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// Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
#ifndef RUNTIME_VM_GLOBALS_H_
#define RUNTIME_VM_GLOBALS_H_
// This file contains global definitions for the VM library only. Anything that
// is more globally useful should be added to 'vm/globals.h'.
#include "platform/globals.h"
#if defined(_WIN32)
// Undef conflicting defines.
#undef PARITY_EVEN
#undef PARITY_ODD
#undef near
#endif // defined(_WIN32)
// The following #defines are invalidated.
#undef OVERFLOW // From math.h conflicts in constants_ia32.h
namespace dart {
// Smi value range is from -(2^N) to (2^N)-1.
// N=30 (32-bit build) or N=62 (64-bit build).
const intptr_t kSmiBits = kBitsPerWord - 2;
const intptr_t kSmiMax = (static_cast<intptr_t>(1) << kSmiBits) - 1;
const intptr_t kSmiMin = -(static_cast<intptr_t>(1) << kSmiBits);
// Hard coded from above but for 32-bit architectures.
const intptr_t kSmiBits32 = kBitsPerInt32 - 2;
const intptr_t kSmiMax32 = (static_cast<intptr_t>(1) << kSmiBits32) - 1;
const intptr_t kSmiMin32 = -(static_cast<intptr_t>(1) << kSmiBits32);
// Number of bytes per BigInt digit.
const intptr_t kBytesPerBigIntDigit = 4;
// The default old gen heap size in MB, where 0 == unlimited.
const intptr_t kDefaultMaxOldGenHeapSize = (kWordSize <= 4) ? 1536 : 0;
#define kPosInfinity bit_cast<double>(DART_UINT64_C(0x7ff0000000000000))
#define kNegInfinity bit_cast<double>(DART_UINT64_C(0xfff0000000000000))
// The expression ARRAY_SIZE(array) is a compile-time constant of type
// size_t which represents the number of elements of the given
// array. You should only use ARRAY_SIZE on statically allocated
// arrays.
#define ARRAY_SIZE(array) \
((sizeof(array) / sizeof(*(array))) / \
static_cast<intptr_t>(!(sizeof(array) % sizeof(*(array))))) // NOLINT
#if defined(PRODUCT) && defined(DEBUG)
#error Both PRODUCT and DEBUG defined.
#endif // defined(PRODUCT) && defined(DEBUG)
#if defined(PRODUCT)
#define NOT_IN_PRODUCT(code)
#else // defined(PRODUCT)
#define NOT_IN_PRODUCT(code) code
#endif // defined(PRODUCT)
#if defined(DART_PRECOMPILED_RUNTIME) && defined(DART_PRECOMPILER)
#error DART_PRECOMPILED_RUNTIME and DART_PRECOMPILER are mutually exclusive
#endif // defined(DART_PRECOMPILED_RUNTIME) && defined(DART_PRECOMPILER)
#if defined(DART_PRECOMPILED_RUNTIME) && defined(DART_NOSNAPSHOT)
#error DART_PRECOMPILED_RUNTIME and DART_NOSNAPSHOT are mutually exclusive
#endif // defined(DART_PRECOMPILED_RUNTIME) && defined(DART_NOSNAPSHOT)
#if defined(DART_PRECOMPILED_RUNTIME)
#define NOT_IN_PRECOMPILED(code)
#else
#define NOT_IN_PRECOMPILED(code) code
#endif // defined(DART_PRECOMPILED_RUNTIME)
#if defined(ARCH_IS_64_BIT)
#define HASH_IN_OBJECT_HEADER 1
#endif
// For checking deterministic graph generation, we can store instruction
// tag in the ICData and check it when recreating the flow graph in
// optimizing compiler. Enable it for other modes (product, release) if needed
// for debugging.
#if defined(DEBUG)
#define TAG_IC_DATA
#endif
// The expression OFFSET_OF(type, field) computes the byte-offset of
// the specified field relative to the containing type.
//
// The expression OFFSET_OF_RETURNED_VALUE(type, accessor) computes the
// byte-offset of the return value of the accessor to the containing type.
//
// None of these use 0 or NULL, which causes a problem with the compiler
// warnings we have enabled (which is also why 'offsetof' doesn't seem to work).
// The workaround is to use the non-zero value kOffsetOfPtr.
const intptr_t kOffsetOfPtr = 32;
#define OFFSET_OF(type, field) \
(reinterpret_cast<intptr_t>( \
&(reinterpret_cast<type*>(kOffsetOfPtr)->field)) - \
kOffsetOfPtr) // NOLINT
#define OFFSET_OF_RETURNED_VALUE(type, accessor) \
(reinterpret_cast<intptr_t>( \
(reinterpret_cast<type*>(kOffsetOfPtr)->accessor())) - \
kOffsetOfPtr) // NOLINT
#define SIZE_OF_RETURNED_VALUE(type, method) \
sizeof(reinterpret_cast<type*>(kOffsetOfPtr)->method())
#define SIZE_OF_DEREFERENCED_RETURNED_VALUE(type, method) \
sizeof(*(reinterpret_cast<type*>(kOffsetOfPtr))->method())
#define OPEN_ARRAY_START(type, align) \
do { \
const uword result = reinterpret_cast<uword>(this) + sizeof(*this); \
ASSERT(Utils::IsAligned(result, sizeof(align))); \
return reinterpret_cast<type*>(result); \
} while (0)
// A type large enough to contain the value of the C++ vtable. This is needed
// to support the handle operations.
typedef uword cpp_vtable;
// When using GCC we can use GCC attributes to ensure that certain
// constants are 8 or 16 byte aligned.
#if defined(HOST_OS_WINDOWS)
#define ALIGN8 __declspec(align(8))
#define ALIGN16 __declspec(align(16))
#else
#define ALIGN8 __attribute__((aligned(8)))
#define ALIGN16 __attribute__((aligned(16)))
#endif
// Zap value used to indicate uninitialized handle area (debug purposes).
#if defined(ARCH_IS_32_BIT)
static const uword kZapUninitializedWord = 0xabababab;
#else
static const uword kZapUninitializedWord = 0xabababababababab;
#endif
// Macros to get the contents of the fp register.
#if defined(HOST_OS_WINDOWS)
// clang-format off
#if defined(HOST_ARCH_IA32)
#define COPY_FP_REGISTER(fp) \
__asm { mov fp, ebp} \
; // NOLINT
// clang-format on
#elif defined(HOST_ARCH_X64)
// We don't have the asm equivalent to get at the frame pointer on
// windows x64, return the stack pointer instead.
#define COPY_FP_REGISTER(fp) fp = OSThread::GetCurrentStackPointer();
#else
#error Unknown host architecture.
#endif
#else // !defined(HOST_OS_WINDOWS))
// Assume GCC-compatible builtins.
#define COPY_FP_REGISTER(fp) \
fp = reinterpret_cast<uintptr_t>(__builtin_frame_address(0));
#endif // !defined(HOST_OS_WINDOWS))
} // namespace dart
#endif // RUNTIME_VM_GLOBALS_H_