/usr/include/synfig-1.0/synfig/value.h is in libsynfig-dev 1.0.2-1+b6.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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/*! \file value.h
** \brief Template Header
**
** $Id$
**
** \legal
** Copyright (c) 2002-2005 Robert B. Quattlebaum Jr., Adrian Bentley
** Copyright (c) 2007, 2008 Chris Moore
** Copyright (c) 2011 Carlos López
**
** This package is free software; you can redistribute it and/or
** modify it under the terms of the GNU General Public License as
** published by the Free Software Foundation; either version 2 of
** the License, or (at your option) any later version.
**
** This package 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
** General Public License for more details.
** \endlegal
*/
/* ========================================================================= */
/* === S T A R T =========================================================== */
#ifndef __SYNFIG_VALUE_H
#define __SYNFIG_VALUE_H
/* === H E A D E R S ======================================================= */
#include "base_types.h"
// TODO: remove following includes
#include "angle.h"
#include "segment.h"
#include "string.h"
#include <list>
#include <vector>
#include <ETL/trivial>
#include <ETL/handle>
#include "general.h"
#include "blinepoint.h"
#include "bone.h"
#include "widthpoint.h"
#include "dashitem.h"
#include "exception.h"
#include "interpolation.h"
#include "transformation.h"
#ifdef USE_HALF_TYPE
#include <OpenEXR/half.h>
#endif
#include <ETL/ref_count>
/* === M A C R O S ========================================================= */
/* === T Y P E D E F S ===================================================== */
/* === C L A S S E S & S T R U C T S ======================================= */
namespace synfig {
// TODO: remove following predeclarations
class Canvas;
class Vector;
class Time;
struct Segment;
class Gradient;
class BLinePoint;
class WidthPoint;
class DashItem;
class Color;
class Bone;
class ValueNode_Bone;
class Matrix;
class BoneWeightPair;
/*! \class ValueBase
** \brief Base class for the Values of Synfig
*/
class ValueBase
{
/*
-- ** -- T Y P E S -----------------------------------------------------------
*/
public:
typedef std::vector<ValueBase> List;
/*
-- ** -- D A T A -------------------------------------------------------------
*/
protected:
//! The type of value
Type *type;
//! Pointer to hold the data of the value
void *data;
//! Counter of Value Nodes that refers to this Value Base
//! Value base can only be destructed if the ref_count is not greater than 0
//!\see etl::reference_counter
etl::reference_counter ref_count;
//! For Values with loop option like TYPE_LIST
bool loop_;
//! For Values of Constant Value Nodes
bool static_;
//! Parameter interpolation
Interpolation interpolation_;
/*
-- ** -- C O N S T R U C T O R S -----------------------------------
*/
public:
//! Default constructor
ValueBase();
//! Template constructor for any type
template <typename T>
ValueBase(const T &x, bool loop_=false, bool static_=false):
type(&type_nil),data(0),ref_count(0),loop_(loop_), static_(static_),
interpolation_(INTERPOLATION_UNDEFINED)
{
#ifdef INITIALIZE_TYPE_BEFORE_USE
type->initialize();
#endif
set(x);
}
template <typename T>
ValueBase(const std::vector<T> &x, bool loop_=false, bool static_=false):
type(&type_nil),data(0),ref_count(0),loop_(loop_), static_(static_),
interpolation_(INTERPOLATION_UNDEFINED)
{
#ifdef INITIALIZE_TYPE_BEFORE_USE
type->initialize();
#endif
set_list_of(x);
}
//! Copy constructor. The data is not copied, just the type.
ValueBase(Type &x);
//! Default destructor
~ValueBase();
/*
-- ** -- O P E R A T O R S ---------------------------------------------------
*/
public:
//! Template for the operator assignation operator for non ValueBase classes
//! \see set()
template <class T> ValueBase& operator=(const T& x)
{ set(x); return *this; }
//!Operator asignation for ValueBase classes. Does a exact copy of \x
ValueBase& operator=(const ValueBase& x);
//! Eqaul than operator. Segment, Gradient and Bline Points cannot be compared.
bool operator==(const ValueBase& rhs)const;
//! Not equal than operator.
bool operator!=(const ValueBase& rhs)const { return !operator==(rhs); }
//! Constant index operator for when value is of type TYPE_LIST
const ValueBase &operator[](int index)const
{ assert(type==&type_list); assert(index>0); return get_list()[index]; }
/*
-- ** -- M E M B E R F U N C T I O N S -------------------------------------
*/
public:
//! Deletes the data only if the ref count is zero
void clear();
//! Gets the loop option.
bool get_loop()const { return loop_; }
//! Sets the loop option.
void set_loop(bool x) { loop_=x; }
//! Gets the static option.
bool get_static()const { return static_; }
//! Sets the static option.
void set_static(bool x) { static_=x; }
//! Gets the interpolation.
Interpolation get_interpolation()const { return interpolation_; }
//! Sets the interpolation.
void set_interpolation(Interpolation x) { interpolation_=x; }
//! Create independent copy from existing ValueBase object
void copy(const ValueBase& x);
//! Copies properties (static, interpolation, etc) from other ValueBase object.
void copy_properties_of(const ValueBase& x);
//! True if the Value is not valid or is type LIST and is empty
bool empty()const;
//! Gets the contained type in the Value Base
Type& get_contained_type()const;
//! Returns true if the contained value is defined and valid.
bool is_valid()const;
//! Returns a string containing the name of the type. Used for sif files
String type_name()const { return type->description.name; }
//! Returns the type of the contained value
Type& get_type()const { return *type; }
template<typename T>
inline static bool can_get(const TypeId type, const T &x)
{ return _can_get(type, types_namespace::get_type_alias(x)); }
template<typename T>
inline static bool can_get(const Type& type, const T &x) { return can_get(type.identifier, x); }
template<typename T>
inline static bool can_set(const TypeId type, const T &x)
{ return _can_set(type, types_namespace::get_type_alias(x)); }
template<typename T>
inline static bool can_set(const Type& type, const T &x) { return can_set(type.identifier, x); }
template<typename T>
inline static bool can_put(const TypeId type, const T &x)
{ return _can_put(type, types_namespace::get_type_alias(x)); }
template<typename T>
inline static bool can_put(const Type& type, const T &x) { return can_put(type.identifier, x); }
inline static bool can_copy(const TypeId dest, const TypeId src)
{ return NULL != Type::get_operation<Operation::CopyFunc>(Operation::Description::get_copy(dest, src)); }
inline static bool can_copy(const Type& dest, const Type& src) { return can_copy(dest.identifier, src.identifier); }
template<typename T> inline bool can_get(const T &x) const { return is_valid() && can_get(*type, x); }
template<typename T> inline bool can_set(const T &x) const { return can_set(*type, x); }
template<typename T> inline bool can_put(const T &x) const { return is_valid() && can_put(*type, x); }
bool can_copy_from(const TypeId type) const { return can_copy(this->type->identifier, type); }
bool can_copy_from(const Type& type) const { return can_copy(*this->type, type); }
bool can_copy_to(const TypeId type) const { return can_copy(type, this->type->identifier); }
bool can_copy_to(const Type& type) const { return can_copy(type, *this->type); }
template<typename T> bool same_type_as(const T&x) const { return can_get(x) && can_set(x) && can_put(x); }
// === GET MEMBERS ========================================================
//! Template to get the ValueBase class data by casting the type
template <typename T>
inline const T &get(const T &x)const { return (const T&)_get(types_namespace::get_type_alias(x)); }
//! Gets the data as List Type
const List& get_list()const { return get(List()); }
template<typename T>
std::vector<T> get_list_of(const T &x)const
{
const List &list = get_list();
std::vector<T> out_list;
out_list.reserve(list.size());
for(List::const_iterator i = list.begin(); i != list.end(); ++i)
if (i->can_get(x))
out_list.push_back(i->get(x));
return out_list;
}
template<typename T>
void set_list_of(const std::vector<T> &list)
{
*this = List(list.begin(), list.end());
}
#ifdef _DEBUG
String get_string() const;
#endif // _DEBUG
// ========================================================================
//! Put template for any class
template <typename T>
inline void put(T* x)const { _put(types_namespace::get_type_alias(*x), x); }
//! Set template for any class
template <typename T>
inline void set(const T& x) { _set(x); }
/*
-- ** -- S T A T I C F U N C T I O N S -------------------------------------
*/
public:
//! Returns a the corresponding Type of the described type.
//! Notice that this is used in the loadcanvas. It should keep all
//! all type names used in previous sif files
static Type& ident_type(const String &str);
// === GET TYPE MEMBERS ===================================================
template<typename T>
static Type& get_type(const T&) { return Type::get_type<T>(); }
// TODO: remove this, when removed all references in code
static Type& get_type(const List &)
{ return Type::get_type<List>(); }
static Type& get_type(Canvas* const &)
{ return Type::get_type<Canvas*>(); }
static Type& get_type(ValueNode_Bone* const &)
{ return Type::get_type<ValueNode_Bone*>(); }
template <typename T> static Type& get_type(const T* &)
{ int i[(int)1 - (int)sizeof(T)]; return type_nil; }
template <typename T> static Type& get_type(const std::vector<T> &)
{ int i[(int)1 - (int)sizeof(T)]; return type_nil; }
template <typename T> static Type& get_type(const std::list<T> &)
{ int i[(int)1 - (int)sizeof(T)]; return type_nil; }
// ========================================================================
/*
-- ** -- C A S T O P E R A T O R S -----------------------------------------
*/
public:
//! I wonder why are those casting operators disabled...
/*
template<typename T>
operator const T&() const
{
Type &t = Type::get_type<T>();
Operation::GenericFuncs<T>::GetFunc func =
Type::get_operation<Operation::GenericFuncs<T>::GetFunc>(
Operation::Description::get_get(t.identifier) );
assert(func != NULL);
return func(data);
}
*/
/*
-- ** -- O T H E R -----------------------------------------------------------
*/
private:
void create(Type &type);
inline void create() { create(*type); }
template <typename T>
inline static bool _can_get(const TypeId type, const T &)
{
typedef typename T::AliasedType TT;
return NULL !=
Type::get_operation<typename Operation::GenericFuncs<TT>::GetFunc>(
Operation::Description::get_get(type) );
}
template <typename T>
inline static bool _can_put(const TypeId type, const T &)
{
typedef typename T::AliasedType TT;
return NULL !=
Type::get_operation<typename Operation::GenericFuncs<TT>::PutFunc>(
Operation::Description::get_put(type) );
}
template <typename T>
inline static bool _can_set(const TypeId type, const T &)
{
typedef typename T::AliasedType TT;
return NULL !=
Type::get_operation<typename Operation::GenericFuncs<TT>::SetFunc>(
Operation::Description::get_set(type) );
}
template <typename T>
const typename T::AliasedType& _get(const T &)const
{
typedef typename T::AliasedType TT;
#ifdef _DEBUG
if (!is_valid())
printf("%s:%d !is_valid()\n", __FILE__, __LINE__);
#endif
assert(is_valid());
typename Operation::GenericFuncs<TT>::GetFunc func =
Type::get_operation<typename Operation::GenericFuncs<TT>::GetFunc>(
Operation::Description::get_get(type->identifier) );
#ifdef _DEBUG
if (func == NULL)
printf("%s:%d %s get_func == NULL\n", __FILE__, __LINE__, type->description.name.c_str());
#endif
assert(func != NULL);
return func(data);
}
template <typename T>
void _put(const T &, typename T::AliasedType *x)const
{
assert(is_valid());
typedef typename T::AliasedType TT;
typename Operation::GenericFuncs<TT>::PutFunc func =
Type::get_operation<typename Operation::GenericFuncs<TT>::PutFunc>(
Operation::Description::get_put(type->identifier) );
assert(func != NULL);
func(*x, data);
}
template<typename T>
void __set(const T &alias, const typename T::AliasedType &x)
{
typedef typename T::AliasedType TT;
#ifdef INITIALIZE_TYPE_BEFORE_USE
alias.type.initialize();
#endif
Type ¤t_type = *type;
if (current_type != type_nil)
{
typename Operation::GenericFuncs<TT>::SetFunc func =
Type::get_operation<typename Operation::GenericFuncs<TT>::SetFunc>(
Operation::Description::get_set(current_type.identifier) );
if (func != NULL)
{
if (!ref_count.unique()) create(current_type);
func(data, x);
return;
}
}
Type &new_type = alias.type;
assert(new_type != current_type);
assert(new_type != type_nil);
typename Operation::GenericFuncs<TT>::SetFunc func =
Type::get_operation<typename Operation::GenericFuncs<TT>::SetFunc>(
Operation::Description::get_set(new_type.identifier) );
assert(func != NULL);
create(new_type);
assert(*type != type_nil);
func(data, x);
}
//! Internal set template. Takes in consideration the reference counter
template <typename T>
inline void _set(const T& x) { __set(types_namespace::get_type_alias(x), x); }
}; // END of class ValueBase
/*! \class Value
** \brief Template for all the valid Value Types
*/
template <class T>
class Value : public ValueBase
{
public:
Value(const T &x):ValueBase(x) { }
Value(const ValueBase &x):ValueBase(x) { }
T get()const { return ValueBase::get(T()); }
void put(T* x)const { ValueBase::put(x); }
void set(const T& x) { ValueBase::operator=(x); }
Value<T>& operator=(const T& x) { set(x); return *this; }
Value<T>& operator=(const Value<T>& x) { return ValueBase::operator=(x); }
Value<T>& operator=(const ValueBase& x) { return ValueBase::operator=(x); }
}; // END of class Value
}; // END of namespace synfig
/* === E N D =============================================================== */
#endif
|