33994b4a22
PropertyKind: DATA -> kData ACCESSOR -> kAccessor PropertyType: FIELD -> DATA CONSTANT -> DATA_CONSTANT ACCESSOR_FIELD -> ACCESSOR CALLBACKS -> ACCESSOR_CONSTANT PropertyLocation: IN_OBJECT -> kField IN_DESCRIPTOR -> kDescriptor StoreMode: FORCE_IN_OBJECT -> FORCE_FIELD FieldDescriptor -> DataDescriptor ConstantDescriptor -> DataConstantDescriptor CallbacksDescriptor -> AccessorConstantDescriptor Review URL: https://codereview.chromium.org/856503002 Cr-Commit-Position: refs/heads/master@{#26146}
566 lines
16 KiB
C++
566 lines
16 KiB
C++
// Copyright 2014 the V8 project authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include "src/string-stream.h"
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#include "src/handles-inl.h"
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#include "src/prototype.h"
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namespace v8 {
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namespace internal {
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static const int kMentionedObjectCacheMaxSize = 256;
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char* HeapStringAllocator::allocate(unsigned bytes) {
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space_ = NewArray<char>(bytes);
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return space_;
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}
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bool StringStream::Put(char c) {
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if (full()) return false;
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DCHECK(length_ < capacity_);
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// Since the trailing '\0' is not accounted for in length_ fullness is
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// indicated by a difference of 1 between length_ and capacity_. Thus when
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// reaching a difference of 2 we need to grow the buffer.
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if (length_ == capacity_ - 2) {
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unsigned new_capacity = capacity_;
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char* new_buffer = allocator_->grow(&new_capacity);
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if (new_capacity > capacity_) {
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capacity_ = new_capacity;
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buffer_ = new_buffer;
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} else {
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// Reached the end of the available buffer.
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DCHECK(capacity_ >= 5);
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length_ = capacity_ - 1; // Indicate fullness of the stream.
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buffer_[length_ - 4] = '.';
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buffer_[length_ - 3] = '.';
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buffer_[length_ - 2] = '.';
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buffer_[length_ - 1] = '\n';
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buffer_[length_] = '\0';
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return false;
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}
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}
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buffer_[length_] = c;
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buffer_[length_ + 1] = '\0';
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length_++;
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return true;
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}
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// A control character is one that configures a format element. For
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// instance, in %.5s, .5 are control characters.
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static bool IsControlChar(char c) {
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switch (c) {
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case '0': case '1': case '2': case '3': case '4': case '5':
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case '6': case '7': case '8': case '9': case '.': case '-':
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return true;
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default:
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return false;
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}
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}
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void StringStream::Add(Vector<const char> format, Vector<FmtElm> elms) {
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// If we already ran out of space then return immediately.
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if (full()) return;
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int offset = 0;
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int elm = 0;
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while (offset < format.length()) {
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if (format[offset] != '%' || elm == elms.length()) {
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Put(format[offset]);
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offset++;
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continue;
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}
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// Read this formatting directive into a temporary buffer
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EmbeddedVector<char, 24> temp;
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int format_length = 0;
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// Skip over the whole control character sequence until the
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// format element type
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temp[format_length++] = format[offset++];
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while (offset < format.length() && IsControlChar(format[offset]))
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temp[format_length++] = format[offset++];
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if (offset >= format.length())
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return;
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char type = format[offset];
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temp[format_length++] = type;
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temp[format_length] = '\0';
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offset++;
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FmtElm current = elms[elm++];
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switch (type) {
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case 's': {
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DCHECK_EQ(FmtElm::C_STR, current.type_);
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const char* value = current.data_.u_c_str_;
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Add(value);
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break;
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}
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case 'w': {
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DCHECK_EQ(FmtElm::LC_STR, current.type_);
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Vector<const uc16> value = *current.data_.u_lc_str_;
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for (int i = 0; i < value.length(); i++)
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Put(static_cast<char>(value[i]));
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break;
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}
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case 'o': {
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DCHECK_EQ(FmtElm::OBJ, current.type_);
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Object* obj = current.data_.u_obj_;
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PrintObject(obj);
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break;
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}
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case 'k': {
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DCHECK_EQ(FmtElm::INT, current.type_);
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int value = current.data_.u_int_;
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if (0x20 <= value && value <= 0x7F) {
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Put(value);
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} else if (value <= 0xff) {
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Add("\\x%02x", value);
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} else {
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Add("\\u%04x", value);
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}
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break;
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}
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case 'i': case 'd': case 'u': case 'x': case 'c': case 'X': {
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int value = current.data_.u_int_;
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EmbeddedVector<char, 24> formatted;
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int length = SNPrintF(formatted, temp.start(), value);
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Add(Vector<const char>(formatted.start(), length));
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break;
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}
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case 'f': case 'g': case 'G': case 'e': case 'E': {
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double value = current.data_.u_double_;
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int inf = std::isinf(value);
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if (inf == -1) {
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Add("-inf");
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} else if (inf == 1) {
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Add("inf");
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} else if (std::isnan(value)) {
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Add("nan");
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} else {
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EmbeddedVector<char, 28> formatted;
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SNPrintF(formatted, temp.start(), value);
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Add(formatted.start());
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}
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break;
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}
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case 'p': {
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void* value = current.data_.u_pointer_;
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EmbeddedVector<char, 20> formatted;
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SNPrintF(formatted, temp.start(), value);
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Add(formatted.start());
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break;
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}
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default:
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UNREACHABLE();
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break;
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}
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}
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// Verify that the buffer is 0-terminated
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DCHECK(buffer_[length_] == '\0');
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}
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void StringStream::PrintObject(Object* o) {
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o->ShortPrint(this);
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if (o->IsString()) {
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if (String::cast(o)->length() <= String::kMaxShortPrintLength) {
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return;
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}
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} else if (o->IsNumber() || o->IsOddball()) {
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return;
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}
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if (o->IsHeapObject()) {
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HeapObject* ho = HeapObject::cast(o);
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DebugObjectCache* debug_object_cache = ho->GetIsolate()->
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string_stream_debug_object_cache();
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for (int i = 0; i < debug_object_cache->length(); i++) {
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if ((*debug_object_cache)[i] == o) {
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Add("#%d#", i);
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return;
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}
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}
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if (debug_object_cache->length() < kMentionedObjectCacheMaxSize) {
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Add("#%d#", debug_object_cache->length());
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debug_object_cache->Add(HeapObject::cast(o));
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} else {
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Add("@%p", o);
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}
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}
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}
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void StringStream::Add(const char* format) {
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Add(CStrVector(format));
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}
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void StringStream::Add(Vector<const char> format) {
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Add(format, Vector<FmtElm>::empty());
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}
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void StringStream::Add(const char* format, FmtElm arg0) {
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const char argc = 1;
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FmtElm argv[argc] = { arg0 };
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Add(CStrVector(format), Vector<FmtElm>(argv, argc));
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}
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void StringStream::Add(const char* format, FmtElm arg0, FmtElm arg1) {
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const char argc = 2;
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FmtElm argv[argc] = { arg0, arg1 };
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Add(CStrVector(format), Vector<FmtElm>(argv, argc));
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}
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void StringStream::Add(const char* format, FmtElm arg0, FmtElm arg1,
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FmtElm arg2) {
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const char argc = 3;
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FmtElm argv[argc] = { arg0, arg1, arg2 };
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Add(CStrVector(format), Vector<FmtElm>(argv, argc));
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}
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void StringStream::Add(const char* format, FmtElm arg0, FmtElm arg1,
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FmtElm arg2, FmtElm arg3) {
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const char argc = 4;
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FmtElm argv[argc] = { arg0, arg1, arg2, arg3 };
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Add(CStrVector(format), Vector<FmtElm>(argv, argc));
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}
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void StringStream::Add(const char* format, FmtElm arg0, FmtElm arg1,
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FmtElm arg2, FmtElm arg3, FmtElm arg4) {
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const char argc = 5;
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FmtElm argv[argc] = { arg0, arg1, arg2, arg3, arg4 };
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Add(CStrVector(format), Vector<FmtElm>(argv, argc));
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}
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SmartArrayPointer<const char> StringStream::ToCString() const {
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char* str = NewArray<char>(length_ + 1);
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MemCopy(str, buffer_, length_);
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str[length_] = '\0';
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return SmartArrayPointer<const char>(str);
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}
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void StringStream::Log(Isolate* isolate) {
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LOG(isolate, StringEvent("StackDump", buffer_));
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}
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void StringStream::OutputToFile(FILE* out) {
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// Dump the output to stdout, but make sure to break it up into
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// manageable chunks to avoid losing parts of the output in the OS
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// printing code. This is a problem on Windows in particular; see
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// the VPrint() function implementations in platform-win32.cc.
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unsigned position = 0;
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for (unsigned next; (next = position + 2048) < length_; position = next) {
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char save = buffer_[next];
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buffer_[next] = '\0';
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internal::PrintF(out, "%s", &buffer_[position]);
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buffer_[next] = save;
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}
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internal::PrintF(out, "%s", &buffer_[position]);
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}
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Handle<String> StringStream::ToString(Isolate* isolate) {
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return isolate->factory()->NewStringFromUtf8(
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Vector<const char>(buffer_, length_)).ToHandleChecked();
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}
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void StringStream::ClearMentionedObjectCache(Isolate* isolate) {
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isolate->set_string_stream_current_security_token(NULL);
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if (isolate->string_stream_debug_object_cache() == NULL) {
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isolate->set_string_stream_debug_object_cache(new DebugObjectCache(0));
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}
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isolate->string_stream_debug_object_cache()->Clear();
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}
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#ifdef DEBUG
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bool StringStream::IsMentionedObjectCacheClear(Isolate* isolate) {
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return isolate->string_stream_debug_object_cache()->length() == 0;
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}
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#endif
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bool StringStream::Put(String* str) {
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return Put(str, 0, str->length());
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}
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bool StringStream::Put(String* str, int start, int end) {
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StringCharacterStream stream(str, start);
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for (int i = start; i < end && stream.HasMore(); i++) {
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uint16_t c = stream.GetNext();
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if (c >= 127 || c < 32) {
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c = '?';
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}
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if (!Put(static_cast<char>(c))) {
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return false; // Output was truncated.
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}
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}
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return true;
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}
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void StringStream::PrintName(Object* name) {
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if (name->IsString()) {
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String* str = String::cast(name);
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if (str->length() > 0) {
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Put(str);
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} else {
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Add("/* anonymous */");
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}
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} else {
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Add("%o", name);
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}
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}
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void StringStream::PrintUsingMap(JSObject* js_object) {
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Map* map = js_object->map();
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if (!js_object->GetHeap()->Contains(map) ||
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!map->IsHeapObject() ||
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!map->IsMap()) {
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Add("<Invalid map>\n");
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return;
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}
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int real_size = map->NumberOfOwnDescriptors();
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DescriptorArray* descs = map->instance_descriptors();
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for (int i = 0; i < real_size; i++) {
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PropertyDetails details = descs->GetDetails(i);
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if (details.type() == DATA) {
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Object* key = descs->GetKey(i);
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if (key->IsString() || key->IsNumber()) {
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int len = 3;
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if (key->IsString()) {
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len = String::cast(key)->length();
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}
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for (; len < 18; len++)
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Put(' ');
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if (key->IsString()) {
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Put(String::cast(key));
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} else {
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key->ShortPrint();
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}
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Add(": ");
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FieldIndex index = FieldIndex::ForDescriptor(map, i);
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if (js_object->IsUnboxedDoubleField(index)) {
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double value = js_object->RawFastDoublePropertyAt(index);
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Add("<unboxed double> %.16g\n", FmtElm(value));
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} else {
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Object* value = js_object->RawFastPropertyAt(index);
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Add("%o\n", value);
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}
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}
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}
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}
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}
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void StringStream::PrintFixedArray(FixedArray* array, unsigned int limit) {
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Heap* heap = array->GetHeap();
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for (unsigned int i = 0; i < 10 && i < limit; i++) {
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Object* element = array->get(i);
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if (element != heap->the_hole_value()) {
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for (int len = 1; len < 18; len++)
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Put(' ');
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Add("%d: %o\n", i, array->get(i));
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}
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}
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if (limit >= 10) {
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Add(" ...\n");
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}
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}
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void StringStream::PrintByteArray(ByteArray* byte_array) {
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unsigned int limit = byte_array->length();
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for (unsigned int i = 0; i < 10 && i < limit; i++) {
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byte b = byte_array->get(i);
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Add(" %d: %3d 0x%02x", i, b, b);
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if (b >= ' ' && b <= '~') {
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Add(" '%c'", b);
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} else if (b == '\n') {
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Add(" '\n'");
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} else if (b == '\r') {
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Add(" '\r'");
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} else if (b >= 1 && b <= 26) {
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Add(" ^%c", b + 'A' - 1);
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}
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Add("\n");
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}
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if (limit >= 10) {
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Add(" ...\n");
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}
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}
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void StringStream::PrintMentionedObjectCache(Isolate* isolate) {
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DebugObjectCache* debug_object_cache =
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isolate->string_stream_debug_object_cache();
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Add("==== Key ============================================\n\n");
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for (int i = 0; i < debug_object_cache->length(); i++) {
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HeapObject* printee = (*debug_object_cache)[i];
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Add(" #%d# %p: ", i, printee);
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printee->ShortPrint(this);
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Add("\n");
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if (printee->IsJSObject()) {
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if (printee->IsJSValue()) {
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Add(" value(): %o\n", JSValue::cast(printee)->value());
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}
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PrintUsingMap(JSObject::cast(printee));
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if (printee->IsJSArray()) {
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JSArray* array = JSArray::cast(printee);
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if (array->HasFastObjectElements()) {
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unsigned int limit = FixedArray::cast(array->elements())->length();
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unsigned int length =
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static_cast<uint32_t>(JSArray::cast(array)->length()->Number());
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if (length < limit) limit = length;
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PrintFixedArray(FixedArray::cast(array->elements()), limit);
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}
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}
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} else if (printee->IsByteArray()) {
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PrintByteArray(ByteArray::cast(printee));
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} else if (printee->IsFixedArray()) {
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unsigned int limit = FixedArray::cast(printee)->length();
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PrintFixedArray(FixedArray::cast(printee), limit);
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}
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}
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}
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void StringStream::PrintSecurityTokenIfChanged(Object* f) {
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if (!f->IsHeapObject()) return;
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HeapObject* obj = HeapObject::cast(f);
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Isolate* isolate = obj->GetIsolate();
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Heap* heap = isolate->heap();
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if (!heap->Contains(obj)) return;
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Map* map = obj->map();
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if (!map->IsHeapObject() ||
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!heap->Contains(map) ||
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!map->IsMap() ||
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!f->IsJSFunction()) {
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return;
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}
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JSFunction* fun = JSFunction::cast(f);
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Object* perhaps_context = fun->context();
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if (perhaps_context->IsHeapObject() &&
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heap->Contains(HeapObject::cast(perhaps_context)) &&
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perhaps_context->IsContext()) {
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Context* context = fun->context();
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if (!heap->Contains(context)) {
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Add("(Function context is outside heap)\n");
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return;
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}
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Object* token = context->native_context()->security_token();
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if (token != isolate->string_stream_current_security_token()) {
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Add("Security context: %o\n", token);
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isolate->set_string_stream_current_security_token(token);
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}
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} else {
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Add("(Function context is corrupt)\n");
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}
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}
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void StringStream::PrintFunction(Object* f, Object* receiver, Code** code) {
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if (!f->IsHeapObject()) {
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Add("/* warning: 'function' was not a heap object */ ");
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return;
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}
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Heap* heap = HeapObject::cast(f)->GetHeap();
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if (!heap->Contains(HeapObject::cast(f))) {
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Add("/* warning: 'function' was not on the heap */ ");
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return;
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}
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if (!heap->Contains(HeapObject::cast(f)->map())) {
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Add("/* warning: function's map was not on the heap */ ");
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return;
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}
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if (!HeapObject::cast(f)->map()->IsMap()) {
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Add("/* warning: function's map was not a valid map */ ");
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return;
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}
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if (f->IsJSFunction()) {
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JSFunction* fun = JSFunction::cast(f);
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// Common case: on-stack function present and resolved.
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PrintPrototype(fun, receiver);
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*code = fun->code();
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} else if (f->IsInternalizedString()) {
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// Unresolved and megamorphic calls: Instead of the function
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// we have the function name on the stack.
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PrintName(f);
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Add("/* unresolved */ ");
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} else {
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// Unless this is the frame of a built-in function, we should always have
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// the callee function or name on the stack. If we don't, we have a
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// problem or a change of the stack frame layout.
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Add("%o", f);
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Add("/* warning: no JSFunction object or function name found */ ");
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|
}
|
|
}
|
|
|
|
|
|
void StringStream::PrintPrototype(JSFunction* fun, Object* receiver) {
|
|
Object* name = fun->shared()->name();
|
|
bool print_name = false;
|
|
Isolate* isolate = fun->GetIsolate();
|
|
for (PrototypeIterator iter(isolate, receiver,
|
|
PrototypeIterator::START_AT_RECEIVER);
|
|
!iter.IsAtEnd(); iter.Advance()) {
|
|
if (iter.GetCurrent()->IsJSObject()) {
|
|
Object* key = JSObject::cast(iter.GetCurrent())->SlowReverseLookup(fun);
|
|
if (key != isolate->heap()->undefined_value()) {
|
|
if (!name->IsString() ||
|
|
!key->IsString() ||
|
|
!String::cast(name)->Equals(String::cast(key))) {
|
|
print_name = true;
|
|
}
|
|
if (name->IsString() && String::cast(name)->length() == 0) {
|
|
print_name = false;
|
|
}
|
|
name = key;
|
|
}
|
|
} else {
|
|
print_name = true;
|
|
}
|
|
}
|
|
PrintName(name);
|
|
// Also known as - if the name in the function doesn't match the name under
|
|
// which it was looked up.
|
|
if (print_name) {
|
|
Add("(aka ");
|
|
PrintName(fun->shared()->name());
|
|
Put(')');
|
|
}
|
|
}
|
|
|
|
|
|
char* HeapStringAllocator::grow(unsigned* bytes) {
|
|
unsigned new_bytes = *bytes * 2;
|
|
// Check for overflow.
|
|
if (new_bytes <= *bytes) {
|
|
return space_;
|
|
}
|
|
char* new_space = NewArray<char>(new_bytes);
|
|
if (new_space == NULL) {
|
|
return space_;
|
|
}
|
|
MemCopy(new_space, space_, *bytes);
|
|
*bytes = new_bytes;
|
|
DeleteArray(space_);
|
|
space_ = new_space;
|
|
return new_space;
|
|
}
|
|
|
|
|
|
} } // namespace v8::internal
|