/*********************************************************************
 * NAN - Native Abstractions for Node.js
 *
 * Copyright (c) 2015 NAN contributors
 *
 * MIT License <https://github.com/rvagg/nan/blob/master/LICENSE.md>
 ********************************************************************/

#ifndef NAN_IMPLEMENTATION_PRE_12_INL_H_
#define NAN_IMPLEMENTATION_PRE_12_INL_H_

#include <algorithm>

#if defined(_MSC_VER)
# pragma warning( disable : 4530 )
# include <string>
# include <vector>
# pragma warning( default : 4530 )
#else
# include <string>
# include <vector>
#endif

//==============================================================================
// node v0.10 implementation
//==============================================================================

namespace NanIntern {

//=== Array ====================================================================

Factory<v8::Array>::return_t
Factory<v8::Array>::New() {
  return v8::Array::New();
}

Factory<v8::Array>::return_t
Factory<v8::Array>::New(int length) {
  return v8::Array::New(length);
}

//=== Boolean ==================================================================

Factory<v8::Boolean>::return_t
Factory<v8::Boolean>::New(bool value) {
  return v8::Boolean::New(value)->ToBoolean();
}

//=== Boolean Object ===========================================================

Factory<v8::BooleanObject>::return_t
Factory<v8::BooleanObject>::New(bool value) {
  return v8::BooleanObject::New(value).As<v8::BooleanObject>();
}

//=== Date =====================================================================

Factory<v8::Date>::return_t
Factory<v8::Date>::New(double value) {
  return v8::Date::New(value).As<v8::Date>();
}

//=== External =================================================================

Factory<v8::External>::return_t
Factory<v8::External>::New(void * value) {
  return v8::External::New(value);
}

//=== Function =================================================================

Factory<v8::Function>::return_t
Factory<v8::Function>::New( NanFunctionCallback callback
                          , v8::Handle<v8::Value> data) {
  return Factory<v8::FunctionTemplate>::New( callback
                                           , data
                                           , v8::Handle<v8::Signature>()
                                           )->GetFunction();
}


//=== FunctionTemplate =========================================================

Factory<v8::FunctionTemplate>::return_t
Factory<v8::FunctionTemplate>::New( NanFunctionCallback callback
                                  , v8::Handle<v8::Value> data
                                  , v8::Handle<v8::Signature> signature) {
  // Note(agnat): Emulate length argument here. Unfortunately, I couldn't find
  // a way. Have at it though...
  return v8::FunctionTemplate::New( callback
                                  , data
                                  , signature);
}

//=== Number ===================================================================

Factory<v8::Number>::return_t
Factory<v8::Number>::New(double value) {
  return v8::Number::New(value);
}

//=== Number Object ============================================================

Factory<v8::NumberObject>::return_t
Factory<v8::NumberObject>::New(double value) {
  return v8::NumberObject::New(value).As<v8::NumberObject>();
}

//=== Integer, Int32 and Uint32 ================================================

template <typename T>
typename IntegerFactory<T>::return_t
IntegerFactory<T>::New(int32_t value) {
  return To<T>(T::New(value));
}

template <typename T>
typename IntegerFactory<T>::return_t
IntegerFactory<T>::New(uint32_t value) {
  return To<T>(T::NewFromUnsigned(value));
}

Factory<v8::Uint32>::return_t
Factory<v8::Uint32>::New(int32_t value) {
  return To<v8::Uint32>(v8::Uint32::NewFromUnsigned(value));
}

Factory<v8::Uint32>::return_t
Factory<v8::Uint32>::New(uint32_t value) {
  return To<v8::Uint32>(v8::Uint32::NewFromUnsigned(value));
}


//=== Object ===================================================================

Factory<v8::Object>::return_t
Factory<v8::Object>::New() {
  return v8::Object::New();
}

//=== Object Template ==========================================================

Factory<v8::ObjectTemplate>::return_t
Factory<v8::ObjectTemplate>::New() {
  return v8::ObjectTemplate::New();
}

//=== RegExp ===================================================================

Factory<v8::RegExp>::return_t
Factory<v8::RegExp>::New(
    v8::Handle<v8::String> pattern
  , v8::RegExp::Flags flags) {
  return v8::RegExp::New(pattern, flags);
}

//=== Script ===================================================================

Factory<v8::Script>::return_t
Factory<v8::Script>::New( v8::Local<v8::String> source) {
  return v8::Script::New(source);
}
Factory<v8::Script>::return_t
Factory<v8::Script>::New( v8::Local<v8::String> source
                        , v8::ScriptOrigin const& origin) {
  return v8::Script::New(source, const_cast<v8::ScriptOrigin*>(&origin));
}

//=== Signature ================================================================

Factory<v8::Signature>::return_t
Factory<v8::Signature>::New( Factory<v8::Signature>::FTH receiver
                           , int argc
                           , Factory<v8::Signature>::FTH argv[]) {
  return v8::Signature::New(receiver, argc, argv);
}

//=== String ===================================================================

Factory<v8::String>::return_t
Factory<v8::String>::New() {
  return v8::String::Empty();
}

Factory<v8::String>::return_t
Factory<v8::String>::New(const char * value, int length) {
  return v8::String::New(value, length);
}

Factory<v8::String>::return_t
Factory<v8::String>::New(std::string const& value) {
  assert(value.size() <= INT_MAX && "string too long");
  return v8::String::New( value.data(), static_cast<int>(value.size()));
}

inline
void
widenString(std::vector<uint16_t> *ws, const uint8_t *s, int l = -1) {
  size_t len = static_cast<size_t>(l);
  if (l < 0) {
    len = strlen(reinterpret_cast<const char*>(s));
  }
  assert(len <= INT_MAX && "string too long");
  ws->resize(len);
  std::copy(s, s + len, ws->begin());
}

Factory<v8::String>::return_t
Factory<v8::String>::New(const uint16_t * value, int length) {
  return v8::String::New(value, length);
}

Factory<v8::String>::return_t
Factory<v8::String>::New(const uint8_t * value, int length) {
  std::vector<uint16_t> wideString;
  widenString(&wideString, value, length);
  if (wideString.size() == 0) {
    return v8::String::Empty();
  } else {
    return v8::String::New(&wideString.front()
         , static_cast<int>(wideString.size()));
  }
}

Factory<v8::String>::return_t
Factory<v8::String>::New(v8::String::ExternalStringResource * value) {
  return v8::String::NewExternal(value);
}

Factory<v8::String>::return_t
Factory<v8::String>::New(v8::String::ExternalAsciiStringResource * value) {
  return v8::String::NewExternal(value);
}

//=== String Object ============================================================

Factory<v8::StringObject>::return_t
Factory<v8::StringObject>::New(v8::Handle<v8::String> value) {
  return v8::StringObject::New(value).As<v8::StringObject>();
}

}  // end of namespace NanIntern

//=== Presistents and Handles ==================================================

template <typename T>
inline v8::Local<T> NanNew(v8::Handle<T> h) {
  return v8::Local<T>::New(h);
}

template <typename T>
inline v8::Local<T> NanNew(v8::Persistent<T> const& p) {
  return v8::Local<T>::New(p);
}

#endif  // NAN_IMPLEMENTATION_PRE_12_INL_H_
