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construct/include/ircd/js/object.h
2016-11-25 19:23:48 -08:00

421 lines
9.1 KiB
C++

/*
* Copyright (C) 2016 Charybdis Development Team
* Copyright (C) 2016 Jason Volk <jason@zemos.net>
*
* Permission to use, copy, modify, and/or distribute this software for any
* purpose with or without fee is hereby granted, provided that the above
* copyright notice and this permission notice is present in all copies.
*
* THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``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 AUTHOR 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.
*/
#pragma once
#define HAVE_IRCD_JS_OBJECT_H
namespace ircd {
namespace js {
using object_handle = JS::Handle<JSObject *>;
using object_handle_mutable = JS::MutableHandle<JSObject *>;
// get()/set() et al overload on reserved{n} to manipulate reserved slot n
IRCD_STRONG_TYPEDEF(uint, reserved)
// Get the JSClass from which the trap can also be derived.
bool has_jsclass(const JSObject *const &);
const JSClass &jsclass(JSObject *const &);
// Get the flags from the object's JSClass or 0.
uint flags(const JSObject *const &);
// Get the `this` global from any object
JSObject *current_global(JSObject *const &);
// Misc utils
bool is_extensible(const object_handle &);
bool is_array(const object_handle &);
uint32_t size(const object_handle &);
bool deep_freeze(const object_handle &);
bool freeze(const object_handle &);
size_t bytecodes(const object_handle &, uint8_t *const &buf, const size_t &size);
namespace basic {
template<lifetime L>
struct object
:root<JSObject *, L>
{
IRCD_OVERLOAD(json)
IRCD_OVERLOAD(array)
IRCD_OVERLOAD(uninitialized)
using handle = object_handle;
using handle_mutable = object_handle_mutable;
explicit operator JSString *() const;
operator JS::Value() const;
// for array objects
uint32_t size() const;
void resize(const uint32_t &);
// Get/set prototype
object prototype() const;
void prototype(object::handle);
// Get the constructor
object constructor() const;
// new object
object(const JSClass *const &, const handle &ctor, const JS::HandleValueArray &args);
object(const JSClass *const &, const JS::CallArgs &args);
object(const JSClass *const &, const object &proto);
object(const JSClass *const &);
object(const uint8_t *const &bytecode, const size_t &size);
template<class T, lifetime LL> object(const root<T, LL> &);
using root<JSObject *, L>::root;
template<class... args> object(json_t, args&&...);
object(array_t, const size_t &length);
object(const JS::HandleValueArray &);
object(std::initializer_list<std::pair<const char *, value<L>>>);
object(const value<L> &);
object(JSObject *const &);
object(JSObject &);
object(uninitialized_t);
object();
static object global(); // current_global(cx)
};
} // namespace basic
using object = basic::object<lifetime::stack>;
using heap_object = basic::object<lifetime::heap>;
using persist_object = basic::object<lifetime::persist>;
//
// Implementation
//
namespace basic {
template<lifetime L>
object<L>::object()
:object<L>::root::type
{
JS_NewPlainObject(*cx)
}
{
if(unlikely(!this->get()))
throw internal_error("NULL object (plain)");
}
template<lifetime L>
object<L>::object(uninitialized_t)
:object<L>::root::type{}
{
}
template<lifetime L>
object<L>::object(JSObject &obj)
:object<L>::root::type{&obj}
{
if(unlikely(!this->get()))
throw internal_error("NULL object (ref)");
}
template<lifetime L>
object<L>::object(JSObject *const &obj)
:object<L>::root::type{obj}
{
if(unlikely(!this->get()))
throw internal_error("NULL object");
}
template<lifetime L>
object<L>::object(const value<L> &val)
:object<L>::root::type{}
{
if(!JS_ValueToObject(*cx, val, &(*this)))
throw type_error("Value is not an Object");
}
template<lifetime L>
object<L>::object(std::initializer_list<std::pair<const char *, value<L>>> list)
:object<L>{}
{
for(const auto &pair : list)
{
const auto &key(pair.first);
const auto &val(pair.second);
if(!JS_SetProperty(*cx, *this, key, val))
throw jserror(jserror::pending);
}
}
template<lifetime L>
object<L>::object(const JS::HandleValueArray &values)
:object<L>::root::type
{
JS_NewArrayObject(*cx, values)
}
{
if(unlikely(!this->get()))
throw internal_error("NULL object (array)");
}
template<lifetime L>
object<L>::object(array_t,
const size_t &length)
:object<L>::root::type
{
JS_NewArrayObject(*cx, length)
}
{
if(unlikely(!this->get()))
throw internal_error("NULL object (array)");
}
template<lifetime L>
template<class... args>
object<L>::object(json_t,
args&&... a)
:object<L>(js::json::parse(std::forward<args>(a)...))
{
}
template<lifetime L>
template<class T,
lifetime LL>
object<L>::object(const root<T, LL> &o)
:object{o.get()}
{
if(unlikely(!this->get()))
throw internal_error("NULL object (cross-lifetime)");
}
template<lifetime L>
object<L>::object(const JSClass *const &clasp)
:object<L>::root::type
{
JS_NewObject(*cx, clasp)
}
{
if(unlikely(!this->get()))
throw internal_error("NULL object (clasp)");
}
template<lifetime L>
object<L>::object(const JSClass *const &clasp,
const object &proto)
:object<L>::root::type
{
JS_NewObjectWithGivenProto(*cx, clasp, proto)
}
{
if(unlikely(!this->get()))
throw internal_error("NULL object (with given proto)");
}
template<lifetime L>
object<L>::object(const JSClass *const &clasp,
const JS::CallArgs &args)
:object<L>::root::type
{
JS_NewObjectForConstructor(*cx, clasp, args)
}
{
if(unlikely(!this->get()))
throw internal_error("NULL object (for constructor)");
}
template<lifetime L>
object<L>::object(const JSClass *const &clasp,
const object::handle &ctor,
const JS::HandleValueArray &args)
:object<L>::root::type
{
JS_New(*cx, ctor, args)
}
{
if(unlikely(!this->get()))
throw internal_error("NULL object (new)");
}
template<lifetime L>
object<L>::object(const uint8_t *const &bytecode,
const size_t &size)
:object<L>::root::type
{
JS_DecodeInterpretedFunction(*cx, bytecode, size)
}
{
if(unlikely(!this->get()))
throw jserror(jserror::pending);
}
template<lifetime L>
object<L>
object<L>::global()
{
return current_global();
}
template<lifetime L>
object<L>
object<L>::constructor()
const
{
return JS_GetConstructor(*cx, *this);
}
template<lifetime L>
void
object<L>::prototype(object::handle obj)
{
if(!JS_SetPrototype(*cx, *this, obj))
throw internal_error("Failed to set prototype for object");
}
template<lifetime L>
object<L>
object<L>::prototype()
const
{
object ret;
if(!JS_GetPrototype(*cx, *this, &ret))
throw internal_error("Failed to get prototype for object");
return ret;
}
template<lifetime L>
void
object<L>::resize(const uint32_t &length)
{
if(!JS_SetArrayLength(*cx, *this, length))
throw internal_error("Failed to set array object length");
}
template<lifetime L>
uint32_t
object<L>::size()
const
{
return js::size(*this);
}
template<lifetime L>
object<L>::operator JSString *()
const
{
assert(this->get());
return JS_BasicObjectToString(*cx, *this);
}
template<lifetime L>
object<L>::operator JS::Value()
const
{
assert(this->get());
return JS::ObjectValue(*this->get());
}
} // namespace basic
inline size_t
bytecodes(const object_handle &obj,
uint8_t *const &buf,
const size_t &size)
{
uint32_t ret;
const custom_ptr<void> ptr
{
JS_EncodeInterpretedFunction(*cx, obj, &ret), js_free
};
const auto cpsz(std::min(size_t(ret), size));
memcpy(buf, ptr.get(), cpsz);
return cpsz;
}
inline bool
freeze(const object_handle &obj)
{
return JS_FreezeObject(*cx, obj);
}
inline bool
deep_freeze(const object_handle &obj)
{
return JS_DeepFreezeObject(*cx, obj);
}
inline uint32_t
size(const object_handle &obj)
{
uint32_t ret;
if(!JS_GetArrayLength(*cx, obj, &ret))
throw internal_error("Failed to get array object length");
return ret;
}
inline bool
is_array(const object_handle &obj)
{
bool ret;
if(!JS_IsArrayObject(*cx, obj, &ret))
throw internal_error("Failed to query if object is array");
return ret;
}
inline bool
is_extensible(const object_handle &obj)
{
bool ret;
if(!JS_IsExtensible(*cx, obj, &ret))
throw internal_error("Failed to query object extensibility");
return ret;
}
inline JSObject *
current_global(JSObject *const &obj)
{
return JS_GetGlobalForObject(*cx, obj);
}
inline uint
flags(const JSObject *const &obj)
{
return has_jsclass(obj)? jsclass(const_cast<JSObject *>(obj)).flags : 0;
}
inline const JSClass &
jsclass(JSObject *const &obj)
{
assert(has_jsclass(obj));
const auto jsc(JS_GetClass(obj));
return *const_cast<JSClass *>(jsc);
}
inline bool
has_jsclass(const JSObject *const &obj)
{
assert(obj);
return JS_GetClass(const_cast<JSObject *>(obj)) != nullptr;
}
} // namespace js
} // namespace ircd