/usr/include/OGRE/OgreTexture.h is in libogre-dev 1.7.4-3.
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-----------------------------------------------------------------------------
This source file is part of OGRE
(Object-oriented Graphics Rendering Engine)
For the latest info, see http://www.ogre3d.org/
Copyright (c) 2000-2011 Torus Knot Software Ltd
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.
-----------------------------------------------------------------------------
*/
#ifndef _Texture_H__
#define _Texture_H__
#include "OgrePrerequisites.h"
#include "OgreHardwareBuffer.h"
#include "OgreResource.h"
#include "OgreImage.h"
namespace Ogre {
/** \addtogroup Core
* @{
*/
/** \addtogroup Resources
* @{
*/
/** Enum identifying the texture usage
*/
enum TextureUsage
{
/// @copydoc HardwareBuffer::Usage
TU_STATIC = HardwareBuffer::HBU_STATIC,
TU_DYNAMIC = HardwareBuffer::HBU_DYNAMIC,
TU_WRITE_ONLY = HardwareBuffer::HBU_WRITE_ONLY,
TU_STATIC_WRITE_ONLY = HardwareBuffer::HBU_STATIC_WRITE_ONLY,
TU_DYNAMIC_WRITE_ONLY = HardwareBuffer::HBU_DYNAMIC_WRITE_ONLY,
TU_DYNAMIC_WRITE_ONLY_DISCARDABLE = HardwareBuffer::HBU_DYNAMIC_WRITE_ONLY_DISCARDABLE,
/// mipmaps will be automatically generated for this texture
TU_AUTOMIPMAP = 0x100,
/// this texture will be a render target, i.e. used as a target for render to texture
/// setting this flag will ignore all other texture usages except TU_AUTOMIPMAP
TU_RENDERTARGET = 0x200,
/// default to automatic mipmap generation static textures
TU_DEFAULT = TU_AUTOMIPMAP | TU_STATIC_WRITE_ONLY
};
/** Enum identifying the texture type
*/
enum TextureType
{
/// 1D texture, used in combination with 1D texture coordinates
TEX_TYPE_1D = 1,
/// 2D texture, used in combination with 2D texture coordinates (default)
TEX_TYPE_2D = 2,
/// 3D volume texture, used in combination with 3D texture coordinates
TEX_TYPE_3D = 3,
/// 3D cube map, used in combination with 3D texture coordinates
TEX_TYPE_CUBE_MAP = 4
};
/** Enum identifying special mipmap numbers
*/
enum TextureMipmap
{
/// Generate mipmaps up to 1x1
MIP_UNLIMITED = 0x7FFFFFFF,
/// Use TextureManager default
MIP_DEFAULT = -1
};
// Forward declaration
class TexturePtr;
/** Abstract class representing a Texture resource.
@remarks
The actual concrete subclass which will exist for a texture
is dependent on the rendering system in use (Direct3D, OpenGL etc).
This class represents the commonalities, and is the one 'used'
by programmers even though the real implementation could be
different in reality. Texture objects are created through
the 'create' method of the TextureManager concrete subclass.
*/
class _OgreExport Texture : public Resource
{
public:
Texture(ResourceManager* creator, const String& name, ResourceHandle handle,
const String& group, bool isManual = false, ManualResourceLoader* loader = 0);
/** Sets the type of texture; can only be changed before load()
*/
virtual void setTextureType(TextureType ttype ) { mTextureType = ttype; }
/** Gets the type of texture
*/
virtual TextureType getTextureType(void) const { return mTextureType; }
/** Gets the number of mipmaps to be used for this texture.
*/
virtual size_t getNumMipmaps(void) const {return mNumMipmaps;}
/** Sets the number of mipmaps to be used for this texture.
@note
Must be set before calling any 'load' method.
*/
virtual void setNumMipmaps(size_t num) {mNumRequestedMipmaps = mNumMipmaps = num;}
/** Are mipmaps hardware generated?
@remarks
Will only be accurate after texture load, or createInternalResources
*/
virtual bool getMipmapsHardwareGenerated(void) const { return mMipmapsHardwareGenerated; }
/** Returns the gamma adjustment factor applied to this texture on loading.
*/
virtual float getGamma(void) const { return mGamma; }
/** Sets the gamma adjustment factor applied to this texture on loading the
data.
@note
Must be called before any 'load' method. This gamma factor will
be premultiplied in and may reduce the precision of your textures.
You can use setHardwareGamma if supported to apply gamma on
sampling the texture instead.
*/
virtual void setGamma(float g) { mGamma = g; }
/** Sets whether this texture will be set up so that on sampling it,
hardware gamma correction is applied.
@remarks
24-bit textures are often saved in gamma colour space; this preserves
precision in the 'darks'. However, if you're performing blending on
the sampled colours, you really want to be doing it in linear space.
One way is to apply a gamma correction value on loading (see setGamma),
but this means you lose precision in those dark colours. An alternative
is to get the hardware to do the gamma correction when reading the
texture and converting it to a floating point value for the rest of
the pipeline. This option allows you to do that; it's only supported
in relatively recent hardware (others will ignore it) but can improve
the quality of colour reproduction.
@note
Must be called before any 'load' method since it may affect the
construction of the underlying hardware resources.
Also note this only useful on textures using 8-bit colour channels.
*/
virtual void setHardwareGammaEnabled(bool enabled) { mHwGamma = enabled; }
/** Gets whether this texture will be set up so that on sampling it,
hardware gamma correction is applied.
*/
virtual bool isHardwareGammaEnabled() const { return mHwGamma; }
/** Set the level of multisample AA to be used if this texture is a
rendertarget.
@note This option will be ignored if TU_RENDERTARGET is not part of the
usage options on this texture, or if the hardware does not support it.
@param fsaa The number of samples
@param fsaaHint Any hinting text (@see Root::createRenderWindow)
*/
virtual void setFSAA(uint fsaa, const String& fsaaHint) { mFSAA = fsaa; mFSAAHint = fsaaHint; }
/** Get the level of multisample AA to be used if this texture is a
rendertarget.
*/
virtual uint getFSAA() const { return mFSAA; }
/** Get the multisample AA hint if this texture is a rendertarget.
*/
virtual const String& getFSAAHint() const { return mFSAAHint; }
/** Returns the height of the texture.
*/
virtual size_t getHeight(void) const { return mHeight; }
/** Returns the width of the texture.
*/
virtual size_t getWidth(void) const { return mWidth; }
/** Returns the depth of the texture (only applicable for 3D textures).
*/
virtual size_t getDepth(void) const { return mDepth; }
/** Returns the height of the original input texture (may differ due to hardware requirements).
*/
virtual size_t getSrcHeight(void) const { return mSrcHeight; }
/** Returns the width of the original input texture (may differ due to hardware requirements).
*/
virtual size_t getSrcWidth(void) const { return mSrcWidth; }
/** Returns the original depth of the input texture (only applicable for 3D textures).
*/
virtual size_t getSrcDepth(void) const { return mSrcDepth; }
/** Set the height of the texture; can only do this before load();
*/
virtual void setHeight(size_t h) { mHeight = mSrcHeight = h; }
/** Set the width of the texture; can only do this before load();
*/
virtual void setWidth(size_t w) { mWidth = mSrcWidth = w; }
/** Set the depth of the texture (only applicable for 3D textures);
; can only do this before load();
*/
virtual void setDepth(size_t d) { mDepth = mSrcDepth = d; }
/** Returns the TextureUsage indentifier for this Texture
*/
virtual int getUsage() const
{
return mUsage;
}
/** Sets the TextureUsage indentifier for this Texture; only useful before load()
@param u is a combination of TU_STATIC, TU_DYNAMIC, TU_WRITE_ONLY
TU_AUTOMIPMAP and TU_RENDERTARGET (see TextureUsage enum). You are
strongly advised to use HBU_STATIC_WRITE_ONLY wherever possible, if you need to
update regularly, consider HBU_DYNAMIC_WRITE_ONLY.
*/
virtual void setUsage(int u) { mUsage = u; }
/** Creates the internal texture resources for this texture.
@remarks
This method creates the internal texture resources (pixel buffers,
texture surfaces etc) required to begin using this texture. You do
not need to call this method directly unless you are manually creating
a texture, in which case something must call it, after having set the
size and format of the texture (e.g. the ManualResourceLoader might
be the best one to call it). If you are not defining a manual texture,
or if you use one of the self-contained load...() methods, then it will be
called for you.
*/
virtual void createInternalResources(void);
/** Frees internal texture resources for this texture.
*/
virtual void freeInternalResources(void);
/** Copies (and maybe scales to fit) the contents of this texture to
another texture. */
virtual void copyToTexture( TexturePtr& target );
/** Loads the data from an image.
@note Important: only call this from outside the load() routine of a
Resource. Don't call it within (including ManualResourceLoader) - use
_loadImages() instead. This method is designed to be external,
performs locking and checks the load status before loading.
*/
virtual void loadImage( const Image &img );
/** Loads the data from a raw stream.
@note Important: only call this from outside the load() routine of a
Resource. Don't call it within (including ManualResourceLoader) - use
_loadImages() instead. This method is designed to be external,
performs locking and checks the load status before loading.
@param stream Data stream containing the raw pixel data
@param uWidth Width of the image
@param uHeight Height of the image
@param eFormat The format of the pixel data
*/
virtual void loadRawData( DataStreamPtr& stream,
ushort uWidth, ushort uHeight, PixelFormat eFormat);
/** Internal method to load the texture from a set of images.
@note Do NOT call this method unless you are inside the load() routine
already, e.g. a ManualResourceLoader. It is not threadsafe and does
not check or update resource loading status.
*/
virtual void _loadImages( const ConstImagePtrList& images );
/** Returns the pixel format for the texture surface. */
virtual PixelFormat getFormat() const
{
return mFormat;
}
/** Returns the desired pixel format for the texture surface. */
virtual PixelFormat getDesiredFormat(void) const
{
return mDesiredFormat;
}
/** Returns the pixel format of the original input texture (may differ due to
hardware requirements and pixel format convertion).
*/
virtual PixelFormat getSrcFormat(void) const
{
return mSrcFormat;
}
/** Sets the pixel format for the texture surface; can only be set before load(). */
virtual void setFormat(PixelFormat pf);
/** Returns true if the texture has an alpha layer. */
virtual bool hasAlpha(void) const;
/** Sets desired bit depth for integer pixel format textures.
@note
Available values: 0, 16 and 32, where 0 (the default) means keep original format
as it is. This value is number of bits for the pixel.
*/
virtual void setDesiredIntegerBitDepth(ushort bits);
/** gets desired bit depth for integer pixel format textures.
*/
virtual ushort getDesiredIntegerBitDepth(void) const;
/** Sets desired bit depth for float pixel format textures.
@note
Available values: 0, 16 and 32, where 0 (the default) means keep original format
as it is. This value is number of bits for a channel of the pixel.
*/
virtual void setDesiredFloatBitDepth(ushort bits);
/** gets desired bit depth for float pixel format textures.
*/
virtual ushort getDesiredFloatBitDepth(void) const;
/** Sets desired bit depth for integer and float pixel format.
*/
virtual void setDesiredBitDepths(ushort integerBits, ushort floatBits);
/** Sets whether luminace pixel format will treated as alpha format when load this texture.
*/
virtual void setTreatLuminanceAsAlpha(bool asAlpha);
/** Gets whether luminace pixel format will treated as alpha format when load this texture.
*/
virtual bool getTreatLuminanceAsAlpha(void) const;
/** Return the number of faces this texture has. This will be 6 for a cubemap
texture and 1 for a 1D, 2D or 3D one.
*/
virtual size_t getNumFaces() const;
/** Return hardware pixel buffer for a surface. This buffer can then
be used to copy data from and to a particular level of the texture.
@param face Face number, in case of a cubemap texture. Must be 0
for other types of textures.
For cubemaps, this is one of
+X (0), -X (1), +Y (2), -Y (3), +Z (4), -Z (5)
@param mipmap Mipmap level. This goes from 0 for the first, largest
mipmap level to getNumMipmaps()-1 for the smallest.
@returns A shared pointer to a hardware pixel buffer
@remarks The buffer is invalidated when the resource is unloaded or destroyed.
Do not use it after the lifetime of the containing texture.
*/
virtual HardwarePixelBufferSharedPtr getBuffer(size_t face=0, size_t mipmap=0) = 0;
/** Populate an Image with the contents of this texture.
@param destImage The target image (contents will be overwritten)
@param includeMipMaps Whether to embed mipmaps in the image
*/
virtual void convertToImage(Image& destImage, bool includeMipMaps = false);
/** Retrieve a platform or API-specific piece of information from this texture.
This method of retrieving information should only be used if you know what you're doing.
@param name The name of the attribute to retrieve
@param pData Pointer to memory matching the type of data you want to retrieve.
*/
virtual void getCustomAttribute(const String& name, void* pData) {}
protected:
size_t mHeight;
size_t mWidth;
size_t mDepth;
size_t mNumRequestedMipmaps;
size_t mNumMipmaps;
bool mMipmapsHardwareGenerated;
float mGamma;
bool mHwGamma;
uint mFSAA;
String mFSAAHint;
TextureType mTextureType;
PixelFormat mFormat;
int mUsage; // Bit field, so this can't be TextureUsage
PixelFormat mSrcFormat;
size_t mSrcWidth, mSrcHeight, mSrcDepth;
PixelFormat mDesiredFormat;
unsigned short mDesiredIntegerBitDepth;
unsigned short mDesiredFloatBitDepth;
bool mTreatLuminanceAsAlpha;
bool mInternalResourcesCreated;
/// @copydoc Resource::calculateSize
size_t calculateSize(void) const;
/** Implementation of creating internal texture resources
*/
virtual void createInternalResourcesImpl(void) = 0;
/** Implementation of freeing internal texture resources
*/
virtual void freeInternalResourcesImpl(void) = 0;
/** Default implementation of unload which calls freeInternalResources */
void unloadImpl(void);
/** Identify the source file type as a string, either from the extension
or from a magic number.
*/
String getSourceFileType() const;
};
/** Specialisation of SharedPtr to allow SharedPtr to be assigned to TexturePtr
@note Has to be a subclass since we need operator=.
We could templatise this instead of repeating per Resource subclass,
except to do so requires a form VC6 does not support i.e.
ResourceSubclassPtr<T> : public SharedPtr<T>
*/
class _OgreExport TexturePtr : public SharedPtr<Texture>
{
public:
TexturePtr() : SharedPtr<Texture>() {}
explicit TexturePtr(Texture* rep) : SharedPtr<Texture>(rep) {}
TexturePtr(const TexturePtr& r) : SharedPtr<Texture>(r) {}
TexturePtr(const ResourcePtr& r) : SharedPtr<Texture>()
{
// lock & copy other mutex pointer
OGRE_MUTEX_CONDITIONAL(r.OGRE_AUTO_MUTEX_NAME)
{
OGRE_LOCK_MUTEX(*r.OGRE_AUTO_MUTEX_NAME)
OGRE_COPY_AUTO_SHARED_MUTEX(r.OGRE_AUTO_MUTEX_NAME)
pRep = static_cast<Texture*>(r.getPointer());
pUseCount = r.useCountPointer();
if (pUseCount)
{
++(*pUseCount);
}
}
}
/// Operator used to convert a ResourcePtr to a TexturePtr
TexturePtr& operator=(const ResourcePtr& r)
{
if (pRep == static_cast<Texture*>(r.getPointer()))
return *this;
release();
// lock & copy other mutex pointer
OGRE_MUTEX_CONDITIONAL(r.OGRE_AUTO_MUTEX_NAME)
{
OGRE_LOCK_MUTEX(*r.OGRE_AUTO_MUTEX_NAME)
OGRE_COPY_AUTO_SHARED_MUTEX(r.OGRE_AUTO_MUTEX_NAME)
pRep = static_cast<Texture*>(r.getPointer());
pUseCount = r.useCountPointer();
if (pUseCount)
{
++(*pUseCount);
}
}
else
{
// RHS must be a null pointer
assert(r.isNull() && "RHS must be null if it has no mutex!");
setNull();
}
return *this;
}
};
/** @} */
/** @} */
}
#endif
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