick_read_barrier_mark_reg06(mirror::Object*);
 extern "C" mirror::Object* art_quick_read_barrier_mark_reg07(mirror::Object*);
 extern "C" mirror::Object* art_quick_read_barrier_mark_reg08(mirror::Object*);
 extern "C" mirror::Object* art_quick_read_barrier_mark_reg09(mirror::Object*);
 extern "C" mirror::Object* art_quick_read_barrier_mark_reg10(mirror::Object*);
 extern "C" mirror::Object* art_quick_read_barrier_mark_reg11(mirror::Object*);
 extern "C" mirror::Object* art_quick_read_barrier_mark_reg12(mirror::Object*);

 extern "C" mirror::Object* art_quick_read_barrier_mark_introspection(mirror::Object*);
 extern "C" mirror::Object* art_quick_read_barrier_mark_introspection_narrow(mirror::Object*);
 extern "C" mirror::Object* art_quick_read_barrier_mark_introspection_arrays(mirror::Object*);
 extern "C" mirror::Object* art_quick_read_barrier_mark_introspection_gc_roots_wide(mirror::Object*);
 extern "C" mirror::Object* art_quick_read_barrier_mark_introspection_gc_roots_narrow(
     mirror::Object*);
 extern "C" mirror::Object* art_quick_read_barrier_mark_introspection_intrinsic_cas(mirror::Object*);

 // Used by soft float.
 // Single-precision FP arithmetics.
 extern "C" float fmodf(float a, float b);              // REM_FLOAT[_2ADDR]
 // Double-precision FP arithmetics.
 extern "C" double fmod(double a, double b);            // REM_DOUBLE[_2ADDR]

 // Used by hard float.
 extern "C" float art_quick_fmodf(float a, float b);    // REM_FLOAT[_2ADDR]
 extern "C" double art_quick_fmod(double a, double b);  // REM_DOUBLE[_2ADDR]

 // Integer arithmetics.
 extern "C" int __aeabi_idivmod(int32_t, int32_t);  // [DIV|REM]_INT[_2ADDR|_LIT8|_LIT16]

 // Long long arithmetics - REM_LONG[_2ADDR] and DIV_LONG[_2ADDR]
 extern "C" int64_t __aeabi_ldivmod(int64_t, int64_t);

 void UpdateReadBarrierEntrypoints(QuickEntryPoints* qpoints, bool is_active) {
   qpoints->SetReadBarrierMarkReg00(is_active ? art_quick_read_barrier_mark_reg00 : nullptr);
   qpoints->SetReadBarrierMarkReg01(is_active ? art_quick_read_barrier_mark_reg01 : nullptr);
   qpoints->SetReadBarrierMarkReg02(is_active ? art_quick_read_barrier_mark_reg02 : nullptr);
   qpoints->SetReadBarrierMarkReg03(is_active ? art_quick_read_barrier_mark_reg03 : nullptr);
   qpoints->SetReadBarrierMarkReg04(is_active ? art_quick_read_barrier_mark_reg04 : nullptr);
   qpoints->SetReadBarrierMarkReg05(is_active ? art_quick_read_barrier_mark_reg05 : nullptr);
   qpoints->SetReadBarrierMarkReg06(is_active ? art_quick_read_barrier_mark_reg06 : nullptr);
   qpoints->SetReadBarrierMarkReg07(is_active ? art_quick_read_barrier_mark_reg07 : nullptr);
   qpoints->SetReadBarrierMarkReg08(is_active ? art_quick_read_barrier_mark_reg08 : nullptr);
   qpoints->SetReadBarrierMarkReg09(is_active ? art_quick_read_barrier_mark_reg09 : nullptr);
   qpoints->SetReadBarrierMarkReg10(is_active ? art_quick_read_barrier_mark_reg10 : nullptr);
   qpoints->SetReadBarrierMarkReg11(is_active ? art_quick_read_barrier_mark_reg11 : nullptr);

   if (gUseReadBarrier && kUseBakerReadBarrier) {
     // For the alignment check, strip the Thumb mode bit.
     DCHECK_ALIGNED(reinterpret_cast<intptr_t>(art_quick_read_barrier_mark_introspection) - 1u,
                    256u);
     // Check the field narrow entrypoint offset from the introspection entrypoint.
     intptr_t narrow_diff =
         reinterpret_cast<intptr_t>(art_quick_read_barrier_mark_introspection_narrow) -
         reinterpret_cast<intptr_t>(art_quick_read_barrier_mark_introspection);
     DCHECK_EQ(BAKER_MARK_INTROSPECTION_FIELD_LDR_NARROW_ENTRYPOINT_OFFSET, narrow_diff);
     // Check array switch cases offsets from the introspection entrypoint.
     intptr_t array_diff =
         reinterpret_cast<intptr_t>(art_quick_read_barrier_mark_introspection_arrays) -
         reinterpret_cast<intptr_t>(art_quick_read_barrier_mark_introspection);
     DCHECK_EQ(BAKER_MARK_INTROSPECTION_ARRAY_SWITCH_OFFSET, array_diff);
     // Check the GC root entrypoint offsets from the introspection entrypoint.
     intptr_t gc_roots_wide_diff =
         reinterpret_cast<intptr_t>(art_quick_read_barrier_mark_introspection_gc_roots_wide) -
         reinterpret_cast<intptr_t>(art_quick_read_barrier_mark_introspection);
     DCHECK_EQ(BAKER_MARK_INTROSPECTION_GC_ROOT_LDR_WIDE_ENTRYPOINT_OFFSET, gc_roots_wide_diff);
     intptr_t gc_roots_narrow_diff =
         reinterpret_cast<intptr_t>(art_quick_read_barrier_mark_introspection_gc_roots_narrow) -
         reinterpret_cast<intptr_t>(art_quick_read_barrier_mark_introspection);
     DCHECK_EQ(BAKER_MARK_INTROSPECTION_GC_ROOT_LDR_NARROW_ENTRYPOINT_OFFSET, gc_roots_narrow_diff);
     intptr_t intrinsic_cas_diff =
         reinterpret_cast<intptr_t>(art_quick_read_barrier_mark_introspection_intrinsic_cas) -
         reinterpret_cast<intptr_t>(art_quick_read_barrier_mark_introspection);
     DCHECK_EQ(BAKER_MARK_INTROSPECTION_INTRINSIC_CAS_ENTRYPOINT_OFFSET, intrinsic_cas_diff);
     // The register 12, i.e. IP, is reserved, so there is no art_quick_read_barrier_mark_reg12.
     // We're using the entry to hold a pointer to the introspection entrypoint instead.
     qpoints->SetReadBarrierMarkReg12(
         is_active ? art_quick_read_barrier_mark_introspection : nullptr);
   }
 }

 void InitEntryPoints(JniEntryPoints* jpoints,
                      QuickEntryPoints* qpoints,
                      bool monitor_jni_entry_exit) {
   DefaultInitEntryPoints(jpoints, qpoints, monitor_jni_entry_exit);

   // Cast
   qpoints->SetInstanceofNonTrivial(artInstanceOfFromCode);
   qpoints->SetCheckInstanceOf(art_quick_check_instance_of);

   // Math
   qpoints->SetIdivmod(__aeabi_idivmod);
   qpoints->SetLdiv(__aeabi_ldivmod);
   qpoints->SetLmod(__aeabi_ldivmod);  // result returned in r2:r3
   qpoints->SetLmul(art_quick_mul_long);
   qpoints->SetShlLong(art_quick_shl_long);
   qpoints->SetShrLong(art_quick_shr_long);
   qpoints->SetUshrLong(art_quick_ushr_long);
   qpoints->SetFmod(art_quick_fmod);
   qpoints->SetFmodf(art_quick_fmodf);
   qpoints->SetD2l(art_quick_d2l);
   qpoints->SetF2l(art_quick_f2l);
   qpoints->SetL2f(art_quick_l2f);

   // More math.
   qpoints->SetCos(cos);
   qpoints->SetSin(sin);
   qpoints->SetAcos(acos);
   qpoints->SetAsin(asin);
   qpoints->SetAtan(atan);
   qpoints->SetAtan2(atan2);
   qpoints->SetPow(pow);
   qpoints->SetCbrt(cbrt);
   qpoints->SetCosh(cosh);
   qpoints->SetExp(exp);
   qpoints->SetExpm1(expm1);
   qpoints->SetHypot(hypot);
   qpoints->SetLog(log);
   qpoints->SetLog10(log10);
   qpoints->SetNextAfter(nextafter);
   qpoints->SetSinh(sinh);
   qpoints->SetTan(tan);
   qpoints->SetTanh(tanh);

   // Intrinsics
   qpoints->SetIndexOf(art_quick_indexof);
   // The ARM StringCompareTo intrinsic does not call the runtime.
   qpoints->SetStringCompareTo(nullptr);
   qpoints->SetMemcpy(memcpy);

   // Read barrier.
   UpdateReadBarrierEntrypoints(qpoints, /*is_active=*/ false);
   qpoints->SetReadBarrierMarkReg12(nullptr);  // Cannot use register 12 (IP) to pass arguments.
   qpoints->SetReadBarrierMarkReg13(nullptr);  // Cannot use register 13 (SP) to pass arguments.
   qpoints->SetReadBarrierMarkReg14(nullptr);  // Cannot use register 14 (LR) to pass arguments.
   qpoints->SetReadBarrierMarkReg15(nullptr);  // Cannot use register 15 (PC) to pass arguments.
   // ARM has only 16 core registers.
   qpoints->SetReadBarrierMarkReg16(nullptr);
   qpoints->SetReadBarrierMarkReg17(nullptr);
   qpoints->SetReadBarrierMarkReg18(nullptr);
   qpoints->SetReadBarrierMarkReg19(nullptr);
   qpoints->SetReadBarrierMarkReg20(nullptr);
   qpoints->SetReadBarrierMarkReg21(nullptr);
   qpoints->SetReadBarrierMarkReg22(nullptr);
   qpoints->SetReadBarrierMarkReg23(nullptr);
   qpoints->SetReadBarrierMarkReg24(nullptr);
   qpoints->SetReadBarrierMarkReg25(nullptr);
   qpoints->SetReadBarrierMarkReg26(nullptr);
   qpoints->SetReadBarrierMarkReg27(nullptr);
   qpoints->SetReadBarrierMarkReg28(nullptr);
   qpoints->SetReadBarrierMarkReg29(nullptr);
   qpoints->SetReadBarrierSlow(artReadBarrierSlow);
   qpoints->SetReadBarrierForRootSlow(artReadBarrierForRootSlow);
 }

 }  // namespace art
	/*
	* Copyright (C) 2012 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#include <math.h>
	#include <string.h>

	#include "arch/arm/asm_support_arm.h"
	#include "base/bit_utils.h"
	#include "entrypoints/entrypoint_utils.h"
	#include "entrypoints/jni/jni_entrypoints.h"
	#include "entrypoints/math_entrypoints.h"
	#include "entrypoints/quick/quick_alloc_entrypoints.h"
	#include "entrypoints/quick/quick_default_externs.h"
	#include "entrypoints/quick/quick_default_init_entrypoints.h"
	#include "entrypoints/quick/quick_entrypoints.h"
	#include "entrypoints/runtime_asm_entrypoints.h"
	#include "interpreter/interpreter.h"

	namespace art HIDDEN {

	// Cast entrypoints.
	extern "C" size_t artInstanceOfFromCode(mirror::Object* obj, mirror::Class* ref_class);

	// Read barrier entrypoints.
	// art_quick_read_barrier_mark_regX uses an non-standard calling
	// convention: it expects its input in register X and returns its
	// result in that same register, and saves and restores all
	// caller-save registers.
	extern "C" mirror::Object* art_quick_read_barrier_mark_reg00(mirror::Object*);
	extern "C" mirror::Object* art_quick_read_barrier_mark_reg01(mirror::Object*);
	extern "C" mirror::Object* art_quick_read_barrier_mark_reg02(mirror::Object*);
	extern "C" mirror::Object* art_quick_read_barrier_mark_reg03(mirror::Object*);
	extern "C" mirror::Object* art_quick_read_barrier_mark_reg04(mirror::Object*);
	extern "C" mirror::Object* art_quick_read_barrier_mark_reg05(mirror::Object*);
	extern "C" mirror::Object* art_quick_read_barrier_mark_reg06(mirror::Object*);
	extern "C" mirror::Object* art_quick_read_barrier_mark_reg07(mirror::Object*);
	extern "C" mirror::Object* art_quick_read_barrier_mark_reg08(mirror::Object*);
	extern "C" mirror::Object* art_quick_read_barrier_mark_reg09(mirror::Object*);
	extern "C" mirror::Object* art_quick_read_barrier_mark_reg10(mirror::Object*);
	extern "C" mirror::Object* art_quick_read_barrier_mark_reg11(mirror::Object*);
	extern "C" mirror::Object* art_quick_read_barrier_mark_reg12(mirror::Object*);

	extern "C" mirror::Object* art_quick_read_barrier_mark_introspection(mirror::Object*);
	extern "C" mirror::Object* art_quick_read_barrier_mark_introspection_narrow(mirror::Object*);
	extern "C" mirror::Object* art_quick_read_barrier_mark_introspection_arrays(mirror::Object*);
	extern "C" mirror::Object* art_quick_read_barrier_mark_introspection_gc_roots_wide(mirror::Object*);
	extern "C" mirror::Object* art_quick_read_barrier_mark_introspection_gc_roots_narrow(
	mirror::Object*);
	extern "C" mirror::Object* art_quick_read_barrier_mark_introspection_intrinsic_cas(mirror::Object*);

	// Used by soft float.
	// Single-precision FP arithmetics.
	extern "C" float fmodf(float a, float b); // REM_FLOAT[_2ADDR]
	// Double-precision FP arithmetics.
	extern "C" double fmod(double a, double b); // REM_DOUBLE[_2ADDR]

	// Used by hard float.
	extern "C" float art_quick_fmodf(float a, float b); // REM_FLOAT[_2ADDR]
	extern "C" double art_quick_fmod(double a, double b); // REM_DOUBLE[_2ADDR]

	// Integer arithmetics.
	extern "C" int __aeabi_idivmod(int32_t, int32_t); // [DIV\|REM]_INT[_2ADDR\|_LIT8\|_LIT16]

	// Long long arithmetics - REM_LONG[_2ADDR] and DIV_LONG[_2ADDR]
	extern "C" int64_t __aeabi_ldivmod(int64_t, int64_t);

	void UpdateReadBarrierEntrypoints(QuickEntryPoints* qpoints, bool is_active) {
	qpoints->SetReadBarrierMarkReg00(is_active ? art_quick_read_barrier_mark_reg00 : nullptr);
	qpoints->SetReadBarrierMarkReg01(is_active ? art_quick_read_barrier_mark_reg01 : nullptr);
	qpoints->SetReadBarrierMarkReg02(is_active ? art_quick_read_barrier_mark_reg02 : nullptr);
	qpoints->SetReadBarrierMarkReg03(is_active ? art_quick_read_barrier_mark_reg03 : nullptr);
	qpoints->SetReadBarrierMarkReg04(is_active ? art_quick_read_barrier_mark_reg04 : nullptr);
	qpoints->SetReadBarrierMarkReg05(is_active ? art_quick_read_barrier_mark_reg05 : nullptr);
	qpoints->SetReadBarrierMarkReg06(is_active ? art_quick_read_barrier_mark_reg06 : nullptr);
	qpoints->SetReadBarrierMarkReg07(is_active ? art_quick_read_barrier_mark_reg07 : nullptr);
	qpoints->SetReadBarrierMarkReg08(is_active ? art_quick_read_barrier_mark_reg08 : nullptr);
	qpoints->SetReadBarrierMarkReg09(is_active ? art_quick_read_barrier_mark_reg09 : nullptr);
	qpoints->SetReadBarrierMarkReg10(is_active ? art_quick_read_barrier_mark_reg10 : nullptr);
	qpoints->SetReadBarrierMarkReg11(is_active ? art_quick_read_barrier_mark_reg11 : nullptr);

	if (gUseReadBarrier && kUseBakerReadBarrier) {
	// For the alignment check, strip the Thumb mode bit.
	DCHECK_ALIGNED(reinterpret_cast<intptr_t>(art_quick_read_barrier_mark_introspection) - 1u,
	256u);
	// Check the field narrow entrypoint offset from the introspection entrypoint.
	intptr_t narrow_diff =
	reinterpret_cast<intptr_t>(art_quick_read_barrier_mark_introspection_narrow) -
	reinterpret_cast<intptr_t>(art_quick_read_barrier_mark_introspection);
	DCHECK_EQ(BAKER_MARK_INTROSPECTION_FIELD_LDR_NARROW_ENTRYPOINT_OFFSET, narrow_diff);
	// Check array switch cases offsets from the introspection entrypoint.
	intptr_t array_diff =
	reinterpret_cast<intptr_t>(art_quick_read_barrier_mark_introspection_arrays) -
	reinterpret_cast<intptr_t>(art_quick_read_barrier_mark_introspection);
	DCHECK_EQ(BAKER_MARK_INTROSPECTION_ARRAY_SWITCH_OFFSET, array_diff);
	// Check the GC root entrypoint offsets from the introspection entrypoint.
	intptr_t gc_roots_wide_diff =
	reinterpret_cast<intptr_t>(art_quick_read_barrier_mark_introspection_gc_roots_wide) -
	reinterpret_cast<intptr_t>(art_quick_read_barrier_mark_introspection);
	DCHECK_EQ(BAKER_MARK_INTROSPECTION_GC_ROOT_LDR_WIDE_ENTRYPOINT_OFFSET, gc_roots_wide_diff);
	intptr_t gc_roots_narrow_diff =
	reinterpret_cast<intptr_t>(art_quick_read_barrier_mark_introspection_gc_roots_narrow) -
	reinterpret_cast<intptr_t>(art_quick_read_barrier_mark_introspection);
	DCHECK_EQ(BAKER_MARK_INTROSPECTION_GC_ROOT_LDR_NARROW_ENTRYPOINT_OFFSET, gc_roots_narrow_diff);
	intptr_t intrinsic_cas_diff =
	reinterpret_cast<intptr_t>(art_quick_read_barrier_mark_introspection_intrinsic_cas) -
	reinterpret_cast<intptr_t>(art_quick_read_barrier_mark_introspection);
	DCHECK_EQ(BAKER_MARK_INTROSPECTION_INTRINSIC_CAS_ENTRYPOINT_OFFSET, intrinsic_cas_diff);
	// The register 12, i.e. IP, is reserved, so there is no art_quick_read_barrier_mark_reg12.
	// We're using the entry to hold a pointer to the introspection entrypoint instead.
	qpoints->SetReadBarrierMarkReg12(
	is_active ? art_quick_read_barrier_mark_introspection : nullptr);
	}
	}

	void InitEntryPoints(JniEntryPoints* jpoints,
	QuickEntryPoints* qpoints,
	bool monitor_jni_entry_exit) {
	DefaultInitEntryPoints(jpoints, qpoints, monitor_jni_entry_exit);

	// Cast
	qpoints->SetInstanceofNonTrivial(artInstanceOfFromCode);
	qpoints->SetCheckInstanceOf(art_quick_check_instance_of);

	// Math
	qpoints->SetIdivmod(__aeabi_idivmod);
	qpoints->SetLdiv(__aeabi_ldivmod);
	qpoints->SetLmod(__aeabi_ldivmod); // result returned in r2:r3
	qpoints->SetLmul(art_quick_mul_long);
	qpoints->SetShlLong(art_quick_shl_long);
	qpoints->SetShrLong(art_quick_shr_long);
	qpoints->SetUshrLong(art_quick_ushr_long);
	qpoints->SetFmod(art_quick_fmod);
	qpoints->SetFmodf(art_quick_fmodf);
	qpoints->SetD2l(art_quick_d2l);
	qpoints->SetF2l(art_quick_f2l);
	qpoints->SetL2f(art_quick_l2f);

	// More math.
	qpoints->SetCos(cos);
	qpoints->SetSin(sin);
	qpoints->SetAcos(acos);
	qpoints->SetAsin(asin);
	qpoints->SetAtan(atan);
	qpoints->SetAtan2(atan2);
	qpoints->SetPow(pow);
	qpoints->SetCbrt(cbrt);
	qpoints->SetCosh(cosh);
	qpoints->SetExp(exp);
	qpoints->SetExpm1(expm1);
	qpoints->SetHypot(hypot);
	qpoints->SetLog(log);
	qpoints->SetLog10(log10);
	qpoints->SetNextAfter(nextafter);
	qpoints->SetSinh(sinh);
	qpoints->SetTan(tan);
	qpoints->SetTanh(tanh);

	// Intrinsics
	qpoints->SetIndexOf(art_quick_indexof);
	// The ARM StringCompareTo intrinsic does not call the runtime.
	qpoints->SetStringCompareTo(nullptr);
	qpoints->SetMemcpy(memcpy);

	// Read barrier.
	UpdateReadBarrierEntrypoints(qpoints, /is_active=/ false);
	qpoints->SetReadBarrierMarkReg12(nullptr); // Cannot use register 12 (IP) to pass arguments.
	qpoints->SetReadBarrierMarkReg13(nullptr); // Cannot use register 13 (SP) to pass arguments.
	qpoints->SetReadBarrierMarkReg14(nullptr); // Cannot use register 14 (LR) to pass arguments.
	qpoints->SetReadBarrierMarkReg15(nullptr); // Cannot use register 15 (PC) to pass arguments.
	// ARM has only 16 core registers.
	qpoints->SetReadBarrierMarkReg16(nullptr);
	qpoints->SetReadBarrierMarkReg17(nullptr);
	qpoints->SetReadBarrierMarkReg18(nullptr);
	qpoints->SetReadBarrierMarkReg19(nullptr);
	qpoints->SetReadBarrierMarkReg20(nullptr);
	qpoints->SetReadBarrierMarkReg21(nullptr);
	qpoints->SetReadBarrierMarkReg22(nullptr);
	qpoints->SetReadBarrierMarkReg23(nullptr);
	qpoints->SetReadBarrierMarkReg24(nullptr);
	qpoints->SetReadBarrierMarkReg25(nullptr);
	qpoints->SetReadBarrierMarkReg26(nullptr);
	qpoints->SetReadBarrierMarkReg27(nullptr);
	qpoints->SetReadBarrierMarkReg28(nullptr);
	qpoints->SetReadBarrierMarkReg29(nullptr);
	qpoints->SetReadBarrierSlow(artReadBarrierSlow);
	qpoints->SetReadBarrierForRootSlow(artReadBarrierForRootSlow);
	}

	} // namespace art