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Diffstat (limited to 'htk_io/src/KaldiLib/Vector.h')
| -rw-r--r-- | htk_io/src/KaldiLib/Vector.h | 496 |
1 files changed, 496 insertions, 0 deletions
diff --git a/htk_io/src/KaldiLib/Vector.h b/htk_io/src/KaldiLib/Vector.h new file mode 100644 index 0000000..384c5d2 --- /dev/null +++ b/htk_io/src/KaldiLib/Vector.h @@ -0,0 +1,496 @@ +// +// C++ Interface: %{MODULE} +// +// Description: +// +// +// Author: %{AUTHOR} <%{EMAIL}>, (C) %{YEAR} +// +// Copyright: See COPYING file that comes with this distribution +// +// + +#ifndef TNet_Vector_h +#define TNet_Vector_h + +#include <cstddef> +#include <cstdlib> +#include <stdexcept> +#include <iostream> + +#ifdef HAVE_ATLAS +extern "C"{ + #include <cblas.h> + #include <clapack.h> +} +#endif + +#include "Common.h" +#include "MathAux.h" +#include "Types.h" +#include "Error.h" + +namespace TNet +{ + template<typename _ElemT> class Vector; + template<typename _ElemT> class SubVector; + template<typename _ElemT> class Matrix; + template<typename _ElemT> class SpMatrix; + + // we need to declare the friend functions here + template<typename _ElemT> + std::ostream & operator << (std::ostream & rOut, const Vector<_ElemT> & rV); + + template<typename _ElemT> + std::istream & operator >> (std::istream & rIn, Vector<_ElemT> & rV); + + template<typename _ElemT> + _ElemT + BlasDot(const Vector<_ElemT>& rA, const Vector<_ElemT>& rB); + + /** ************************************************************************** + ** ************************************************************************** + * @brief Provides a matrix abstraction class + * + * This class provides a way to work with matrices in TNet. + * It encapsulates basic operations and memory optimizations. + * + */ + template<typename _ElemT> + class Vector + { + public: + + /// defines a type of this + typedef Vector<_ElemT> ThisType; + + + Vector(): mpData(NULL) +#ifdef STK_MEMALIGN_MANUAL + ,mpFreeData(NULL) +#endif + , mDim(0) + {} + + /** + * @brief Copy constructor + * @param rV + */ + Vector(const Vector<_ElemT>& rV) + { mpData=NULL; Init(rV.Dim()); Copy(rV); } + + + /* Type conversion constructor. */ + template<typename _ElemU> + explicit Vector(const Vector<_ElemU>& rV) + { mpData=NULL; Init(rV.Dim()); Copy(rV); } + + + Vector(const _ElemT* ppData, const size_t s) + { mpData=NULL; Init(s); Copy(ppData); } + + explicit Vector(const size_t s, bool clear=true) + { mpData=NULL; Init(s,clear); } + + ~Vector() + { Destroy(); } + + Vector<_ElemT> &operator = (const Vector <_ElemT> &other) + { Init(other.Dim()); Copy(other); return *this; } // Needed for inclusion in std::vector + + Vector<_ElemT>& + Init(size_t length, bool clear=true); + + /** + * @brief Dealocates the window from memory and resets the dimensions to (0) + */ + void + Destroy(); + + /** + * @brief Returns @c true if vector is initialized + */ + bool + IsInitialized() const + { return mpData != NULL; } + + /** + * @brief Sets all elements to 0 + */ + void + Zero(); + + void + Set(_ElemT f); + + inline size_t + Dim() const + { return mDim; } + + /** + * @brief Returns size of matrix in memory (in bytes) + */ + inline size_t + MSize() const + { + return (mDim + (((16 / sizeof(_ElemT)) - mDim%(16 / sizeof(_ElemT))) + % (16 / sizeof(_ElemT)))) * sizeof(_ElemT); + } + + /** + * @brief Gives access to the vector memory area + * @return pointer to the first field + */ + inline _ElemT* + pData() + { return mpData; } + + /** + * @brief Gives access to the vector memory area + * @return pointer to the first field (const version) + */ + inline const _ElemT* + pData() const + { return mpData; } + + /** + * @brief Gives access to a specified vector element (const). + */ + inline _ElemT + operator [] (size_t i) const + { +#ifdef PARANOID + assert(i<mDim); +#endif + return *(mpData + i); + } + + /** + * @brief Gives access to a specified vector element (non-const). + */ + inline _ElemT & + operator [] (size_t i) + { +#ifdef PARANOID + assert(i<mDim); +#endif + return *(mpData + i); + } + + /** + * @brief Gives access to a specified vector element (const). + */ + inline _ElemT + operator () (size_t i) const + { +#ifdef PARANOID + assert(i<mDim); +#endif + return *(mpData + i); + } + + /** + * @brief Gives access to a specified vector element (non-const). + */ + inline _ElemT & + operator () (size_t i) + { +#ifdef PARANOID + assert(i<mDim); +#endif + return *(mpData + i); + } + + /** + * @brief Returns a matrix sub-range + * @param o Origin + * @param l Length + * See @c SubVector class for details + */ + SubVector<_ElemT> + Range(const size_t o, const size_t l) + { return SubVector<_ElemT>(*this, o, l); } + + /** + * @brief Returns a matrix sub-range + * @param o Origin + * @param l Length + * See @c SubVector class for details + */ + const SubVector<_ElemT> + Range(const size_t o, const size_t l) const + { return SubVector<_ElemT>(*this, o, l); } + + + + //######################################################################## + //######################################################################## + + /// Copy data from another vector + Vector<_ElemT>& + Copy(const Vector<_ElemT>& rV); + + /// Copy data from another vector of a different type. + template<typename _ElemU> Vector<_ElemT>& + Copy(const Vector<_ElemU>& rV); + + + /// Load data into the vector + Vector<_ElemT>& + Copy(const _ElemT* ppData); + + Vector<_ElemT>& + CopyVectorizedMatrixRows(const Matrix<_ElemT> &rM); + + Vector<_ElemT>& + RemoveElement(size_t i); + + Vector<_ElemT>& + ApplyLog(); + + Vector<_ElemT>& + ApplyLog(const Vector<_ElemT>& rV);//ApplyLog to rV and put the result in (*this) + + Vector<_ElemT>& + ApplyExp(); + + Vector<_ElemT>& + ApplySoftMax(); + + Vector<_ElemT>& + Invert(); + + Vector<_ElemT>& + DotMul(const Vector<_ElemT>& rV); // Multiplies each element (*this)(i) by rV(i). + + Vector<_ElemT>& + BlasAxpy(const _ElemT alpha, const Vector<_ElemT>& rV); + + Vector<_ElemT>& + BlasGemv(const _ElemT alpha, const Matrix<_ElemT>& rM, const MatrixTrasposeType trans, const Vector<_ElemT>& rV, const _ElemT beta = 0.0); + + + //######################################################################## + //######################################################################## + + Vector<_ElemT>& + Add(const Vector<_ElemT>& rV) + { return BlasAxpy(1.0, rV); } + + Vector<_ElemT>& + Subtract(const Vector<_ElemT>& rV) + { return BlasAxpy(-1.0, rV); } + + Vector<_ElemT>& + AddScaled(_ElemT alpha, const Vector<_ElemT>& rV) + { return BlasAxpy(alpha, rV); } + + Vector<_ElemT>& + Add(_ElemT c); + + Vector<_ElemT>& + MultiplyElements(const Vector<_ElemT>& rV); + + // @brief elementwise : rV.*rR+beta*this --> this + Vector<_ElemT>& + MultiplyElements(_ElemT alpha, const Vector<_ElemT>& rV, const Vector<_ElemT>& rR,_ElemT beta); + + Vector<_ElemT>& + DivideElements(const Vector<_ElemT>& rV); + + /// @brief elementwise : rV./rR+beta*this --> this + Vector<_ElemT>& + DivideElements(_ElemT alpha, const Vector<_ElemT>& rV, const Vector<_ElemT>& rR,_ElemT beta); + + Vector<_ElemT>& + Subtract(_ElemT c); + + Vector<_ElemT>& + Scale(_ElemT c); + + + //######################################################################## + //######################################################################## + + /// Performs a row stack of the matrix rMa + Vector<_ElemT>& + MatrixRowStack(const Matrix<_ElemT>& rMa); + + // Extracts a row of the matrix rMa. .. could also do this with vector.Copy(rMa[row]). + Vector<_ElemT>& + Row(const Matrix<_ElemT>& rMa, size_t row); + + // Extracts a column of the matrix rMa. + Vector<_ElemT>& + Col(const Matrix<_ElemT>& rMa, size_t col); + + // Takes all elements to a power. + Vector<_ElemT>& + Power(_ElemT power); + + _ElemT + Max() const; + + _ElemT + Min() const; + + /// Returns sum of the elements + _ElemT + Sum() const; + + /// Returns sum of the elements + Vector<_ElemT>& + AddRowSum(const Matrix<_ElemT>& rM); + + /// Returns sum of the elements + Vector<_ElemT>& + AddColSum(const Matrix<_ElemT>& rM); + + /// Returns log(sum(exp())) without exp overflow + _ElemT + LogSumExp() const; + + //######################################################################## + //######################################################################## + + friend std::ostream & + operator << <> (std::ostream& rOut, const Vector<_ElemT>& rV); + + friend _ElemT + BlasDot<>(const Vector<_ElemT>& rA, const Vector<_ElemT>& rB); + + /** + * Computes v1^T * M * v2. + * Not as efficient as it could be where v1==v2 (but no suitable blas + * routines available). + */ + _ElemT + InnerProduct(const Vector<_ElemT> &v1, const Matrix<_ElemT> &M, const Vector<_ElemT> &v2) const; + + + //########################################################################## + //########################################################################## + //protected: + public: + /// data memory area + _ElemT* mpData; +#ifdef STK_MEMALIGN_MANUAL + /// data to be freed (in case of manual memalignment use, see common.h) + _ElemT* mpFreeData; +#endif + size_t mDim; ///< Number of elements + }; // class Vector + + + + + /** + * @brief Represents a non-allocating general vector which can be defined + * as a sub-vector of higher-level vector + */ + template<typename _ElemT> + class SubVector : public Vector<_ElemT> + { + protected: + /// Constructor + SubVector(const Vector<_ElemT>& rT, + const size_t origin, + const size_t length) + { + assert(origin+length <= rT.mDim); + Vector<_ElemT>::mpData = rT.mpData+origin; + Vector<_ElemT>::mDim = length; + } + //only Vector class can call this protected constructor + friend class Vector<_ElemT>; + + public: + /// Constructor + SubVector(Vector<_ElemT>& rT, + const size_t origin, + const size_t length) + { + assert(origin+length <= rT.mDim); + Vector<_ElemT>::mpData = rT.mpData+origin; + Vector<_ElemT>::mDim = length; + } + + + /** + * @brief Constructs a vector representation out of a standard array + * + * @param pData pointer to data array to associate with this vector + * @param length length of this vector + */ + inline + SubVector(_ElemT *ppData, + size_t length) + { + Vector<_ElemT>::mpData = ppData; + Vector<_ElemT>::mDim = length; + } + + + /** + * @brief Destructor + */ + ~SubVector() + { + Vector<_ElemT>::mpData = NULL; + } + }; + + + // Useful shortcuts + typedef Vector<BaseFloat> BfVector; + typedef SubVector<BaseFloat> BfSubVector; + + //Adding two vectors of different types + template <typename _ElemT, typename _ElemU> + void Add(Vector<_ElemT>& rDst, const Vector<_ElemU>& rSrc) + { + assert(rDst.Dim() == rSrc.Dim()); + const _ElemU* p_src = rSrc.pData(); + _ElemT* p_dst = rDst.pData(); + + for(size_t i=0; i<rSrc.Dim(); i++) { + *p_dst++ += (_ElemT)*p_src++; + } + } + + + //Scales adding two vectors of different types + template <typename _ElemT, typename _ElemU> + void AddScaled(Vector<_ElemT>& rDst, const Vector<_ElemU>& rSrc, _ElemT scale) + { + assert(rDst.Dim() == rSrc.Dim()); + + Vector<_ElemT> tmp(rSrc); + rDst.BlasAxpy(scale, tmp); + +/* + const _ElemU* p_src = rSrc.pData(); + _ElemT* p_dst = rDst.pData(); + + for(size_t i=0; i<rDst.Dim(); i++) { + *p_dst++ += *p_src++ * scale; + } +*/ + } + + +} // namespace TNet + +//***************************************************************************** +//***************************************************************************** +// we need to include the implementation +#include "Vector.tcc" + +/****************************************************************************** + ****************************************************************************** + * The following section contains specialized template definitions + * whose implementation is in Vector.cc + */ + + +#endif // #ifndef TNet_Vector_h |