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OgreOptimisedUtil.h - Hosted on DriveHQ Cloud IT Platform
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路径: \\game3dprogramming\materials\GameFactory\GameFactoryDemo\references\ogre\include\OgreOptimisedUtil.h
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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) 2000-2006 Torus Knot Software Ltd Also see acknowledgements in Readme.html This program 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 of the License, or (at your option) any later version. This program 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 program; if not, write to the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA, or go to http://www.gnu.org/copyleft/lesser.txt. You may alternatively use this source under the terms of a specific version of the OGRE Unrestricted License provided you have obtained such a license from Torus Knot Software Ltd. ----------------------------------------------------------------------------- */ #ifndef __OptimisedUtil_H__ #define __OptimisedUtil_H__ #include "OgrePrerequisites.h" #include "OgreEdgeListBuilder.h" namespace Ogre { /** Utility class for provides optimised functions. @note This class are supposed used by internal engine only. */ class _OgreExport OptimisedUtil { private: /// Privated copy constructor, to prevent misuse OptimisedUtil(const OptimisedUtil& rhs); /* do nothing, should not use */ /// Privated operator=, to prevent misuse OptimisedUtil& operator=(const OptimisedUtil& rhs); /* do not use */ protected: /// Store a pointer to the implementation static OptimisedUtil* msImplementation; /// Detect best implementation based on run-time environment static OptimisedUtil* _detectImplementation(void); public: // Default constructor OptimisedUtil(void) {} // Destructor virtual ~OptimisedUtil() {} /** Gets the implementation of this class. @note Don't cache the pointer returned by this function, it'll change due run-time environment detection to pick up the best implementation. */ static OptimisedUtil* getImplementation(void) { return msImplementation; } /** Performs software vertex skinning. @param srcPosPtr Pointer to source position buffer. @param destPosPtr Pointer to destination position buffer. @param srcNormPtr Pointer to source normal buffer, if NULL, means blend position only. @param destNormPtr Pointer to destination normal buffer, it's ignored if srcNormPtr is NULL. @param blendWeightPtr Pointer to blend weight buffer. @param blendIndexPtr Pointer to blend index buffer. @param blendMatrices An array of pointer of blend matrix, the matrix must be aligned to SIMD alignment, but not necessary for the array itself. @param srcPosStride The stride of source position in bytes. @param destPosStride The stride of destination position in bytes. @param srcNormStride The stride of source normal in bytes, it's ignored if srcNormPtr is NULL. @param destNormStride The stride of destination normal in bytes, it's ignored if srcNormPtr is NULL. @param blendWeightStride The stride of blend weight buffer in bytes. @param blendIndexStride The stride of blend index buffer in bytes. @param numWeightsPerVertex Number of blend weights per-vertex, as well as for blend indices. @param numVertices Number of vertices to blend. */ virtual void softwareVertexSkinning( const float *srcPosPtr, float *destPosPtr, const float *srcNormPtr, float *destNormPtr, const float *blendWeightPtr, const unsigned char* blendIndexPtr, const Matrix4* const* blendMatrices, size_t srcPosStride, size_t destPosStride, size_t srcNormStride, size_t destNormStride, size_t blendWeightStride, size_t blendIndexStride, size_t numWeightsPerVertex, size_t numVertices) = 0; /** Performs a software vertex morph, of the kind used for morph animation although it can be used for other purposes. @remarks This function will linearly interpolate positions between two source buffers, into a third buffer. @param t Parametric distance between the start and end positions @param srcPos1 Pointer to buffer for the start positions @param srcPos2 Pointer to buffer for the end positions @param dstPos Pointer to buffer for the destination positions @param numVertices Number of vertices to morph, which agree with the number in start, end and destination buffer. Bear in mind three floating-point values per vertex */ virtual void softwareVertexMorph( Real t, const float *srcPos1, const float *srcPos2, float *dstPos, size_t numVertices) = 0; /** Concatenate an affine matrix to an array of affine matrices. @note An affine matrix is a 4x4 matrix with row 3 equal to (0, 0, 0, 1), e.g. no projective coefficients. @param baseMatrix The matrix used as first operand. @param srcMatrices An array of matrix used as second operand. @param dstMatrices An array of matrix to store matrix concatenate results. @param numMatrices Number of matrices in the array. */ virtual void concatenateAffineMatrices( const Matrix4& baseMatrix, const Matrix4* srcMatrices, Matrix4* dstMatrices, size_t numMatrices) = 0; /** Calculate the face normals for the triangles based on position information. @param positions Pointer to position information, which packed in (x, y, z) format, indexing by vertex index in the triangle. No alignment requests. @param triangles The triangles need to calculate face normal, the vertex positions is indexed by vertex index to position information. @param faceNormals The array of Vector4 used to store triangles face normal, Must be aligned to SIMD alignment. @param numTriangles Number of triangles to calculate face normal. */ virtual void calculateFaceNormals( const float *positions, const EdgeData::Triangle *triangles, Vector4 *faceNormals, size_t numTriangles) = 0; /** Calculate the light facing state of the triangle's face normals @remarks This is normally the first stage of calculating a silhouette, ie establishing which tris are facing the light and which are facing away. @param lightPos 4D position of the light in object space, note that for directional lights (which have no position), the w component is 0 and the x/y/z position are the direction. @param faceNormals An array of face normals for the triangles, the face normal are unit vector othogonal to the triangles, plus distance from origin. This array must be aligned to SIMD alignment. @param lightFacings An array of flags for store light facing state results, the result flag is true if corresponding face normal facing the light, false otherwise. This array no alignment requires. @param numFaces Number of face normals to calculate. */ virtual void calculateLightFacing( const Vector4& lightPos, const Vector4* faceNormals, char* lightFacings, size_t numFaces) = 0; /** Extruding vertices by a fixed distance based on light position. @param lightPos 4D light position, when w=0.0f this represents a directional light, otherwise, w must be equal to 1.0f, which represents a point light. @param extrudeDist The distance to extrude. @param srcPositions Pointer to source vertex's position buffer, which the position is a 3D vector packed in xyz format. No SIMD alignment requirement but loss performance for unaligned data. @param destPositions Pointer to destination vertex's position buffer, which the position is a 3D vector packed in xyz format. No SIMD alignment requirement but loss performance for unaligned data. @param numVertices Number of vertices need to extruding, which agree with source and destination buffers. */ virtual void extrudeVertices( const Vector4& lightPos, Real extrudeDist, const float* srcPositions, float* destPositions, size_t numVertices) = 0; }; /** Returns raw offseted of the given pointer. @note The offset are in bytes, no matter what type of the pointer. */ template
static FORCEINLINE T* rawOffsetPointer(T* ptr, ptrdiff_t offset) { return (T*)((char*)(ptr) + offset); } /** Advance the pointer with raw offset. @note The offset are in bytes, no matter what type of the pointer. */ template
static FORCEINLINE void advanceRawPointer(T*& ptr, ptrdiff_t offset) { ptr = rawOffsetPointer(ptr, offset); } } #endif // __OptimisedUtil_H__
OgreOptimisedUtil.h
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