/***********************************************************************
* FXRuby -- the Ruby language bindings for the FOX GUI toolkit.
* Copyright (c) 2001-2009 by Lyle Johnson. All Rights Reserved.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place, Suite 330, Boston, MA 02111-1307 USA
*
* For further information please contact the author by e-mail
* at "[email protected]".
***********************************************************************/
/***********************************************************************
* $Id: FXRbImage.h 2336 2006-02-04 15:20:33Z lyle $
***********************************************************************/
#ifndef FXRBIMAGE_H
#define FXRBIMAGE_H
#define DECLARE_FXIMAGE_STUBS(klass) \
inline void klass ## _restore(klass* self){ \
self->klass::restore(); \
} \
inline void klass ## _render(klass* self){ \
self->klass::render(); \
} \
inline void klass ## _release(klass* self){ \
self->klass::release(); \
} \
inline void klass ## _scale(klass* self,FXint w,FXint h,FXint quality){ \
self->klass::scale(w,h,quality); \
} \
inline void klass ## _mirror(klass* self,bool horizontal,bool vertical){ \
self->klass::mirror(horizontal,vertical); \
} \
inline void klass ## _rotate(klass* self,FXint degrees){ \
self->klass::rotate(degrees); \
} \
inline void klass ## _crop(klass* self,FXint x,FXint y,FXint w,FXint h,FXColor color){ \
self->klass::crop(x,y,w,h,color); \
} \
inline void klass ## _fill(klass* self,FXColor color){ \
self->klass::fill(color); \
} \
inline void klass ## _fade(klass* self,FXColor color,FXint factor){ \
self->klass::fade(color,factor); \
} \
inline void klass ## _xshear(klass* self,FXint shear,FXColor clr){ \
self->klass::xshear(shear,clr); \
} \
inline void klass ## _yshear(klass* self,FXint shear,FXColor clr){ \
self->klass::yshear(shear,clr); \
} \
inline void klass ## _hgradient(klass* self,FXColor left,FXColor right){ \
self->klass::hgradient(left,right); \
} \
inline void klass ## _vgradient(klass* self,FXColor top,FXColor bottom){ \
self->klass::vgradient(top,bottom); \
} \
inline void klass ## _gradient(klass* self,FXColor topleft,FXColor topright,FXColor bottomleft,FXColor bottomright){ \
self->klass::gradient(topleft,topright,bottomleft,bottomright); \
} \
inline void klass ## _blend(klass* self,FXColor color){ \
self->klass::blend(color); \
} \
inline bool klass ## _savePixels_gvl(const klass* self,FXStream& store){ \
return self->klass::savePixels(store); \
} \
inline bool klass ## _loadPixels_gvl(klass* self,FXStream& store){ \
return self->klass::loadPixels(store); \
}
#define IMPLEMENT_FXIMAGE_STUBS(cls) \
void cls::restore(){ \
FXRbCallVoidMethod(this,"restore"); \
} \
void cls::render(){ \
FXRbCallVoidMethod(this,"render"); \
} \
void cls::release(){ \
FXRbCallVoidMethod(this,"release"); \
} \
void cls::scale(FXint w,FXint h,FXint quality){ \
FXRbCallVoidMethod(this,"scale",w,h,quality); \
} \
void cls::mirror(bool horizontal,bool vertical){ \
FXRbCallVoidMethod(this,"mirror",horizontal,vertical); \
} \
void cls::rotate(FXint degrees){ \
FXRbCallVoidMethod(this,"rotate",degrees); \
} \
void cls::crop(FXint x,FXint y,FXint w,FXint h,FXColor color){ \
FXRbCallVoidMethod(this,"crop",x,y,w,h,color); \
} \
void cls::fill(FXColor color){ \
FXRbCallVoidMethod(this,"fill",color); \
} \
void cls::fade(FXColor color,FXint factor){ \
FXRbCallVoidMethod(this,"fade",color,factor); \
} \
void cls::xshear(FXint shear,FXColor clr){ \
FXRbCallVoidMethod(this,"xshear",shear,clr); \
} \
void cls::yshear(FXint shear,FXColor clr){ \
FXRbCallVoidMethod(this,"yshear",shear,clr); \
} \
void cls::hgradient(FXColor left,FXColor right){ \
FXRbCallVoidMethod(this,"hgradient",left,right); \
} \
void cls::vgradient(FXColor top,FXColor bottom){ \
FXRbCallVoidMethod(this,"vgradient",top,bottom); \
} \
void cls::gradient(FXColor topleft,FXColor topright,FXColor bottomleft,FXColor bottomright){ \
FXRbCallVoidMethod(this,"gradient",topleft,topright,bottomleft,bottomright); \
} \
void cls::blend(FXColor color){ \
FXRbCallVoidMethod(this,"blend",color); \
} \
bool cls::savePixels(FXStream& store) const { \
return FXRbCallBoolMethod(this,"savePixels",store); \
} \
bool cls::loadPixels(FXStream& store){ \
return FXRbCallBoolMethod(this,"loadPixels",store); \
}
class FXRbImage : public FXImage {
FXDECLARE(FXRbImage)
protected:
FXRbImage(){}
#include "FXRbObjectVirtuals.h"
#include "FXRbIdVirtuals.h"
#include "FXRbDrawableVirtuals.h"
#include "FXRbImageVirtuals.h"
public:
/// Create an image
FXRbImage(FXApp* a,const FXColor* pix=NULL,FXuint opts=0,FXint w=1,FXint h=1):FXImage(a,pix,opts,w,h){
FXRbRegisterAppSensitiveObject(this);
}
// Mark dependencies for the GC
static void markfunc(FXImage* image);
// Destructor
virtual ~FXRbImage(){
FXRbUnregisterRubyObj(this);
FXRbUnregisterAppSensitiveObject(this);
}
};
#endif