# ifndef Magnum_SceneGraph_AbstractTranslationRotationScaling2D_h
# define Magnum_SceneGraph_AbstractTranslationRotationScaling2D_h
/*
This file is part of Magnum .
Copyright © 2010 , 2011 , 2012 , 2013 , 2014
Vladimír Vondruš < mosra @ centrum . cz >
Permission is hereby granted , free of charge , to any person obtaining a
copy of this software and associated documentation files ( the " Software " ) ,
to deal in the Software without restriction , including without limitation
the rights to use , copy , modify , merge , publish , distribute , sublicense ,
and / or sell copies of the Software , and to permit persons to whom the
Software is furnished to do so , subject to the following conditions :
The above copyright notice and this permission notice shall be included
in all copies or substantial portions of the Software .
THE SOFTWARE IS PROVIDED " AS IS " , WITHOUT WARRANTY OF ANY KIND , EXPRESS OR
IMPLIED , INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY ,
FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT . IN NO EVENT SHALL
THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM , DAMAGES OR OTHER
LIABILITY , WHETHER IN AN ACTION OF CONTRACT , TORT OR OTHERWISE , ARISING
FROM , OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
DEALINGS IN THE SOFTWARE .
*/
/** @file
* @ brief Class @ ref Magnum : : SceneGraph : : AbstractBasicTranslationRotationScaling2D , typedef @ ref Magnum : : SceneGraph : : AbstractTranslationRotationScaling2D
*/
# include "Magnum/SceneGraph/AbstractTranslationRotation2D.h"
namespace Magnum { namespace SceneGraph {
/**
@ brief Base transformation for two - dimensional scenes supporting translation , rotation and scaling
@ see @ ref AbstractTranslationRotationScaling2D , @ ref scenegraph ,
@ ref AbstractBasicTranslationRotationScaling2D ,
@ ref BasicMatrixTransformation2D
*/
template < class T > class AbstractBasicTranslationRotationScaling2D : public AbstractBasicTranslationRotation2D < T > {
public :
explicit AbstractBasicTranslationRotationScaling2D ( ) = default ;
/**
* @ brief Scale object
* @ return Reference to self ( for method chaining )
*
* @ see @ ref scaleLocal ( ) , @ ref Math : : Vector2 : : xScale ( ) ,
* @ ref Math : : Vector2 : : yScale ( )
*/
AbstractBasicTranslationRotationScaling2D < T > & scale ( const Math : : Vector2 < T > & vector ) {
doScale ( vector ) ;
return * this ;
SceneGraph: don't use virtual calls when setting transformations.
Until now, all calls to e.g. `Object::translate()` were virtual, which
is _very_ bad for performance. The virtual call is only needed when
setting the transformation via some interface, e.g.
`AbstractTranslationRotation3D`, as the caller doesn't know which
transformation implementation is used.
Now all public-facing transformation methods are inline non-virtual
functions, which are in most cases calling directly the transformation
implementation. In `Abstract*` transformation interfaces these functions
call private virtual `do*()` implementations, which are (re)implemented
in subclasses, but aren't used anywhere except when transforming
directly through the `Abstract*` interfaces. This should have good
impact on performance when doing many transformations in every frame
(although I can't verify it anywhere, as I don't have any significantly
large animated demo). Except of course when doing it through the virtual
interfaces.
As the public-facing transformation methods are now non-virtual, there
are now no "covariant return" issues and they can now return proper
`Object<*Transformation*>` type instead of just `*Transformation*`,
which makes full non-WTF method chaining possible:
Object2D* obj2;
obj2->translate({0.5f, -1.0f}) // Transformation method
->setParentKeepTransformation(obj1); // Object method
Or even this:
Object2D* obj = (new Object2D)->rotate(-15.0_degf);
13 years ago
}
/**
* @ brief Scale object as a local transformation
*
* Similar to the above , except that the transformation is applied
* before all others .
*/
AbstractBasicTranslationRotationScaling2D < T > & scaleLocal ( const Math : : Vector2 < T > & vector ) {
doScaleLocal ( vector ) ;
return * this ;
}
# ifdef MAGNUM_BUILD_DEPRECATED
/**
* @ copybrief scale ( )
* @ deprecated Use @ ref Magnum : : SceneGraph : : AbstractTranslationRotationScaling2D : : scale ( ) " scale() "
* or @ ref Magnum : : SceneGraph : : AbstractTranslationRotationScaling2D : : scaleLocal ( ) " scaleLocal() "
* instead .
*/
CORRADE_DEPRECATED ( " use scale() or scaleLocal() instead " ) AbstractBasicTranslationRotationScaling2D < T > & scale ( const Math : : Vector2 < T > & vector , TransformationType type ) {
return type = = TransformationType : : Global ? scale ( vector ) : scaleLocal ( vector ) ;
}
# endif
/* Overloads to remove WTF-factor from method chaining order */
# ifndef DOXYGEN_GENERATING_OUTPUT
AbstractBasicTranslationRotationScaling2D < T > & resetTransformation ( ) {
AbstractBasicTranslationRotation2D < T > : : resetTransformation ( ) ;
return * this ;
SceneGraph: don't use virtual calls when setting transformations.
Until now, all calls to e.g. `Object::translate()` were virtual, which
is _very_ bad for performance. The virtual call is only needed when
setting the transformation via some interface, e.g.
`AbstractTranslationRotation3D`, as the caller doesn't know which
transformation implementation is used.
Now all public-facing transformation methods are inline non-virtual
functions, which are in most cases calling directly the transformation
implementation. In `Abstract*` transformation interfaces these functions
call private virtual `do*()` implementations, which are (re)implemented
in subclasses, but aren't used anywhere except when transforming
directly through the `Abstract*` interfaces. This should have good
impact on performance when doing many transformations in every frame
(although I can't verify it anywhere, as I don't have any significantly
large animated demo). Except of course when doing it through the virtual
interfaces.
As the public-facing transformation methods are now non-virtual, there
are now no "covariant return" issues and they can now return proper
`Object<*Transformation*>` type instead of just `*Transformation*`,
which makes full non-WTF method chaining possible:
Object2D* obj2;
obj2->translate({0.5f, -1.0f}) // Transformation method
->setParentKeepTransformation(obj1); // Object method
Or even this:
Object2D* obj = (new Object2D)->rotate(-15.0_degf);
13 years ago
}
AbstractBasicTranslationRotationScaling2D < T > & translate ( const Math : : Vector2 < T > & vector ) {
AbstractBasicTranslationRotation2D < T > : : translate ( vector ) ;
return * this ;
}
AbstractBasicTranslationRotationScaling2D < T > & translateLocal ( const Math : : Vector2 < T > & vector ) {
AbstractBasicTranslationRotation2D < T > : : translateLocal ( vector ) ;
return * this ;
}
# ifdef MAGNUM_BUILD_DEPRECATED
CORRADE_DEPRECATED ( " use translate() or translateLocal() instead " ) AbstractBasicTranslationRotationScaling2D < T > & translate ( const Math : : Vector2 < T > & vector , TransformationType type ) {
AbstractBasicTranslationRotation2D < T > : : translate ( vector , type ) ;
return * this ;
SceneGraph: don't use virtual calls when setting transformations.
Until now, all calls to e.g. `Object::translate()` were virtual, which
is _very_ bad for performance. The virtual call is only needed when
setting the transformation via some interface, e.g.
`AbstractTranslationRotation3D`, as the caller doesn't know which
transformation implementation is used.
Now all public-facing transformation methods are inline non-virtual
functions, which are in most cases calling directly the transformation
implementation. In `Abstract*` transformation interfaces these functions
call private virtual `do*()` implementations, which are (re)implemented
in subclasses, but aren't used anywhere except when transforming
directly through the `Abstract*` interfaces. This should have good
impact on performance when doing many transformations in every frame
(although I can't verify it anywhere, as I don't have any significantly
large animated demo). Except of course when doing it through the virtual
interfaces.
As the public-facing transformation methods are now non-virtual, there
are now no "covariant return" issues and they can now return proper
`Object<*Transformation*>` type instead of just `*Transformation*`,
which makes full non-WTF method chaining possible:
Object2D* obj2;
obj2->translate({0.5f, -1.0f}) // Transformation method
->setParentKeepTransformation(obj1); // Object method
Or even this:
Object2D* obj = (new Object2D)->rotate(-15.0_degf);
13 years ago
}
# endif
AbstractBasicTranslationRotationScaling2D < T > & rotate ( Math : : Rad < T > angle ) {
AbstractBasicTranslationRotation2D < T > : : rotate ( angle ) ;
return * this ;
}
AbstractBasicTranslationRotationScaling2D < T > & rotateLocal ( Math : : Rad < T > angle ) {
AbstractBasicTranslationRotation2D < T > : : rotateLocal ( angle ) ;
return * this ;
}
# ifdef MAGNUM_BUILD_DEPRECATED
CORRADE_DEPRECATED ( " use rotate() or rotateLocal() instead " ) AbstractBasicTranslationRotationScaling2D < T > & rotate ( Math : : Rad < T > angle , TransformationType type ) {
AbstractBasicTranslationRotation2D < T > : : rotate ( angle , type ) ;
return * this ;
SceneGraph: don't use virtual calls when setting transformations.
Until now, all calls to e.g. `Object::translate()` were virtual, which
is _very_ bad for performance. The virtual call is only needed when
setting the transformation via some interface, e.g.
`AbstractTranslationRotation3D`, as the caller doesn't know which
transformation implementation is used.
Now all public-facing transformation methods are inline non-virtual
functions, which are in most cases calling directly the transformation
implementation. In `Abstract*` transformation interfaces these functions
call private virtual `do*()` implementations, which are (re)implemented
in subclasses, but aren't used anywhere except when transforming
directly through the `Abstract*` interfaces. This should have good
impact on performance when doing many transformations in every frame
(although I can't verify it anywhere, as I don't have any significantly
large animated demo). Except of course when doing it through the virtual
interfaces.
As the public-facing transformation methods are now non-virtual, there
are now no "covariant return" issues and they can now return proper
`Object<*Transformation*>` type instead of just `*Transformation*`,
which makes full non-WTF method chaining possible:
Object2D* obj2;
obj2->translate({0.5f, -1.0f}) // Transformation method
->setParentKeepTransformation(obj1); // Object method
Or even this:
Object2D* obj = (new Object2D)->rotate(-15.0_degf);
13 years ago
}
# endif
# endif
SceneGraph: don't use virtual calls when setting transformations.
Until now, all calls to e.g. `Object::translate()` were virtual, which
is _very_ bad for performance. The virtual call is only needed when
setting the transformation via some interface, e.g.
`AbstractTranslationRotation3D`, as the caller doesn't know which
transformation implementation is used.
Now all public-facing transformation methods are inline non-virtual
functions, which are in most cases calling directly the transformation
implementation. In `Abstract*` transformation interfaces these functions
call private virtual `do*()` implementations, which are (re)implemented
in subclasses, but aren't used anywhere except when transforming
directly through the `Abstract*` interfaces. This should have good
impact on performance when doing many transformations in every frame
(although I can't verify it anywhere, as I don't have any significantly
large animated demo). Except of course when doing it through the virtual
interfaces.
As the public-facing transformation methods are now non-virtual, there
are now no "covariant return" issues and they can now return proper
`Object<*Transformation*>` type instead of just `*Transformation*`,
which makes full non-WTF method chaining possible:
Object2D* obj2;
obj2->translate({0.5f, -1.0f}) // Transformation method
->setParentKeepTransformation(obj1); // Object method
Or even this:
Object2D* obj = (new Object2D)->rotate(-15.0_degf);
13 years ago
protected :
~ AbstractBasicTranslationRotationScaling2D ( ) = default ;
SceneGraph: don't use virtual calls when setting transformations.
Until now, all calls to e.g. `Object::translate()` were virtual, which
is _very_ bad for performance. The virtual call is only needed when
setting the transformation via some interface, e.g.
`AbstractTranslationRotation3D`, as the caller doesn't know which
transformation implementation is used.
Now all public-facing transformation methods are inline non-virtual
functions, which are in most cases calling directly the transformation
implementation. In `Abstract*` transformation interfaces these functions
call private virtual `do*()` implementations, which are (re)implemented
in subclasses, but aren't used anywhere except when transforming
directly through the `Abstract*` interfaces. This should have good
impact on performance when doing many transformations in every frame
(although I can't verify it anywhere, as I don't have any significantly
large animated demo). Except of course when doing it through the virtual
interfaces.
As the public-facing transformation methods are now non-virtual, there
are now no "covariant return" issues and they can now return proper
`Object<*Transformation*>` type instead of just `*Transformation*`,
which makes full non-WTF method chaining possible:
Object2D* obj2;
obj2->translate({0.5f, -1.0f}) // Transformation method
->setParentKeepTransformation(obj1); // Object method
Or even this:
Object2D* obj = (new Object2D)->rotate(-15.0_degf);
13 years ago
# ifdef DOXYGEN_GENERATING_OUTPUT
protected :
# else
private :
# endif
/** @brief Polymorphic implementation for @ref scale() */
virtual void doScale ( const Math : : Vector2 < T > & vector ) = 0 ;
/** @brief Polymorphic implementation for @ref scaleLocal() */
virtual void doScaleLocal ( const Math : : Vector2 < T > & vector ) = 0 ;
} ;
/**
@ brief Base transformation for two - dimensional float scenes supporting translation , rotation and scaling
@ see @ ref AbstractTranslationRotationScaling3D
*/
typedef AbstractBasicTranslationRotationScaling2D < Float > AbstractTranslationRotationScaling2D ;
} }
# endif
