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I had these two functions in my project:

char* V8StringToChar(v8::Handle<v8::String> str);
char* V8StringToChar(v8::Local<v8::Value> val);

I converted them to:

template <class T>
class ArrayDeleter {
    void operator () (T* d) const
    { delete [] d; }
std::shared_ptr<char> V8StringToChar(v8::Handle<v8::String> str);
std::shared_ptr<char> V8StringToChar(v8::Local<v8::Value> val);

with body as

std::shared_ptr<char> V8StringToChar(Handle<String> str) {
  int len = str->Utf8Length();
  char* buf = new char[len + 1];
  str->WriteUtf8(buf, len + 1);
  return std::shared_ptr<char>(buf, ArrayDeleter<char>());
std::shared_ptr<char> V8StringToChar(Local<Value> val) {
  return V8StringToChar(val->ToString());

And every usage of them to (&*V8StringToChar(whatever)).

And it build perfectly.

And it is causing run time errors.

Is there any cases where this could fail And please provide some good solution ?

share|improve this question
Use vector<char> for an array of bytes. –  Neil Kirk Sep 5 '13 at 11:10
The standard already provides an array deleter, use std::default_delete<char[]> (note the [] characters to specify an array, so it uses delete[]) –  Jonathan Wakely Sep 5 '13 at 11:15
Probably because &* gives you a raw pointer, which can be invalidated when the array is deleted - in your example, that happens immediately, before you can do anything with the pointer. Only do that when your really need a raw pointer, and be very careful to ensure that nothing keeps hold of the pointer. –  Mike Seymour Sep 5 '13 at 11:16

1 Answer 1

up vote 5 down vote accepted

Instead of


you could have written:


But both are probably wrong and guaranteed to fail in some circumstances.

Doing that creates a new buffer, returns it as a shared_ptr, gets the address of the buffer, then the shared_ptr goes out of scope and the buffer is deleted, leaving you with a dangling pointer. Boom, any attempt to access the memory at that address is undefined behaviour. Go to jail, go directly to jail, do not pass go, do not collect £200.

I would make your functions return a std::unique_ptr<char[]> instead, because that has built-in support for arrays.

std::unique_ptr<char[]> V8StringToChar(Handle<String> str) {
  int len = str->Utf8Length();
  std::unique_ptr<char[]> buf(new char[len + 1]);
  str->WriteUtf8(buf.get(), len + 1);
  return buf;
std::unique_ptr<char[]> V8StringToChar(Local<Value> val) {
  return V8StringToChar(val->ToString());

To fix the run-time failures you must keep the smart pointer around as long as the buffer is needed e.g.

std::unique_ptr<char[]> smartptr = V8StringToChar(whatever);
char* ptr = smartptr.get());
// now it's OK if `smartptr` goes out of scope
share|improve this answer
Can I have his £200? –  Neil Kirk Sep 5 '13 at 11:20
if i do V8StringToChar(whatever).get() everywhere that should be fine too ? But its not working yet. –  Ashish Negi Sep 5 '13 at 11:37
@Jonathan Wakely Would V8StringToChar(whatever).get() is right ? –  Ashish Negi Sep 5 '13 at 11:48
@ASHISHNEGI, No, that is wrong too! I said "But both are probably wrong and guaranteed to fail in some circumstances." Please try to understand the problem I described (and Mike Seymour described in his comment above): the smart pointer goes out of scope and so deletes the buffer at the end of the statement. –  Jonathan Wakely Sep 5 '13 at 11:48
@Jonathan Wakely I mean after using your solution unique_ptr<char[]> if i do use .get() like some_other_func(V8StringToCHar(..).get()) <- is it wrong ? –  Ashish Negi Sep 5 '13 at 12:02

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