runtime/arch/mips64/entrypoints_init_mips64.cc - platform/art - Git at Google

 /*
  * Copyright (C) 2014 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/mips64/asm_support_mips64.h"
 #include "base/atomic.h"
 #include "base/quasi_atomic.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 {

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

 // Read barrier entrypoints.
 // art_quick_read_barrier_mark_regXX uses a non-standard calling
 // convention: it expects its input in register XX+1 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_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_reg13(mirror::Object*);
 extern "C" mirror::Object* art_quick_read_barrier_mark_reg17(mirror::Object*);
 extern "C" mirror::Object* art_quick_read_barrier_mark_reg18(mirror::Object*);
 extern "C" mirror::Object* art_quick_read_barrier_mark_reg19(mirror::Object*);
 extern "C" mirror::Object* art_quick_read_barrier_mark_reg20(mirror::Object*);
 extern "C" mirror::Object* art_quick_read_barrier_mark_reg21(mirror::Object*);
 extern "C" mirror::Object* art_quick_read_barrier_mark_reg22(mirror::Object*);
 extern "C" mirror::Object* art_quick_read_barrier_mark_reg29(mirror::Object*);

 extern "C" mirror::Object* art_quick_read_barrier_mark_introspection(mirror::Object*);
 extern "C" mirror::Object* art_quick_read_barrier_mark_introspection_gc_roots(mirror::Object*);
 extern "C" void art_quick_read_barrier_mark_introspection_end_of_entries(void);

 // Math entrypoints.
 extern int32_t CmpgDouble(double a, double b);
 extern int32_t CmplDouble(double a, double b);
 extern int32_t CmpgFloat(float a, float b);
 extern int32_t CmplFloat(float a, float b);
 extern "C" int64_t artLmul(int64_t a, int64_t b);
 extern "C" int64_t artLdiv(int64_t a, int64_t b);
 extern "C" int64_t artLmod(int64_t a, int64_t b);

 // Math conversions.
 extern "C" int32_t __fixsfsi(float op1);      // FLOAT_TO_INT
 extern "C" int32_t __fixdfsi(double op1);     // DOUBLE_TO_INT
 extern "C" float __floatdisf(int64_t op1);    // LONG_TO_FLOAT
 extern "C" double __floatdidf(int64_t op1);   // LONG_TO_DOUBLE
 extern "C" int64_t __fixsfdi(float op1);      // FLOAT_TO_LONG
 extern "C" int64_t __fixdfdi(double op1);     // DOUBLE_TO_LONG

 // 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]

 // Long long arithmetics - REM_LONG[_2ADDR] and DIV_LONG[_2ADDR]
 extern "C" int64_t __divdi3(int64_t, int64_t);
 extern "C" int64_t __moddi3(int64_t, int64_t);

 // No read barrier entrypoints for marking registers.
 void UpdateReadBarrierEntrypoints(QuickEntryPoints* qpoints, bool is_active) {
   intptr_t introspection_field_array_entries_size =
       reinterpret_cast<intptr_t>(&art_quick_read_barrier_mark_introspection_gc_roots) -
       reinterpret_cast<intptr_t>(&art_quick_read_barrier_mark_introspection);
   static_assert(
       BAKER_MARK_INTROSPECTION_GC_ROOT_ENTRIES_OFFSET == 2 *
           BAKER_MARK_INTROSPECTION_REGISTER_COUNT * BAKER_MARK_INTROSPECTION_FIELD_ARRAY_ENTRY_SIZE,
       "Expecting equal");
   DCHECK_EQ(introspection_field_array_entries_size,
             BAKER_MARK_INTROSPECTION_GC_ROOT_ENTRIES_OFFSET);
   intptr_t introspection_gc_root_entries_size =
       reinterpret_cast<intptr_t>(&art_quick_read_barrier_mark_introspection_end_of_entries) -
       reinterpret_cast<intptr_t>(&art_quick_read_barrier_mark_introspection_gc_roots);
   DCHECK_EQ(introspection_gc_root_entries_size,
             BAKER_MARK_INTROSPECTION_REGISTER_COUNT * BAKER_MARK_INTROSPECTION_GC_ROOT_ENTRY_SIZE);
   qpoints->pReadBarrierMarkReg00 = is_active ? art_quick_read_barrier_mark_introspection : nullptr;
   qpoints->pReadBarrierMarkReg01 = is_active ? art_quick_read_barrier_mark_reg01 : nullptr;
   qpoints->pReadBarrierMarkReg02 = is_active ? art_quick_read_barrier_mark_reg02 : nullptr;
   qpoints->pReadBarrierMarkReg03 = is_active ? art_quick_read_barrier_mark_reg03 : nullptr;
   qpoints->pReadBarrierMarkReg04 = is_active ? art_quick_read_barrier_mark_reg04 : nullptr;
   qpoints->pReadBarrierMarkReg05 = is_active ? art_quick_read_barrier_mark_reg05 : nullptr;
   qpoints->pReadBarrierMarkReg06 = is_active ? art_quick_read_barrier_mark_reg06 : nullptr;
   qpoints->pReadBarrierMarkReg07 = is_active ? art_quick_read_barrier_mark_reg07 : nullptr;
   qpoints->pReadBarrierMarkReg08 = is_active ? art_quick_read_barrier_mark_reg08 : nullptr;
   qpoints->pReadBarrierMarkReg09 = is_active ? art_quick_read_barrier_mark_reg09 : nullptr;
   qpoints->pReadBarrierMarkReg10 = is_active ? art_quick_read_barrier_mark_reg10 : nullptr;
   qpoints->pReadBarrierMarkReg11 = is_active ? art_quick_read_barrier_mark_reg11 : nullptr;
   qpoints->pReadBarrierMarkReg12 = is_active ? art_quick_read_barrier_mark_reg12 : nullptr;
   qpoints->pReadBarrierMarkReg13 = is_active ? art_quick_read_barrier_mark_reg13 : nullptr;
   qpoints->pReadBarrierMarkReg17 = is_active ? art_quick_read_barrier_mark_reg17 : nullptr;
   qpoints->pReadBarrierMarkReg18 = is_active ? art_quick_read_barrier_mark_reg18 : nullptr;
   qpoints->pReadBarrierMarkReg19 = is_active ? art_quick_read_barrier_mark_reg19 : nullptr;
   qpoints->pReadBarrierMarkReg20 = is_active ? art_quick_read_barrier_mark_reg20 : nullptr;
   qpoints->pReadBarrierMarkReg21 = is_active ? art_quick_read_barrier_mark_reg21 : nullptr;
   qpoints->pReadBarrierMarkReg22 = is_active ? art_quick_read_barrier_mark_reg22 : nullptr;
   qpoints->pReadBarrierMarkReg29 = is_active ? art_quick_read_barrier_mark_reg29 : nullptr;
 }

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

   // Cast
   qpoints->pInstanceofNonTrivial = artInstanceOfFromCode;
   qpoints->pCheckInstanceOf = art_quick_check_instance_of;

   // Math
   qpoints->pCmpgDouble = CmpgDouble;
   qpoints->pCmpgFloat = CmpgFloat;
   qpoints->pCmplDouble = CmplDouble;
   qpoints->pCmplFloat = CmplFloat;
   qpoints->pFmod = fmod;
   qpoints->pL2d = art_l2d;
   qpoints->pFmodf = fmodf;
   qpoints->pL2f = art_l2f;
   qpoints->pD2iz = art_d2i;
   qpoints->pF2iz = art_f2i;
   qpoints->pIdivmod = nullptr;
   qpoints->pD2l = art_d2l;
   qpoints->pF2l = art_f2l;
   qpoints->pLdiv = artLdiv;
   qpoints->pLmod = artLmod;
   qpoints->pLmul = artLmul;
   qpoints->pShlLong = nullptr;
   qpoints->pShrLong = nullptr;
   qpoints->pUshrLong = nullptr;

   // More math.
   qpoints->pCos = cos;
   qpoints->pSin = sin;
   qpoints->pAcos = acos;
   qpoints->pAsin = asin;
   qpoints->pAtan = atan;
   qpoints->pAtan2 = atan2;
   qpoints->pPow = pow;
   qpoints->pCbrt = cbrt;
   qpoints->pCosh = cosh;
   qpoints->pExp = exp;
   qpoints->pExpm1 = expm1;
   qpoints->pHypot = hypot;
   qpoints->pLog = log;
   qpoints->pLog10 = log10;
   qpoints->pNextAfter = nextafter;
   qpoints->pSinh = sinh;
   qpoints->pTan = tan;
   qpoints->pTanh = tanh;

   // Intrinsics
   qpoints->pIndexOf = art_quick_indexof;
   qpoints->pStringCompareTo = art_quick_string_compareto;
   qpoints->pMemcpy = memcpy;

   // TODO - use lld/scd instructions for Mips64
   // Atomic 64-bit load/store
   qpoints->pA64Load = QuasiAtomic::Read64;
   qpoints->pA64Store = QuasiAtomic::Write64;

   // Read barrier.
   qpoints->pReadBarrierJni = ReadBarrierJni;
   UpdateReadBarrierEntrypoints(qpoints, /*is_active=*/ false);
   // Cannot use the following registers to pass arguments:
   // 0(ZERO), 1(AT), 15(T3), 16(S0), 17(S1), 24(T8), 25(T9), 26(K0), 27(K1), 28(GP), 29(SP), 31(RA).
   // Note that there are 30 entry points only: 00 for register 1(AT), ..., 29 for register 30(S8).
   qpoints->pReadBarrierMarkReg14 = nullptr;
   qpoints->pReadBarrierMarkReg15 = nullptr;
   qpoints->pReadBarrierMarkReg16 = nullptr;
   qpoints->pReadBarrierMarkReg23 = nullptr;
   qpoints->pReadBarrierMarkReg24 = nullptr;
   qpoints->pReadBarrierMarkReg25 = nullptr;
   qpoints->pReadBarrierMarkReg26 = nullptr;
   qpoints->pReadBarrierMarkReg27 = nullptr;
   qpoints->pReadBarrierMarkReg28 = nullptr;
   qpoints->pReadBarrierSlow = artReadBarrierSlow;
   qpoints->pReadBarrierForRootSlow = artReadBarrierForRootSlow;
 }

 }  // namespace art
	/*
	* Copyright (C) 2014 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/mips64/asm_support_mips64.h"
	#include "base/atomic.h"
	#include "base/quasi_atomic.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 {

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

	// Read barrier entrypoints.
	// art_quick_read_barrier_mark_regXX uses a non-standard calling
	// convention: it expects its input in register XX+1 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_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_reg13(mirror::Object*);
	extern "C" mirror::Object* art_quick_read_barrier_mark_reg17(mirror::Object*);
	extern "C" mirror::Object* art_quick_read_barrier_mark_reg18(mirror::Object*);
	extern "C" mirror::Object* art_quick_read_barrier_mark_reg19(mirror::Object*);
	extern "C" mirror::Object* art_quick_read_barrier_mark_reg20(mirror::Object*);
	extern "C" mirror::Object* art_quick_read_barrier_mark_reg21(mirror::Object*);
	extern "C" mirror::Object* art_quick_read_barrier_mark_reg22(mirror::Object*);
	extern "C" mirror::Object* art_quick_read_barrier_mark_reg29(mirror::Object*);

	extern "C" mirror::Object* art_quick_read_barrier_mark_introspection(mirror::Object*);
	extern "C" mirror::Object* art_quick_read_barrier_mark_introspection_gc_roots(mirror::Object*);
	extern "C" void art_quick_read_barrier_mark_introspection_end_of_entries(void);

	// Math entrypoints.
	extern int32_t CmpgDouble(double a, double b);
	extern int32_t CmplDouble(double a, double b);
	extern int32_t CmpgFloat(float a, float b);
	extern int32_t CmplFloat(float a, float b);
	extern "C" int64_t artLmul(int64_t a, int64_t b);
	extern "C" int64_t artLdiv(int64_t a, int64_t b);
	extern "C" int64_t artLmod(int64_t a, int64_t b);

	// Math conversions.
	extern "C" int32_t __fixsfsi(float op1); // FLOAT_TO_INT
	extern "C" int32_t __fixdfsi(double op1); // DOUBLE_TO_INT
	extern "C" float __floatdisf(int64_t op1); // LONG_TO_FLOAT
	extern "C" double __floatdidf(int64_t op1); // LONG_TO_DOUBLE
	extern "C" int64_t __fixsfdi(float op1); // FLOAT_TO_LONG
	extern "C" int64_t __fixdfdi(double op1); // DOUBLE_TO_LONG

	// 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]

	// Long long arithmetics - REM_LONG[_2ADDR] and DIV_LONG[_2ADDR]
	extern "C" int64_t __divdi3(int64_t, int64_t);
	extern "C" int64_t __moddi3(int64_t, int64_t);

	// No read barrier entrypoints for marking registers.
	void UpdateReadBarrierEntrypoints(QuickEntryPoints* qpoints, bool is_active) {
	intptr_t introspection_field_array_entries_size =
	reinterpret_cast<intptr_t>(&art_quick_read_barrier_mark_introspection_gc_roots) -
	reinterpret_cast<intptr_t>(&art_quick_read_barrier_mark_introspection);
	static_assert(
	BAKER_MARK_INTROSPECTION_GC_ROOT_ENTRIES_OFFSET == 2 *
	BAKER_MARK_INTROSPECTION_REGISTER_COUNT * BAKER_MARK_INTROSPECTION_FIELD_ARRAY_ENTRY_SIZE,
	"Expecting equal");
	DCHECK_EQ(introspection_field_array_entries_size,
	BAKER_MARK_INTROSPECTION_GC_ROOT_ENTRIES_OFFSET);
	intptr_t introspection_gc_root_entries_size =
	reinterpret_cast<intptr_t>(&art_quick_read_barrier_mark_introspection_end_of_entries) -
	reinterpret_cast<intptr_t>(&art_quick_read_barrier_mark_introspection_gc_roots);
	DCHECK_EQ(introspection_gc_root_entries_size,
	BAKER_MARK_INTROSPECTION_REGISTER_COUNT * BAKER_MARK_INTROSPECTION_GC_ROOT_ENTRY_SIZE);
	qpoints->pReadBarrierMarkReg00 = is_active ? art_quick_read_barrier_mark_introspection : nullptr;
	qpoints->pReadBarrierMarkReg01 = is_active ? art_quick_read_barrier_mark_reg01 : nullptr;
	qpoints->pReadBarrierMarkReg02 = is_active ? art_quick_read_barrier_mark_reg02 : nullptr;
	qpoints->pReadBarrierMarkReg03 = is_active ? art_quick_read_barrier_mark_reg03 : nullptr;
	qpoints->pReadBarrierMarkReg04 = is_active ? art_quick_read_barrier_mark_reg04 : nullptr;
	qpoints->pReadBarrierMarkReg05 = is_active ? art_quick_read_barrier_mark_reg05 : nullptr;
	qpoints->pReadBarrierMarkReg06 = is_active ? art_quick_read_barrier_mark_reg06 : nullptr;
	qpoints->pReadBarrierMarkReg07 = is_active ? art_quick_read_barrier_mark_reg07 : nullptr;
	qpoints->pReadBarrierMarkReg08 = is_active ? art_quick_read_barrier_mark_reg08 : nullptr;
	qpoints->pReadBarrierMarkReg09 = is_active ? art_quick_read_barrier_mark_reg09 : nullptr;
	qpoints->pReadBarrierMarkReg10 = is_active ? art_quick_read_barrier_mark_reg10 : nullptr;
	qpoints->pReadBarrierMarkReg11 = is_active ? art_quick_read_barrier_mark_reg11 : nullptr;
	qpoints->pReadBarrierMarkReg12 = is_active ? art_quick_read_barrier_mark_reg12 : nullptr;
	qpoints->pReadBarrierMarkReg13 = is_active ? art_quick_read_barrier_mark_reg13 : nullptr;
	qpoints->pReadBarrierMarkReg17 = is_active ? art_quick_read_barrier_mark_reg17 : nullptr;
	qpoints->pReadBarrierMarkReg18 = is_active ? art_quick_read_barrier_mark_reg18 : nullptr;
	qpoints->pReadBarrierMarkReg19 = is_active ? art_quick_read_barrier_mark_reg19 : nullptr;
	qpoints->pReadBarrierMarkReg20 = is_active ? art_quick_read_barrier_mark_reg20 : nullptr;
	qpoints->pReadBarrierMarkReg21 = is_active ? art_quick_read_barrier_mark_reg21 : nullptr;
	qpoints->pReadBarrierMarkReg22 = is_active ? art_quick_read_barrier_mark_reg22 : nullptr;
	qpoints->pReadBarrierMarkReg29 = is_active ? art_quick_read_barrier_mark_reg29 : nullptr;
	}

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

	// Cast
	qpoints->pInstanceofNonTrivial = artInstanceOfFromCode;
	qpoints->pCheckInstanceOf = art_quick_check_instance_of;

	// Math
	qpoints->pCmpgDouble = CmpgDouble;
	qpoints->pCmpgFloat = CmpgFloat;
	qpoints->pCmplDouble = CmplDouble;
	qpoints->pCmplFloat = CmplFloat;
	qpoints->pFmod = fmod;
	qpoints->pL2d = art_l2d;
	qpoints->pFmodf = fmodf;
	qpoints->pL2f = art_l2f;
	qpoints->pD2iz = art_d2i;
	qpoints->pF2iz = art_f2i;
	qpoints->pIdivmod = nullptr;
	qpoints->pD2l = art_d2l;
	qpoints->pF2l = art_f2l;
	qpoints->pLdiv = artLdiv;
	qpoints->pLmod = artLmod;
	qpoints->pLmul = artLmul;
	qpoints->pShlLong = nullptr;
	qpoints->pShrLong = nullptr;
	qpoints->pUshrLong = nullptr;

	// More math.
	qpoints->pCos = cos;
	qpoints->pSin = sin;
	qpoints->pAcos = acos;
	qpoints->pAsin = asin;
	qpoints->pAtan = atan;
	qpoints->pAtan2 = atan2;
	qpoints->pPow = pow;
	qpoints->pCbrt = cbrt;
	qpoints->pCosh = cosh;
	qpoints->pExp = exp;
	qpoints->pExpm1 = expm1;
	qpoints->pHypot = hypot;
	qpoints->pLog = log;
	qpoints->pLog10 = log10;
	qpoints->pNextAfter = nextafter;
	qpoints->pSinh = sinh;
	qpoints->pTan = tan;
	qpoints->pTanh = tanh;

	// Intrinsics
	qpoints->pIndexOf = art_quick_indexof;
	qpoints->pStringCompareTo = art_quick_string_compareto;
	qpoints->pMemcpy = memcpy;

	// TODO - use lld/scd instructions for Mips64
	// Atomic 64-bit load/store
	qpoints->pA64Load = QuasiAtomic::Read64;
	qpoints->pA64Store = QuasiAtomic::Write64;

	// Read barrier.
	qpoints->pReadBarrierJni = ReadBarrierJni;
	UpdateReadBarrierEntrypoints(qpoints, /is_active=/ false);
	// Cannot use the following registers to pass arguments:
	// 0(ZERO), 1(AT), 15(T3), 16(S0), 17(S1), 24(T8), 25(T9), 26(K0), 27(K1), 28(GP), 29(SP), 31(RA).
	// Note that there are 30 entry points only: 00 for register 1(AT), ..., 29 for register 30(S8).
	qpoints->pReadBarrierMarkReg14 = nullptr;
	qpoints->pReadBarrierMarkReg15 = nullptr;
	qpoints->pReadBarrierMarkReg16 = nullptr;
	qpoints->pReadBarrierMarkReg23 = nullptr;
	qpoints->pReadBarrierMarkReg24 = nullptr;
	qpoints->pReadBarrierMarkReg25 = nullptr;
	qpoints->pReadBarrierMarkReg26 = nullptr;
	qpoints->pReadBarrierMarkReg27 = nullptr;
	qpoints->pReadBarrierMarkReg28 = nullptr;
	qpoints->pReadBarrierSlow = artReadBarrierSlow;
	qpoints->pReadBarrierForRootSlow = artReadBarrierForRootSlow;
	}

	} // namespace art