/*
This file is part of Ingen.
Copyright 2007-2013 David Robillard
Ingen is free software: you can redistribute it and/or modify it under the
terms of the GNU Affero General Public License as published by the Free
Software Foundation, either version 3 of the License, or any later version.
Ingen is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
A PARTICULAR PURPOSE. See the GNU Affero General Public License for details.
You should have received a copy of the GNU Affero General Public License
along with Ingen. If not, see .
*/
#ifndef INGEN_ATOM_HPP
#define INGEN_ATOM_HPP
#include
#include
#include
#include "lv2/lv2plug.in/ns/ext/atom/atom.h"
#include "lv2/lv2plug.in/ns/ext/urid/urid.h"
namespace Ingen {
class Forge;
/**
A generic typed data container.
An Atom holds a value with some type and size, both specified by a uint32_t.
Values with size less than sizeof(void*) are stored inline: no dynamic
allocation occurs so Atoms may be created in hard real-time threads.
Otherwise, if the size is larger than sizeof(void*), the value will be
dynamically allocated in a separate chunk of memory.
In either case, the data is stored in a binary compatible format to LV2_Atom
(i.e., if the value is dynamically allocated, the header is repeated there).
@ingroup raul
*/
class Atom {
public:
Atom() { _atom.size = 0; _atom.type = 0; _body.ptr = NULL; }
~Atom() { dealloc(); }
/** Contruct a raw atom.
*
* Typically this is not used directly, use Forge methods to make atoms.
*/
Atom(uint32_t size, LV2_URID type, const void* body) {
_atom.size = size;
_atom.type = type;
_body.ptr = NULL;
if (is_reference()) {
_body.ptr = (LV2_Atom*)malloc(sizeof(LV2_Atom) + size);
memcpy(_body.ptr, &_atom, sizeof(LV2_Atom));
}
if (body) {
memcpy(get_body(), body, size);
}
}
Atom(const Atom& copy)
: _atom(copy._atom)
{
if (is_reference()) {
_body.ptr = (LV2_Atom*)malloc(sizeof(LV2_Atom) + _atom.size);
memcpy(_body.ptr, copy._body.ptr, sizeof(LV2_Atom) + _atom.size);
} else {
memcpy(&_body.val, ©._body.val, sizeof(LV2_Atom));
}
}
Atom& operator=(const Atom& other) {
if (&other == this) {
return *this;
}
dealloc();
_atom = other._atom;
if (is_reference()) {
_body.ptr = (LV2_Atom*)malloc(sizeof(LV2_Atom) + _atom.size);
memcpy(_body.ptr, other._body.ptr, sizeof(LV2_Atom) + _atom.size);
} else {
memcpy(&_body.val, &other._body.val, sizeof(LV2_Atom));
}
return *this;
}
inline bool operator==(const Atom& other) const {
if (is_reference()) {
return !memcmp(_body.ptr, other._body.ptr, sizeof(LV2_Atom) + _atom.size);
}
return (_atom.type == other._atom.type &&
_atom.size == other._atom.size &&
_body.val == other._body.val);
}
inline bool operator!=(const Atom& other) const {
return !operator==(other);
}
inline bool operator<(const Atom& other) const {
if (_atom.type == other._atom.type) {
if (is_reference()) {
return memcmp(_body.ptr, other._body.ptr, _atom.size) < 0;
} else {
return memcmp(&_body.val, &other._body.val, _atom.size) < 0;
}
}
return type() < other.type();
}
inline uint32_t size() const { return _atom.size; }
inline LV2_URID type() const { return _atom.type; }
inline bool is_valid() const { return _atom.type; }
inline const void* get_body() const {
return is_reference() ? (void*)(_body.ptr + 1) : &_body.val;
}
inline void* get_body() {
return is_reference() ? (void*)(_body.ptr + 1) : &_body.val;
}
template const T& get() const {
assert(size() == sizeof(T));
return *static_cast(get_body());
}
template const T* ptr() const {
return static_cast(get_body());
}
const LV2_Atom* atom() const {
return is_reference() ? _body.ptr : &_atom;
}
private:
friend class Forge;
/** Free dynamically allocated value, if applicable. */
inline void dealloc() {
if (is_reference()) {
free(_body.ptr);
}
}
/** Return true iff this value is dynamically allocated. */
inline bool is_reference() const {
return _atom.size > sizeof(_body.val);
}
LV2_Atom _atom;
union {
intptr_t val;
LV2_Atom* ptr;
} _body;
};
} // namespace Ingen
#endif // INGEN_ATOM_HPP