src/v8globals.h - Issue 5005001: Split globals.h into two parts, where only one depends on V8.

Unified Diff: src/v8globals.h

Issue 5005001: Split globals.h into two parts, where only one depends on V8. (Closed)

Patch Set: Created 10 years, 1 month ago

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Index: src/v8globals.h

diff --git a/src/v8globals.h b/src/v8globals.h

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Lasse Reichstein 2010/11/15 13:21:10 Done.

+// Redistribution and use in source and binary forms, with or without

+// modification, are permitted provided that the following conditions are

+// met:

+//

+// * Redistributions of source code must retain the above copyright

+// notice, this list of conditions and the following disclaimer.

+// * Redistributions in binary form must reproduce the above

+// copyright notice, this list of conditions and the following

+// disclaimer in the documentation and/or other materials provided

+// with the distribution.

+// * Neither the name of Google Inc. nor the names of its

+// contributors may be used to endorse or promote products derived

+// from this software without specific prior written permission.

+//

+// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS

+// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT

+// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR

+// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT

+// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,

+// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT

+// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,

+// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY

+// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT

+// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE

+// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.

+#ifndef V8_V8GLOBALS_H_

+#define V8_V8GLOBALS_H_

+#include "globals.h"

+namespace v8 {

+namespace internal {

+// This file contains constants and global declarations related to the

+// V8 system.

Rico 2010/11/15 13:10:16 I am assuming that all of the below is simply yank

Lasse Reichstein 2010/11/15 13:21:10 It is taken verbatim from the old globals.h.

+// Mask for the sign bit in a smi.

+const intptr_t kSmiSignMask = kIntptrSignBit;

+const int kObjectAlignmentBits = kPointerSizeLog2;

+const intptr_t kObjectAlignment = 1 << kObjectAlignmentBits;

+const intptr_t kObjectAlignmentMask = kObjectAlignment - 1;

+// Desired alignment for pointers.

+const intptr_t kPointerAlignment = (1 << kPointerSizeLog2);

+const intptr_t kPointerAlignmentMask = kPointerAlignment - 1;

+// Desired alignment for maps.

+#if V8_HOST_ARCH_64_BIT

+const intptr_t kMapAlignmentBits = kObjectAlignmentBits;

+#else

+const intptr_t kMapAlignmentBits = kObjectAlignmentBits + 3;

+#endif

+const intptr_t kMapAlignment = (1 << kMapAlignmentBits);

+const intptr_t kMapAlignmentMask = kMapAlignment - 1;

+// Desired alignment for generated code is 32 bytes (to improve cache line

+// utilization).

+const int kCodeAlignmentBits = 5;

+const intptr_t kCodeAlignment = 1 << kCodeAlignmentBits;

+const intptr_t kCodeAlignmentMask = kCodeAlignment - 1;

+// Tag information for Failure.

+const int kFailureTag = 3;

+const int kFailureTagSize = 2;

+const intptr_t kFailureTagMask = (1 << kFailureTagSize) - 1;

+// Zap-value: The value used for zapping dead objects.

+// Should be a recognizable hex value tagged as a heap object pointer.

+#ifdef V8_HOST_ARCH_64_BIT

+const Address kZapValue =

+ reinterpret_cast<Address>(V8_UINT64_C(0xdeadbeedbeadbeed));

+const Address kHandleZapValue =

+ reinterpret_cast<Address>(V8_UINT64_C(0x1baddead0baddead));

+const Address kFromSpaceZapValue =

+ reinterpret_cast<Address>(V8_UINT64_C(0x1beefdad0beefdad));

+const uint64_t kDebugZapValue = 0xbadbaddbbadbaddb;

+#else

+const Address kZapValue = reinterpret_cast<Address>(0xdeadbeed);

+const Address kHandleZapValue = reinterpret_cast<Address>(0xbaddead);

+const Address kFromSpaceZapValue = reinterpret_cast<Address>(0xbeefdad);

+const uint32_t kDebugZapValue = 0xbadbaddb;

+#endif

+// Number of bits to represent the page size for paged spaces. The value of 13

+// gives 8K bytes per page.

+const int kPageSizeBits = 13;

+// On Intel architecture, cache line size is 64 bytes.

+// On ARM it may be less (32 bytes), but as far this constant is

+// used for aligning data, it doesn't hurt to align on a greater value.

+const int kProcessorCacheLineSize = 64;

+// Constants relevant to double precision floating point numbers.

+// Quiet NaNs have bits 51 to 62 set, possibly the sign bit, and no

+// other bits set.

+const uint64_t kQuietNaNMask = static_cast<uint64_t>(0xfff) << 51;

+// If looking only at the top 32 bits, the QNaN mask is bits 19 to 30.

+const uint32_t kQuietNaNHighBitsMask = 0xfff << (51 - 32);

+// -----------------------------------------------------------------------------

+// Forward declarations for frequently used classes

+// (sorted alphabetically)

+class AccessorInfo;

+class Allocation;

+class Arguments;

+class Assembler;

+class AssertNoAllocation;

+class BreakableStatement;

+class Code;

+class CodeGenerator;

+class CodeStub;

+class Context;

+class Debug;

+class Debugger;

+class DebugInfo;

+class Descriptor;

+class DescriptorArray;

+class Expression;

+class ExternalReference;

+class FixedArray;

+class FunctionEntry;

+class FunctionLiteral;

+class FunctionTemplateInfo;

+class NumberDictionary;

+class StringDictionary;

+template <typename T> class Handle;

+class Heap;

+class HeapObject;

+class IC;

+class InterceptorInfo;

+class IterationStatement;

+class JSArray;

+class JSFunction;

+class JSObject;

+class LargeObjectSpace;

+class LookupResult;

+class MacroAssembler;

+class Map;

+class MapSpace;

+class MarkCompactCollector;

+class NewSpace;

+class NodeVisitor;

+class Object;

+class MaybeObject;

+class OldSpace;

+class Property;

+class Proxy;

+class RegExpNode;

+struct RegExpCompileData;

+class RegExpTree;

+class RegExpCompiler;

+class RegExpVisitor;

+class Scope;

+template<class Allocator = FreeStoreAllocationPolicy> class ScopeInfo;

+class SerializedScopeInfo;

+class Script;

+class Slot;

+class Smi;

+template <typename Config, class Allocator = FreeStoreAllocationPolicy>

+ class SplayTree;

+class Statement;

+class String;

+class Struct;

+class SwitchStatement;

+class AstVisitor;

+class Variable;

+class VariableProxy;

+class RelocInfo;

+class Deserializer;

+class MessageLocation;

+class ObjectGroup;

+class TickSample;

+class VirtualMemory;

+class Mutex;

+typedef bool (*WeakSlotCallback)(Object** pointer);

+// -----------------------------------------------------------------------------

+// Miscellaneous

+// NOTE: SpaceIterator depends on AllocationSpace enumeration values being

+// consecutive.

+enum AllocationSpace {

+ NEW_SPACE, // Semispaces collected with copying collector.

+ OLD_POINTER_SPACE, // May contain pointers to new space.

+ OLD_DATA_SPACE, // Must not have pointers to new space.

+ CODE_SPACE, // No pointers to new space, marked executable.

+ MAP_SPACE, // Only and all map objects.

+ CELL_SPACE, // Only and all cell objects.

+ LO_SPACE, // Promoted large objects.

+ FIRST_SPACE = NEW_SPACE,

+ LAST_SPACE = LO_SPACE,

+ FIRST_PAGED_SPACE = OLD_POINTER_SPACE,

+ LAST_PAGED_SPACE = CELL_SPACE

+};

+const int kSpaceTagSize = 3;

+const int kSpaceTagMask = (1 << kSpaceTagSize) - 1;

+// A flag that indicates whether objects should be pretenured when

+// allocated (allocated directly into the old generation) or not

+// (allocated in the young generation if the object size and type

+// allows).

+enum PretenureFlag { NOT_TENURED, TENURED };

+enum GarbageCollector { SCAVENGER, MARK_COMPACTOR };

+enum Executability { NOT_EXECUTABLE, EXECUTABLE };

+enum VisitMode { VISIT_ALL, VISIT_ALL_IN_SCAVENGE, VISIT_ONLY_STRONG };

+// Flag indicating whether code is built into the VM (one of the natives files).

+enum NativesFlag { NOT_NATIVES_CODE, NATIVES_CODE };

+// A CodeDesc describes a buffer holding instructions and relocation

+// information. The instructions start at the beginning of the buffer

+// and grow forward, the relocation information starts at the end of

+// the buffer and grows backward.

+//

+// |<--------------- buffer_size ---------------->|

+// |<-- instr_size -->| |<-- reloc_size -->|

+// +==================+========+==================+

+// | instructions | free | reloc info |

+// +==================+========+==================+

+// ^

+// |

+// buffer

+struct CodeDesc {

+ byte* buffer;

+ int buffer_size;

+ int instr_size;

+ int reloc_size;

+ Assembler* origin;

+};

+// Callback function on object slots, used for iterating heap object slots in

+// HeapObjects, global pointers to heap objects, etc. The callback allows the

+// callback function to change the value of the slot.

+typedef void (*ObjectSlotCallback)(HeapObject** pointer);

+// Callback function used for iterating objects in heap spaces,

+// for example, scanning heap objects.

+typedef int (*HeapObjectCallback)(HeapObject* obj);

+// Callback function used for checking constraints when copying/relocating

+// objects. Returns true if an object can be copied/relocated from its

+// old_addr to a new_addr.

+typedef bool (*ConstraintCallback)(Address new_addr, Address old_addr);

+// Callback function on inline caches, used for iterating over inline caches

+// in compiled code.

+typedef void (*InlineCacheCallback)(Code* code, Address ic);

+// State for inline cache call sites. Aliased as IC::State.

+enum InlineCacheState {

+ // Has never been executed.

+ UNINITIALIZED,

+ // Has been executed but monomorhic state has been delayed.

+ PREMONOMORPHIC,

+ // Has been executed and only one receiver type has been seen.

+ MONOMORPHIC,

+ // Like MONOMORPHIC but check failed due to prototype.

+ MONOMORPHIC_PROTOTYPE_FAILURE,

+ // Multiple receiver types have been seen.

+ MEGAMORPHIC,

+ // Special states for debug break or step in prepare stubs.

+ DEBUG_BREAK,

+ DEBUG_PREPARE_STEP_IN

+};

+enum InLoopFlag {

+ NOT_IN_LOOP,

+ IN_LOOP

+};

+enum CallFunctionFlags {

+ NO_CALL_FUNCTION_FLAGS = 0,

+ RECEIVER_MIGHT_BE_VALUE = 1 << 0 // Receiver might not be a JSObject.

+};

+enum InlineCacheHolderFlag {

+ OWN_MAP, // For fast properties objects.

+ PROTOTYPE_MAP // For slow properties objects (except GlobalObjects).

+};

+// Type of properties.

+// Order of properties is significant.

+// Must fit in the BitField PropertyDetails::TypeField.

+// A copy of this is in mirror-debugger.js.

+enum PropertyType {

+ NORMAL = 0, // only in slow mode

+ FIELD = 1, // only in fast mode

+ CONSTANT_FUNCTION = 2, // only in fast mode

+ CALLBACKS = 3,

+ INTERCEPTOR = 4, // only in lookup results, not in descriptors.

+ MAP_TRANSITION = 5, // only in fast mode

+ CONSTANT_TRANSITION = 6, // only in fast mode

+ NULL_DESCRIPTOR = 7, // only in fast mode

+ // All properties before MAP_TRANSITION are real.

+ FIRST_PHANTOM_PROPERTY_TYPE = MAP_TRANSITION,

+ // There are no IC stubs for NULL_DESCRIPTORS. Therefore,

+ // NULL_DESCRIPTOR can be used as the type flag for IC stubs for

+ // nonexistent properties.

+ NONEXISTENT = NULL_DESCRIPTOR

+};

+// Whether to remove map transitions and constant transitions from a

+// DescriptorArray.

+enum TransitionFlag {

+ REMOVE_TRANSITIONS,

+ KEEP_TRANSITIONS

+};

+// Union used for fast testing of specific double values.

+union DoubleRepresentation {

+ double value;

+ int64_t bits;

+ DoubleRepresentation(double x) { value = x; }

+};

+// Union used for customized checking of the IEEE double types

+// inlined within v8 runtime, rather than going to the underlying

+// platform headers and libraries

+union IeeeDoubleLittleEndianArchType {

+ double d;

+ struct {

+ unsigned int man_low :32;

+ unsigned int man_high :20;

+ unsigned int exp :11;

+ unsigned int sign :1;

+ } bits;

+};

+union IeeeDoubleBigEndianArchType {

+ double d;

+ struct {

+ unsigned int sign :1;

+ unsigned int exp :11;

+ unsigned int man_high :20;

+ unsigned int man_low :32;

+ } bits;

+};

+// AccessorCallback

+struct AccessorDescriptor {

+ MaybeObject* (*getter)(Object* object, void* data);

+ MaybeObject* (*setter)(JSObject* object, Object* value, void* data);

+ void* data;

+};

+// Logging and profiling.

+// A StateTag represents a possible state of the VM. When compiled with

+// ENABLE_VMSTATE_TRACKING, the logger maintains a stack of these.

+// Creating a VMState object enters a state by pushing on the stack, and

+// destroying a VMState object leaves a state by popping the current state

+// from the stack.

+#define STATE_TAG_LIST(V) \

+ V(JS) \

+ V(GC) \

+ V(COMPILER) \

+ V(OTHER) \

+ V(EXTERNAL)

+enum StateTag {

+#define DEF_STATE_TAG(name) name,

+ STATE_TAG_LIST(DEF_STATE_TAG)

+#undef DEF_STATE_TAG

+ // Pseudo-types.

+ state_tag_count

+};

+// -----------------------------------------------------------------------------

+// Macros

+// Testers for test.

+#define HAS_SMI_TAG(value) \

+ ((reinterpret_cast<intptr_t>(value) & kSmiTagMask) == kSmiTag)

+#define HAS_FAILURE_TAG(value) \

+ ((reinterpret_cast<intptr_t>(value) & kFailureTagMask) == kFailureTag)

+// OBJECT_POINTER_ALIGN returns the value aligned as a HeapObject pointer

+#define OBJECT_POINTER_ALIGN(value) \

+ (((value) + kObjectAlignmentMask) & ~kObjectAlignmentMask)

+// POINTER_SIZE_ALIGN returns the value aligned as a pointer.

+#define POINTER_SIZE_ALIGN(value) \

+ (((value) + kPointerAlignmentMask) & ~kPointerAlignmentMask)

+// MAP_POINTER_ALIGN returns the value aligned as a map pointer.

+#define MAP_POINTER_ALIGN(value) \

+ (((value) + kMapAlignmentMask) & ~kMapAlignmentMask)

+// CODE_POINTER_ALIGN returns the value aligned as a generated code segment.

+#define CODE_POINTER_ALIGN(value) \

+ (((value) + kCodeAlignmentMask) & ~kCodeAlignmentMask)

+// Support for tracking C++ memory allocation. Insert TRACK_MEMORY("Fisk")

+// inside a C++ class and new and delete will be overloaded so logging is

+// performed.

+// This file (globals.h) is included before log.h, so we use direct calls to

+// the Logger rather than the LOG macro.

+#ifdef DEBUG

+#define TRACK_MEMORY(name) \

+ void* operator new(size_t size) { \

+ void* result = ::operator new(size); \

+ Logger::NewEvent(name, result, size); \

+ return result; \

+ } \

+ void operator delete(void* object) { \

+ Logger::DeleteEvent(name, object); \

+ ::operator delete(object); \

+ }

+#else

+#define TRACK_MEMORY(name)

+#endif

+// Feature flags bit positions. They are mostly based on the CPUID spec.

+// (We assign CPUID itself to one of the currently reserved bits --

+// feel free to change this if needed.)

+// On X86/X64, values below 32 are bits in EDX, values above 32 are bits in ECX.

+enum CpuFeature { SSE4_1 = 32 + 19, // x86

+ SSE3 = 32 + 0, // x86

+ SSE2 = 26, // x86

+ CMOV = 15, // x86

+ RDTSC = 4, // x86

+ CPUID = 10, // x86

+ VFP3 = 1, // ARM

+ ARMv7 = 2, // ARM

+ SAHF = 0}; // x86

+} } // namespace v8::internal

+#endif // V8_V8GLOBALS_H_

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