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skia2/gpu/include/GrGLTexture.h
bsalomon@google.com 1da0746fa1 Delete GL tex ID when last of GrGLTexture or GrGLRenderTarget that reference it is destroyed 
git-svn-id: http://skia.googlecode.com/svn/trunk@915 2bbb7eff-a529-9590-31e7-b0007b416f81
2011-03-10 14:51:57 +00:00

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/*
Copyright 2011 Google Inc.
Licensed under the Apache License, Version 2.0 (the "License");
you may not use this file except in compliance with the License.
You may obtain a copy of the License at
http://www.apache.org/licenses/LICENSE-2.0
Unless required by applicable law or agreed to in writing, software
distributed under the License is distributed on an "AS IS" BASIS,
WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
See the License for the specific language governing permissions and
limitations under the License.
*/
#ifndef GrGLTexture_DEFINED
#define GrGLTexture_DEFINED
#include "GrTexture.h"
#include "GrScalar.h"
#include "GrGLIRect.h"
class GrGpuGL;
class GrGLTexture;
/**
* A ref counted tex id that deletes the texture in its destructor.
*/
class GrGLTexID : public GrRefCnt {
public:
GrGLTexID(GLuint texID) : fTexID(texID) {}
virtual ~GrGLTexID() {
if (0 != fTexID) {
GR_GL(DeleteTextures(1, &fTexID));
}
}
void abandon() { fTexID = 0; }
GLuint id() const { return fTexID; }
private:
GLuint fTexID;
};
class GrGLRenderTarget : public GrRenderTarget {
public:
virtual ~GrGLRenderTarget();
bool resolveable() const { return fRTFBOID != fTexFBOID; }
bool needsResolve() const { return fNeedsResolve; }
void setDirty(bool dirty) { fNeedsResolve = resolveable() && dirty; }
GLuint renderFBOID() const { return fRTFBOID; }
GLuint textureFBOID() const { return fTexFBOID; }
void abandon();
protected:
struct GLRenderTargetIDs {
GLuint fRTFBOID;
GLuint fTexFBOID;
GLuint fStencilRenderbufferID;
GLuint fMSColorRenderbufferID;
bool fOwnIDs;
};
GrGLRenderTarget(const GLRenderTargetIDs& ids,
GrGLTexID* texID,
GLuint stencilBits,
const GrGLIRect& fViewport,
GrGLTexture* texture,
GrGpuGL* gl);
void setViewport(const GrGLIRect& rect) { fViewport = rect; }
const GrGLIRect& getViewport() const { return fViewport; }
private:
GrGpuGL* fGL;
GLuint fRTFBOID;
GLuint fTexFBOID;
GLuint fStencilRenderbufferID;
GLuint fMSColorRenderbufferID;
// Should this object delete IDs when it is destroyed or does someone
// else own them.
bool fOwnIDs;
// If there separate Texture and RenderTarget FBO IDs then the rendertarget
// must be resolved to the texture FBO before it is used as a texture.
bool fNeedsResolve;
// when we switch to this rendertarget we want to set the viewport to
// only render to to content area (as opposed to the whole allocation) and
// we want the rendering to be at top left (GL has origin in bottom left)
GrGLIRect fViewport;
// non-NULL if this RT was created by Gr with an associated GrGLTexture.
GrGLTexID* fTexIDObj;
friend class GrGpuGL;
friend class GrGLTexture;
typedef GrRenderTarget INHERITED;
};
class GrGLTexture : public GrTexture {
public:
enum Orientation {
kBottomUp_Orientation,
kTopDown_Orientation,
};
struct TexParams {
GLenum fFilter;
GLenum fWrapS;
GLenum fWrapT;
};
protected:
struct GLTextureDesc {
uint32_t fContentWidth;
uint32_t fContentHeight;
uint32_t fAllocWidth;
uint32_t fAllocHeight;
PixelConfig fFormat;
GLuint fTextureID;
GLenum fUploadFormat;
GLenum fUploadByteCount;
GLenum fUploadType;
GLuint fStencilBits;
Orientation fOrientation;
};
typedef GrGLRenderTarget::GLRenderTargetIDs GLRenderTargetIDs;
GrGLTexture(const GLTextureDesc& textureDesc,
const GLRenderTargetIDs& rtIDs,
const TexParams& initialTexParams,
GrGpuGL* gl);
public:
virtual ~GrGLTexture();
// overloads of GrTexture
virtual void abandon();
virtual GrRenderTarget* asRenderTarget();
virtual void releaseRenderTarget();
virtual void uploadTextureData(uint32_t x,
uint32_t y,
uint32_t width,
uint32_t height,
const void* srcData);
virtual intptr_t getTextureHandle();
const TexParams& getTexParams() const { return fTexParams; }
void setTexParams(const TexParams& texParams) { fTexParams = texParams; }
GLuint textureID() const { return fTexIDObj->id(); }
GLenum uploadFormat() const { return fUploadFormat; }
GLenum uploadByteCount() const { return fUploadByteCount; }
GLenum uploadType() const { return fUploadType; }
/**
* Retrieves the texture width actually allocated in texels.
*
* @return the width in texels
*/
int allocWidth() const { return fAllocWidth; }
/**
* Retrieves the texture height actually allocated in texels.
*
* @return the height in texels
*/
int allocHeight() const { return fAllocHeight; }
/**
* @return width() / allocWidth()
*/
GrScalar contentScaleX() const { return fScaleX; }
/**
* @return height() / allocHeight()
*/
GrScalar contentScaleY() const { return fScaleY; }
// Ganesh assumes texture coordinates have their origin
// in the top-left corner of the image. OpenGL, however,
// has the origin in the lower-left corner. For content that
// is loaded by Ganesh we just push the content "upside down"
// (by GL's understanding of the world ) in glTex*Image and the
// addressing just works out. However, content generated by GL
// (FBO or externally imported texture) will be updside down
// and it is up to the GrGpuGL derivative to handle y-mirroing.
Orientation orientation() const { return fOrientation; }
private:
TexParams fTexParams;
GrGLTexID* fTexIDObj;
GLenum fUploadFormat;
GLenum fUploadByteCount;
GLenum fUploadType;
int fAllocWidth;
int fAllocHeight;
// precomputed content / alloc ratios
GrScalar fScaleX;
GrScalar fScaleY;
Orientation fOrientation;
GrGLRenderTarget* fRenderTarget;
GrGpuGL* fGpuGL;
static const GLenum gWrapMode2GLWrap[];
friend class GrGpuGL;
typedef GrTexture INHERITED;
};
#endif
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