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|
// Copyright 2016 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "src/json/json-stringifier.h"
#include "src/common/message-template.h"
#include "src/numbers/conversions.h"
#include "src/objects/heap-number-inl.h"
#include "src/objects/js-array-inl.h"
#include "src/objects/lookup.h"
#include "src/objects/objects-inl.h"
#include "src/objects/oddball-inl.h"
#include "src/objects/ordered-hash-table.h"
#include "src/objects/smi.h"
#include "src/strings/string-builder-inl.h"
#include "src/utils/utils.h"
namespace v8 {
namespace internal {
class JsonStringifier {
public:
explicit JsonStringifier(Isolate* isolate);
~JsonStringifier() { DeleteArray(gap_); }
V8_WARN_UNUSED_RESULT MaybeHandle<Object> Stringify(Handle<Object> object,
Handle<Object> replacer,
Handle<Object> gap);
private:
enum Result { UNCHANGED, SUCCESS, EXCEPTION };
bool InitializeReplacer(Handle<Object> replacer);
bool InitializeGap(Handle<Object> gap);
V8_WARN_UNUSED_RESULT MaybeHandle<Object> ApplyToJsonFunction(
Handle<Object> object, Handle<Object> key);
V8_WARN_UNUSED_RESULT MaybeHandle<Object> ApplyReplacerFunction(
Handle<Object> value, Handle<Object> key, Handle<Object> initial_holder);
// Entry point to serialize the object.
V8_INLINE Result SerializeObject(Handle<Object> obj) {
return Serialize_<false>(obj, false, factory()->empty_string());
}
// Serialize an array element.
// The index may serve as argument for the toJSON function.
V8_INLINE Result SerializeElement(Isolate* isolate, Handle<Object> object,
int i) {
return Serialize_<false>(object, false,
Handle<Object>(Smi::FromInt(i), isolate));
}
// Serialize a object property.
// The key may or may not be serialized depending on the property.
// The key may also serve as argument for the toJSON function.
V8_INLINE Result SerializeProperty(Handle<Object> object, bool deferred_comma,
Handle<String> deferred_key) {
DCHECK(!deferred_key.is_null());
return Serialize_<true>(object, deferred_comma, deferred_key);
}
template <bool deferred_string_key>
Result Serialize_(Handle<Object> object, bool comma, Handle<Object> key);
V8_INLINE void SerializeDeferredKey(bool deferred_comma,
Handle<Object> deferred_key);
Result SerializeSmi(Smi object);
Result SerializeDouble(double number);
V8_INLINE Result SerializeHeapNumber(Handle<HeapNumber> object) {
return SerializeDouble(object->value());
}
Result SerializeJSPrimitiveWrapper(Handle<JSPrimitiveWrapper> object,
Handle<Object> key);
V8_INLINE Result SerializeJSArray(Handle<JSArray> object, Handle<Object> key);
V8_INLINE Result SerializeJSObject(Handle<JSObject> object,
Handle<Object> key);
Result SerializeJSProxy(Handle<JSProxy> object, Handle<Object> key);
Result SerializeJSReceiverSlow(Handle<JSReceiver> object);
Result SerializeArrayLikeSlow(Handle<JSReceiver> object, uint32_t start,
uint32_t length);
void SerializeString(Handle<String> object);
template <typename SrcChar, typename DestChar>
V8_INLINE static void SerializeStringUnchecked_(
Vector<const SrcChar> src,
IncrementalStringBuilder::NoExtend<DestChar>* dest);
template <typename SrcChar, typename DestChar>
V8_INLINE void SerializeString_(Handle<String> string);
template <typename Char>
V8_INLINE static bool DoNotEscape(Char c);
V8_INLINE void NewLine();
V8_INLINE void Indent() { indent_++; }
V8_INLINE void Unindent() { indent_--; }
V8_INLINE void Separator(bool first);
Handle<JSReceiver> CurrentHolder(Handle<Object> value,
Handle<Object> inital_holder);
Result StackPush(Handle<Object> object, Handle<Object> key);
void StackPop();
// Uses the current stack_ to provide a detailed error message of
// the objects involved in the circular structure.
Handle<String> ConstructCircularStructureErrorMessage(Handle<Object> last_key,
size_t start_index);
// The prefix and postfix count do NOT include the starting and
// closing lines of the error message.
static const int kCircularErrorMessagePrefixCount = 2;
static const int kCircularErrorMessagePostfixCount = 1;
Factory* factory() { return isolate_->factory(); }
Isolate* isolate_;
IncrementalStringBuilder builder_;
Handle<String> tojson_string_;
Handle<FixedArray> property_list_;
Handle<JSReceiver> replacer_function_;
uc16* gap_;
int indent_;
using KeyObject = std::pair<Handle<Object>, Handle<Object>>;
std::vector<KeyObject> stack_;
static const int kJsonEscapeTableEntrySize = 8;
static const char* const JsonEscapeTable;
};
MaybeHandle<Object> JsonStringify(Isolate* isolate, Handle<Object> object,
Handle<Object> replacer, Handle<Object> gap) {
JsonStringifier stringifier(isolate);
return stringifier.Stringify(object, replacer, gap);
}
// Translation table to escape Latin1 characters.
// Table entries start at a multiple of 8 and are null-terminated.
const char* const JsonStringifier::JsonEscapeTable =
"\\u0000\0 \\u0001\0 \\u0002\0 \\u0003\0 "
"\\u0004\0 \\u0005\0 \\u0006\0 \\u0007\0 "
"\\b\0 \\t\0 \\n\0 \\u000b\0 "
"\\f\0 \\r\0 \\u000e\0 \\u000f\0 "
"\\u0010\0 \\u0011\0 \\u0012\0 \\u0013\0 "
"\\u0014\0 \\u0015\0 \\u0016\0 \\u0017\0 "
"\\u0018\0 \\u0019\0 \\u001a\0 \\u001b\0 "
"\\u001c\0 \\u001d\0 \\u001e\0 \\u001f\0 "
" \0 !\0 \\\"\0 #\0 "
"$\0 %\0 &\0 '\0 "
"(\0 )\0 *\0 +\0 "
",\0 -\0 .\0 /\0 "
"0\0 1\0 2\0 3\0 "
"4\0 5\0 6\0 7\0 "
"8\0 9\0 :\0 ;\0 "
"<\0 =\0 >\0 ?\0 "
"@\0 A\0 B\0 C\0 "
"D\0 E\0 F\0 G\0 "
"H\0 I\0 J\0 K\0 "
"L\0 M\0 N\0 O\0 "
"P\0 Q\0 R\0 S\0 "
"T\0 U\0 V\0 W\0 "
"X\0 Y\0 Z\0 [\0 "
"\\\\\0 ]\0 ^\0 _\0 "
"`\0 a\0 b\0 c\0 "
"d\0 e\0 f\0 g\0 "
"h\0 i\0 j\0 k\0 "
"l\0 m\0 n\0 o\0 "
"p\0 q\0 r\0 s\0 "
"t\0 u\0 v\0 w\0 "
"x\0 y\0 z\0 {\0 "
"|\0 }\0 ~\0 \x7F\0 "
"\x80\0 \x81\0 \x82\0 \x83\0 "
"\x84\0 \x85\0 \x86\0 \x87\0 "
"\x88\0 \x89\0 \x8A\0 \x8B\0 "
"\x8C\0 \x8D\0 \x8E\0 \x8F\0 "
"\x90\0 \x91\0 \x92\0 \x93\0 "
"\x94\0 \x95\0 \x96\0 \x97\0 "
"\x98\0 \x99\0 \x9A\0 \x9B\0 "
"\x9C\0 \x9D\0 \x9E\0 \x9F\0 "
"\xA0\0 \xA1\0 \xA2\0 \xA3\0 "
"\xA4\0 \xA5\0 \xA6\0 \xA7\0 "
"\xA8\0 \xA9\0 \xAA\0 \xAB\0 "
"\xAC\0 \xAD\0 \xAE\0 \xAF\0 "
"\xB0\0 \xB1\0 \xB2\0 \xB3\0 "
"\xB4\0 \xB5\0 \xB6\0 \xB7\0 "
"\xB8\0 \xB9\0 \xBA\0 \xBB\0 "
"\xBC\0 \xBD\0 \xBE\0 \xBF\0 "
"\xC0\0 \xC1\0 \xC2\0 \xC3\0 "
"\xC4\0 \xC5\0 \xC6\0 \xC7\0 "
"\xC8\0 \xC9\0 \xCA\0 \xCB\0 "
"\xCC\0 \xCD\0 \xCE\0 \xCF\0 "
"\xD0\0 \xD1\0 \xD2\0 \xD3\0 "
"\xD4\0 \xD5\0 \xD6\0 \xD7\0 "
"\xD8\0 \xD9\0 \xDA\0 \xDB\0 "
"\xDC\0 \xDD\0 \xDE\0 \xDF\0 "
"\xE0\0 \xE1\0 \xE2\0 \xE3\0 "
"\xE4\0 \xE5\0 \xE6\0 \xE7\0 "
"\xE8\0 \xE9\0 \xEA\0 \xEB\0 "
"\xEC\0 \xED\0 \xEE\0 \xEF\0 "
"\xF0\0 \xF1\0 \xF2\0 \xF3\0 "
"\xF4\0 \xF5\0 \xF6\0 \xF7\0 "
"\xF8\0 \xF9\0 \xFA\0 \xFB\0 "
"\xFC\0 \xFD\0 \xFE\0 \xFF\0 ";
JsonStringifier::JsonStringifier(Isolate* isolate)
: isolate_(isolate),
builder_(isolate),
gap_(nullptr),
indent_(0),
stack_() {
tojson_string_ = factory()->toJSON_string();
}
MaybeHandle<Object> JsonStringifier::Stringify(Handle<Object> object,
Handle<Object> replacer,
Handle<Object> gap) {
if (!InitializeReplacer(replacer)) return MaybeHandle<Object>();
if (!gap->IsUndefined(isolate_) && !InitializeGap(gap)) {
return MaybeHandle<Object>();
}
Result result = SerializeObject(object);
if (result == UNCHANGED) return factory()->undefined_value();
if (result == SUCCESS) return builder_.Finish();
DCHECK(result == EXCEPTION);
return MaybeHandle<Object>();
}
bool JsonStringifier::InitializeReplacer(Handle<Object> replacer) {
DCHECK(property_list_.is_null());
DCHECK(replacer_function_.is_null());
Maybe<bool> is_array = Object::IsArray(replacer);
if (is_array.IsNothing()) return false;
if (is_array.FromJust()) {
HandleScope handle_scope(isolate_);
Handle<OrderedHashSet> set = factory()->NewOrderedHashSet();
Handle<Object> length_obj;
ASSIGN_RETURN_ON_EXCEPTION_VALUE(
isolate_, length_obj,
Object::GetLengthFromArrayLike(isolate_,
Handle<JSReceiver>::cast(replacer)),
false);
uint32_t length;
if (!length_obj->ToUint32(&length)) length = kMaxUInt32;
for (uint32_t i = 0; i < length; i++) {
Handle<Object> element;
Handle<String> key;
ASSIGN_RETURN_ON_EXCEPTION_VALUE(
isolate_, element, Object::GetElement(isolate_, replacer, i), false);
if (element->IsNumber() || element->IsString()) {
ASSIGN_RETURN_ON_EXCEPTION_VALUE(
isolate_, key, Object::ToString(isolate_, element), false);
} else if (element->IsJSPrimitiveWrapper()) {
Handle<Object> value(Handle<JSPrimitiveWrapper>::cast(element)->value(),
isolate_);
if (value->IsNumber() || value->IsString()) {
ASSIGN_RETURN_ON_EXCEPTION_VALUE(
isolate_, key, Object::ToString(isolate_, element), false);
}
}
if (key.is_null()) continue;
// Object keys are internalized, so do it here.
key = factory()->InternalizeString(key);
MaybeHandle<OrderedHashSet> set_candidate =
OrderedHashSet::Add(isolate_, set, key);
if (!set_candidate.ToHandle(&set)) {
return false;
}
}
property_list_ = OrderedHashSet::ConvertToKeysArray(
isolate_, set, GetKeysConversion::kKeepNumbers);
property_list_ = handle_scope.CloseAndEscape(property_list_);
} else if (replacer->IsCallable()) {
replacer_function_ = Handle<JSReceiver>::cast(replacer);
}
return true;
}
bool JsonStringifier::InitializeGap(Handle<Object> gap) {
DCHECK_NULL(gap_);
HandleScope scope(isolate_);
if (gap->IsJSPrimitiveWrapper()) {
Handle<Object> value(Handle<JSPrimitiveWrapper>::cast(gap)->value(),
isolate_);
if (value->IsString()) {
ASSIGN_RETURN_ON_EXCEPTION_VALUE(isolate_, gap,
Object::ToString(isolate_, gap), false);
} else if (value->IsNumber()) {
ASSIGN_RETURN_ON_EXCEPTION_VALUE(isolate_, gap,
Object::ToNumber(isolate_, gap), false);
}
}
if (gap->IsString()) {
Handle<String> gap_string = Handle<String>::cast(gap);
if (gap_string->length() > 0) {
int gap_length = std::min(gap_string->length(), 10);
gap_ = NewArray<uc16>(gap_length + 1);
String::WriteToFlat(*gap_string, gap_, 0, gap_length);
for (int i = 0; i < gap_length; i++) {
if (gap_[i] > String::kMaxOneByteCharCode) {
builder_.ChangeEncoding();
break;
}
}
gap_[gap_length] = '\0';
}
} else if (gap->IsNumber()) {
int num_value = DoubleToInt32(gap->Number());
if (num_value > 0) {
int gap_length = std::min(num_value, 10);
gap_ = NewArray<uc16>(gap_length + 1);
for (int i = 0; i < gap_length; i++) gap_[i] = ' ';
gap_[gap_length] = '\0';
}
}
return true;
}
MaybeHandle<Object> JsonStringifier::ApplyToJsonFunction(Handle<Object> object,
Handle<Object> key) {
HandleScope scope(isolate_);
// Retrieve toJSON function. The LookupIterator automatically handles
// the ToObject() equivalent ("GetRoot") if {object} is a BigInt.
Handle<Object> fun;
LookupIterator it(isolate_, object, tojson_string_,
LookupIterator::PROTOTYPE_CHAIN_SKIP_INTERCEPTOR);
ASSIGN_RETURN_ON_EXCEPTION(isolate_, fun, Object::GetProperty(&it), Object);
if (!fun->IsCallable()) return object;
// Call toJSON function.
if (key->IsSmi()) key = factory()->NumberToString(key);
Handle<Object> argv[] = {key};
ASSIGN_RETURN_ON_EXCEPTION(isolate_, object,
Execution::Call(isolate_, fun, object, 1, argv),
Object);
return scope.CloseAndEscape(object);
}
MaybeHandle<Object> JsonStringifier::ApplyReplacerFunction(
Handle<Object> value, Handle<Object> key, Handle<Object> initial_holder) {
HandleScope scope(isolate_);
if (key->IsSmi()) key = factory()->NumberToString(key);
Handle<Object> argv[] = {key, value};
Handle<JSReceiver> holder = CurrentHolder(value, initial_holder);
ASSIGN_RETURN_ON_EXCEPTION(
isolate_, value,
Execution::Call(isolate_, replacer_function_, holder, 2, argv), Object);
return scope.CloseAndEscape(value);
}
Handle<JSReceiver> JsonStringifier::CurrentHolder(
Handle<Object> value, Handle<Object> initial_holder) {
if (stack_.empty()) {
Handle<JSObject> holder =
factory()->NewJSObject(isolate_->object_function());
JSObject::AddProperty(isolate_, holder, factory()->empty_string(),
initial_holder, NONE);
return holder;
} else {
return Handle<JSReceiver>(JSReceiver::cast(*stack_.back().second),
isolate_);
}
}
JsonStringifier::Result JsonStringifier::StackPush(Handle<Object> object,
Handle<Object> key) {
StackLimitCheck check(isolate_);
if (check.HasOverflowed()) {
isolate_->StackOverflow();
return EXCEPTION;
}
{
DisallowHeapAllocation no_allocation;
for (size_t i = 0; i < stack_.size(); ++i) {
if (*stack_[i].second == *object) {
AllowHeapAllocation allow_to_return_error;
Handle<String> circle_description =
ConstructCircularStructureErrorMessage(key, i);
Handle<Object> error = factory()->NewTypeError(
MessageTemplate::kCircularStructure, circle_description);
isolate_->Throw(*error);
return EXCEPTION;
}
}
}
stack_.emplace_back(key, object);
return SUCCESS;
}
void JsonStringifier::StackPop() { stack_.pop_back(); }
class CircularStructureMessageBuilder {
public:
explicit CircularStructureMessageBuilder(Isolate* isolate)
: builder_(isolate) {}
void AppendStartLine(Handle<Object> start_object) {
builder_.AppendCString(kStartPrefix);
builder_.AppendCString("starting at object with constructor ");
AppendConstructorName(start_object);
}
void AppendNormalLine(Handle<Object> key, Handle<Object> object) {
builder_.AppendCString(kLinePrefix);
AppendKey(key);
builder_.AppendCString(" -> object with constructor ");
AppendConstructorName(object);
}
void AppendClosingLine(Handle<Object> closing_key) {
builder_.AppendCString(kEndPrefix);
AppendKey(closing_key);
builder_.AppendCString(" closes the circle");
}
void AppendEllipsis() {
builder_.AppendCString(kLinePrefix);
builder_.AppendCString("...");
}
MaybeHandle<String> Finish() { return builder_.Finish(); }
private:
void AppendConstructorName(Handle<Object> object) {
builder_.AppendCharacter('\'');
Handle<String> constructor_name =
JSReceiver::GetConstructorName(Handle<JSReceiver>::cast(object));
builder_.AppendString(constructor_name);
builder_.AppendCharacter('\'');
}
// A key can either be a string, the empty string or a Smi.
void AppendKey(Handle<Object> key) {
if (key->IsSmi()) {
builder_.AppendCString("index ");
AppendSmi(Smi::cast(*key));
return;
}
CHECK(key->IsString());
Handle<String> key_as_string = Handle<String>::cast(key);
if (key_as_string->length() == 0) {
builder_.AppendCString("<anonymous>");
} else {
builder_.AppendCString("property '");
builder_.AppendString(key_as_string);
builder_.AppendCharacter('\'');
}
}
void AppendSmi(Smi smi) {
static const int kBufferSize = 100;
char chars[kBufferSize];
Vector<char> buffer(chars, kBufferSize);
builder_.AppendCString(IntToCString(smi.value(), buffer));
}
IncrementalStringBuilder builder_;
static constexpr const char* kStartPrefix = "\n --> ";
static constexpr const char* kEndPrefix = "\n --- ";
static constexpr const char* kLinePrefix = "\n | ";
};
Handle<String> JsonStringifier::ConstructCircularStructureErrorMessage(
Handle<Object> last_key, size_t start_index) {
DCHECK(start_index < stack_.size());
CircularStructureMessageBuilder builder(isolate_);
// We track the index to be printed next for better readability.
size_t index = start_index;
const size_t stack_size = stack_.size();
builder.AppendStartLine(stack_[index++].second);
// Append a maximum of kCircularErrorMessagePrefixCount normal lines.
const size_t prefix_end =
std::min(stack_size, index + kCircularErrorMessagePrefixCount);
for (; index < prefix_end; ++index) {
builder.AppendNormalLine(stack_[index].first, stack_[index].second);
}
// If the circle consists of too many objects, we skip them and just
// print an ellipsis.
if (stack_size > index + kCircularErrorMessagePostfixCount) {
builder.AppendEllipsis();
}
// Since we calculate the postfix lines from the back of the stack,
// we have to ensure that lines are not printed twice.
index = std::max(index, stack_size - kCircularErrorMessagePostfixCount);
for (; index < stack_size; ++index) {
builder.AppendNormalLine(stack_[index].first, stack_[index].second);
}
builder.AppendClosingLine(last_key);
Handle<String> result;
ASSIGN_RETURN_ON_EXCEPTION_VALUE(isolate_, result, builder.Finish(),
factory()->empty_string());
return result;
}
template <bool deferred_string_key>
JsonStringifier::Result JsonStringifier::Serialize_(Handle<Object> object,
bool comma,
Handle<Object> key) {
StackLimitCheck interrupt_check(isolate_);
Handle<Object> initial_value = object;
if (interrupt_check.InterruptRequested() &&
isolate_->stack_guard()->HandleInterrupts().IsException(isolate_)) {
return EXCEPTION;
}
if (object->IsJSReceiver() || object->IsBigInt()) {
ASSIGN_RETURN_ON_EXCEPTION_VALUE(
isolate_, object, ApplyToJsonFunction(object, key), EXCEPTION);
}
if (!replacer_function_.is_null()) {
ASSIGN_RETURN_ON_EXCEPTION_VALUE(
isolate_, object, ApplyReplacerFunction(object, key, initial_value),
EXCEPTION);
}
if (object->IsSmi()) {
if (deferred_string_key) SerializeDeferredKey(comma, key);
return SerializeSmi(Smi::cast(*object));
}
switch (HeapObject::cast(*object).map().instance_type()) {
case HEAP_NUMBER_TYPE:
if (deferred_string_key) SerializeDeferredKey(comma, key);
return SerializeHeapNumber(Handle<HeapNumber>::cast(object));
case BIGINT_TYPE:
isolate_->Throw(
*factory()->NewTypeError(MessageTemplate::kBigIntSerializeJSON));
return EXCEPTION;
case ODDBALL_TYPE:
switch (Oddball::cast(*object).kind()) {
case Oddball::kFalse:
if (deferred_string_key) SerializeDeferredKey(comma, key);
builder_.AppendCString("false");
return SUCCESS;
case Oddball::kTrue:
if (deferred_string_key) SerializeDeferredKey(comma, key);
builder_.AppendCString("true");
return SUCCESS;
case Oddball::kNull:
if (deferred_string_key) SerializeDeferredKey(comma, key);
builder_.AppendCString("null");
return SUCCESS;
default:
return UNCHANGED;
}
case JS_ARRAY_TYPE:
if (deferred_string_key) SerializeDeferredKey(comma, key);
return SerializeJSArray(Handle<JSArray>::cast(object), key);
case JS_PRIMITIVE_WRAPPER_TYPE:
if (deferred_string_key) SerializeDeferredKey(comma, key);
return SerializeJSPrimitiveWrapper(
Handle<JSPrimitiveWrapper>::cast(object), key);
case SYMBOL_TYPE:
return UNCHANGED;
default:
if (object->IsString()) {
if (deferred_string_key) SerializeDeferredKey(comma, key);
SerializeString(Handle<String>::cast(object));
return SUCCESS;
} else {
DCHECK(object->IsJSReceiver());
if (object->IsCallable()) return UNCHANGED;
// Go to slow path for global proxy and objects requiring access checks.
if (deferred_string_key) SerializeDeferredKey(comma, key);
if (object->IsJSProxy()) {
return SerializeJSProxy(Handle<JSProxy>::cast(object), key);
}
return SerializeJSObject(Handle<JSObject>::cast(object), key);
}
}
UNREACHABLE();
}
JsonStringifier::Result JsonStringifier::SerializeJSPrimitiveWrapper(
Handle<JSPrimitiveWrapper> object, Handle<Object> key) {
Object raw = object->value();
if (raw.IsString()) {
Handle<Object> value;
ASSIGN_RETURN_ON_EXCEPTION_VALUE(
isolate_, value, Object::ToString(isolate_, object), EXCEPTION);
SerializeString(Handle<String>::cast(value));
} else if (raw.IsNumber()) {
Handle<Object> value;
ASSIGN_RETURN_ON_EXCEPTION_VALUE(
isolate_, value, Object::ToNumber(isolate_, object), EXCEPTION);
if (value->IsSmi()) return SerializeSmi(Smi::cast(*value));
SerializeHeapNumber(Handle<HeapNumber>::cast(value));
} else if (raw.IsBigInt()) {
isolate_->Throw(
*factory()->NewTypeError(MessageTemplate::kBigIntSerializeJSON));
return EXCEPTION;
} else if (raw.IsBoolean()) {
builder_.AppendCString(raw.IsTrue(isolate_) ? "true" : "false");
} else {
// ES6 24.3.2.1 step 10.c, serialize as an ordinary JSObject.
return SerializeJSObject(object, key);
}
return SUCCESS;
}
JsonStringifier::Result JsonStringifier::SerializeSmi(Smi object) {
static const int kBufferSize = 100;
char chars[kBufferSize];
Vector<char> buffer(chars, kBufferSize);
builder_.AppendCString(IntToCString(object.value(), buffer));
return SUCCESS;
}
JsonStringifier::Result JsonStringifier::SerializeDouble(double number) {
if (std::isinf(number) || std::isnan(number)) {
builder_.AppendCString("null");
return SUCCESS;
}
static const int kBufferSize = 100;
char chars[kBufferSize];
Vector<char> buffer(chars, kBufferSize);
builder_.AppendCString(DoubleToCString(number, buffer));
return SUCCESS;
}
JsonStringifier::Result JsonStringifier::SerializeJSArray(
Handle<JSArray> object, Handle<Object> key) {
HandleScope handle_scope(isolate_);
Result stack_push = StackPush(object, key);
if (stack_push != SUCCESS) return stack_push;
uint32_t length = 0;
CHECK(object->length().ToArrayLength(&length));
DCHECK(!object->IsAccessCheckNeeded());
builder_.AppendCharacter('[');
Indent();
uint32_t i = 0;
if (replacer_function_.is_null()) {
switch (object->GetElementsKind()) {
case PACKED_SMI_ELEMENTS: {
Handle<FixedArray> elements(FixedArray::cast(object->elements()),
isolate_);
StackLimitCheck interrupt_check(isolate_);
while (i < length) {
if (interrupt_check.InterruptRequested() &&
isolate_->stack_guard()->HandleInterrupts().IsException(
isolate_)) {
return EXCEPTION;
}
Separator(i == 0);
SerializeSmi(Smi::cast(elements->get(i)));
i++;
}
break;
}
case PACKED_DOUBLE_ELEMENTS: {
// Empty array is FixedArray but not FixedDoubleArray.
if (length == 0) break;
Handle<FixedDoubleArray> elements(
FixedDoubleArray::cast(object->elements()), isolate_);
StackLimitCheck interrupt_check(isolate_);
while (i < length) {
if (interrupt_check.InterruptRequested() &&
isolate_->stack_guard()->HandleInterrupts().IsException(
isolate_)) {
return EXCEPTION;
}
Separator(i == 0);
SerializeDouble(elements->get_scalar(i));
i++;
}
break;
}
case PACKED_ELEMENTS: {
Handle<Object> old_length(object->length(), isolate_);
while (i < length) {
if (object->length() != *old_length ||
object->GetElementsKind() != PACKED_ELEMENTS) {
// Fall back to slow path.
break;
}
Separator(i == 0);
Result result = SerializeElement(
isolate_,
Handle<Object>(FixedArray::cast(object->elements()).get(i),
isolate_),
i);
if (result == UNCHANGED) {
builder_.AppendCString("null");
} else if (result != SUCCESS) {
return result;
}
i++;
}
break;
}
// The FAST_HOLEY_* cases could be handled in a faster way. They resemble
// the non-holey cases except that a lookup is necessary for holes.
default:
break;
}
}
if (i < length) {
// Slow path for non-fast elements and fall-back in edge case.
Result result = SerializeArrayLikeSlow(object, i, length);
if (result != SUCCESS) return result;
}
Unindent();
if (length > 0) NewLine();
builder_.AppendCharacter(']');
StackPop();
return SUCCESS;
}
JsonStringifier::Result JsonStringifier::SerializeArrayLikeSlow(
Handle<JSReceiver> object, uint32_t start, uint32_t length) {
// We need to write out at least two characters per array element.
static const int kMaxSerializableArrayLength = String::kMaxLength / 2;
if (length > kMaxSerializableArrayLength) {
isolate_->Throw(*isolate_->factory()->NewInvalidStringLengthError());
return EXCEPTION;
}
for (uint32_t i = start; i < length; i++) {
Separator(i == 0);
Handle<Object> element;
ASSIGN_RETURN_ON_EXCEPTION_VALUE(
isolate_, element, JSReceiver::GetElement(isolate_, object, i),
EXCEPTION);
Result result = SerializeElement(isolate_, element, i);
if (result == SUCCESS) continue;
if (result == UNCHANGED) {
// Detect overflow sooner for large sparse arrays.
if (builder_.HasOverflowed()) return EXCEPTION;
builder_.AppendCString("null");
} else {
return result;
}
}
return SUCCESS;
}
JsonStringifier::Result JsonStringifier::SerializeJSObject(
Handle<JSObject> object, Handle<Object> key) {
HandleScope handle_scope(isolate_);
Result stack_push = StackPush(object, key);
if (stack_push != SUCCESS) return stack_push;
if (property_list_.is_null() &&
!object->map().IsCustomElementsReceiverMap() &&
object->HasFastProperties() &&
(object->elements() == ReadOnlyRoots(isolate_).empty_fixed_array() ||
object->elements() ==
ReadOnlyRoots(isolate_).empty_slow_element_dictionary())) {
DCHECK(!object->IsJSGlobalProxy());
DCHECK(!object->HasIndexedInterceptor());
DCHECK(!object->HasNamedInterceptor());
Handle<Map> map(object->map(), isolate_);
builder_.AppendCharacter('{');
Indent();
bool comma = false;
for (InternalIndex i : map->IterateOwnDescriptors()) {
Handle<Name> name(map->instance_descriptors(kRelaxedLoad).GetKey(i),
isolate_);
// TODO(rossberg): Should this throw?
if (!name->IsString()) continue;
Handle<String> key = Handle<String>::cast(name);
PropertyDetails details =
map->instance_descriptors(kRelaxedLoad).GetDetails(i);
if (details.IsDontEnum()) continue;
Handle<Object> property;
if (details.location() == kField && *map == object->map()) {
DCHECK_EQ(kData, details.kind());
FieldIndex field_index = FieldIndex::ForDescriptor(*map, i);
property = JSObject::FastPropertyAt(object, details.representation(),
field_index);
} else {
ASSIGN_RETURN_ON_EXCEPTION_VALUE(
isolate_, property,
Object::GetPropertyOrElement(isolate_, object, key), EXCEPTION);
}
Result result = SerializeProperty(property, comma, key);
if (!comma && result == SUCCESS) comma = true;
if (result == EXCEPTION) return result;
}
Unindent();
if (comma) NewLine();
builder_.AppendCharacter('}');
} else {
Result result = SerializeJSReceiverSlow(object);
if (result != SUCCESS) return result;
}
StackPop();
return SUCCESS;
}
JsonStringifier::Result JsonStringifier::SerializeJSReceiverSlow(
Handle<JSReceiver> object) {
Handle<FixedArray> contents = property_list_;
if (contents.is_null()) {
ASSIGN_RETURN_ON_EXCEPTION_VALUE(
isolate_, contents,
KeyAccumulator::GetKeys(object, KeyCollectionMode::kOwnOnly,
ENUMERABLE_STRINGS,
GetKeysConversion::kConvertToString),
EXCEPTION);
}
builder_.AppendCharacter('{');
Indent();
bool comma = false;
for (int i = 0; i < contents->length(); i++) {
Handle<String> key(String::cast(contents->get(i)), isolate_);
Handle<Object> property;
ASSIGN_RETURN_ON_EXCEPTION_VALUE(
isolate_, property, Object::GetPropertyOrElement(isolate_, object, key),
EXCEPTION);
Result result = SerializeProperty(property, comma, key);
if (!comma && result == SUCCESS) comma = true;
if (result == EXCEPTION) return result;
}
Unindent();
if (comma) NewLine();
builder_.AppendCharacter('}');
return SUCCESS;
}
JsonStringifier::Result JsonStringifier::SerializeJSProxy(
Handle<JSProxy> object, Handle<Object> key) {
HandleScope scope(isolate_);
Result stack_push = StackPush(object, key);
if (stack_push != SUCCESS) return stack_push;
Maybe<bool> is_array = Object::IsArray(object);
if (is_array.IsNothing()) return EXCEPTION;
if (is_array.FromJust()) {
Handle<Object> length_object;
ASSIGN_RETURN_ON_EXCEPTION_VALUE(
isolate_, length_object,
Object::GetLengthFromArrayLike(isolate_,
Handle<JSReceiver>::cast(object)),
EXCEPTION);
uint32_t length;
if (!length_object->ToUint32(&length)) {
// Technically, we need to be able to handle lengths outside the
// uint32_t range. However, we would run into string size overflow
// if we tried to stringify such an array.
isolate_->Throw(*isolate_->factory()->NewInvalidStringLengthError());
return EXCEPTION;
}
builder_.AppendCharacter('[');
Indent();
Result result = SerializeArrayLikeSlow(object, 0, length);
if (result != SUCCESS) return result;
Unindent();
if (length > 0) NewLine();
builder_.AppendCharacter(']');
} else {
Result result = SerializeJSReceiverSlow(object);
if (result != SUCCESS) return result;
}
StackPop();
return SUCCESS;
}
template <typename SrcChar, typename DestChar>
void JsonStringifier::SerializeStringUnchecked_(
Vector<const SrcChar> src,
IncrementalStringBuilder::NoExtend<DestChar>* dest) {
// Assert that uc16 character is not truncated down to 8 bit.
// The <uc16, char> version of this method must not be called.
DCHECK(sizeof(DestChar) >= sizeof(SrcChar));
for (int i = 0; i < src.length(); i++) {
SrcChar c = src[i];
if (DoNotEscape(c)) {
dest->Append(c);
} else if (c >= 0xD800 && c <= 0xDFFF) {
// The current character is a surrogate.
if (c <= 0xDBFF) {
// The current character is a leading surrogate.
if (i + 1 < src.length()) {
// There is a next character.
SrcChar next = src[i + 1];
if (next >= 0xDC00 && next <= 0xDFFF) {
// The next character is a trailing surrogate, meaning this is a
// surrogate pair.
dest->Append(c);
dest->Append(next);
i++;
} else {
// The next character is not a trailing surrogate. Thus, the
// current character is a lone leading surrogate.
dest->AppendCString("\\u");
char* const hex = DoubleToRadixCString(c, 16);
dest->AppendCString(hex);
DeleteArray(hex);
}
} else {
// There is no next character. Thus, the current character is a lone
// leading surrogate.
dest->AppendCString("\\u");
char* const hex = DoubleToRadixCString(c, 16);
dest->AppendCString(hex);
DeleteArray(hex);
}
} else {
// The current character is a lone trailing surrogate. (If it had been
// preceded by a leading surrogate, we would've ended up in the other
// branch earlier on, and the current character would've been handled
// as part of the surrogate pair already.)
dest->AppendCString("\\u");
char* const hex = DoubleToRadixCString(c, 16);
dest->AppendCString(hex);
DeleteArray(hex);
}
} else {
dest->AppendCString(&JsonEscapeTable[c * kJsonEscapeTableEntrySize]);
}
}
}
template <typename SrcChar, typename DestChar>
void JsonStringifier::SerializeString_(Handle<String> string) {
int length = string->length();
builder_.Append<uint8_t, DestChar>('"');
// We might be able to fit the whole escaped string in the current string
// part, or we might need to allocate.
if (int worst_case_length = builder_.EscapedLengthIfCurrentPartFits(length)) {
DisallowHeapAllocation no_gc;
Vector<const SrcChar> vector = string->GetCharVector<SrcChar>(no_gc);
IncrementalStringBuilder::NoExtendBuilder<DestChar> no_extend(
&builder_, worst_case_length, no_gc);
SerializeStringUnchecked_(vector, &no_extend);
} else {
FlatStringReader reader(isolate_, string);
for (int i = 0; i < reader.length(); i++) {
SrcChar c = reader.Get<SrcChar>(i);
if (DoNotEscape(c)) {
builder_.Append<SrcChar, DestChar>(c);
} else if (c >= 0xD800 && c <= 0xDFFF) {
// The current character is a surrogate.
if (c <= 0xDBFF) {
// The current character is a leading surrogate.
if (i + 1 < reader.length()) {
// There is a next character.
SrcChar next = reader.Get<SrcChar>(i + 1);
if (next >= 0xDC00 && next <= 0xDFFF) {
// The next character is a trailing surrogate, meaning this is a
// surrogate pair.
builder_.Append<SrcChar, DestChar>(c);
builder_.Append<SrcChar, DestChar>(next);
i++;
} else {
// The next character is not a trailing surrogate. Thus, the
// current character is a lone leading surrogate.
builder_.AppendCString("\\u");
char* const hex = DoubleToRadixCString(c, 16);
builder_.AppendCString(hex);
DeleteArray(hex);
}
} else {
// There is no next character. Thus, the current character is a
// lone leading surrogate.
builder_.AppendCString("\\u");
char* const hex = DoubleToRadixCString(c, 16);
builder_.AppendCString(hex);
DeleteArray(hex);
}
} else {
// The current character is a lone trailing surrogate. (If it had
// been preceded by a leading surrogate, we would've ended up in the
// other branch earlier on, and the current character would've been
// handled as part of the surrogate pair already.)
builder_.AppendCString("\\u");
char* const hex = DoubleToRadixCString(c, 16);
builder_.AppendCString(hex);
DeleteArray(hex);
}
} else {
builder_.AppendCString(&JsonEscapeTable[c * kJsonEscapeTableEntrySize]);
}
}
}
builder_.Append<uint8_t, DestChar>('"');
}
template <>
bool JsonStringifier::DoNotEscape(uint8_t c) {
// https://tc39.github.io/ecma262/#table-json-single-character-escapes
return c >= 0x23 && c <= 0x7E && c != 0x5C;
}
template <>
bool JsonStringifier::DoNotEscape(uint16_t c) {
// https://tc39.github.io/ecma262/#table-json-single-character-escapes
return c >= 0x23 && c != 0x5C && c != 0x7F && (c < 0xD800 || c > 0xDFFF);
}
void JsonStringifier::NewLine() {
if (gap_ == nullptr) return;
builder_.AppendCharacter('\n');
for (int i = 0; i < indent_; i++) builder_.AppendCString(gap_);
}
void JsonStringifier::Separator(bool first) {
if (!first) builder_.AppendCharacter(',');
NewLine();
}
void JsonStringifier::SerializeDeferredKey(bool deferred_comma,
Handle<Object> deferred_key) {
Separator(!deferred_comma);
SerializeString(Handle<String>::cast(deferred_key));
builder_.AppendCharacter(':');
if (gap_ != nullptr) builder_.AppendCharacter(' ');
}
void JsonStringifier::SerializeString(Handle<String> object) {
object = String::Flatten(isolate_, object);
if (builder_.CurrentEncoding() == String::ONE_BYTE_ENCODING) {
if (String::IsOneByteRepresentationUnderneath(*object)) {
SerializeString_<uint8_t, uint8_t>(object);
} else {
builder_.ChangeEncoding();
SerializeString(object);
}
} else {
if (String::IsOneByteRepresentationUnderneath(*object)) {
SerializeString_<uint8_t, uc16>(object);
} else {
SerializeString_<uc16, uc16>(object);
}
}
}
} // namespace internal
} // namespace v8
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