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amiro-os / include / Matrix.h @ d607fcef

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#ifndef MATRIX_H_
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#define MATRIX_H_
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#include <algorithm> // std::fill, std::copy
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namespace Matrix {
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  typedef unsigned int uint;
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  /**
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    * Multiplication of two matrices Z=X*Y
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    *
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    * @param *X Pointer to first element of first matrix
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    * @param Xrows Rows of X
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    * @param Xcols Cols of X
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    * @param *Y Pointer to first element of second matrix
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    * @param Yrows Rows of Y
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    * @param Ycols Cols of Y
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    * @param *Z Pointer to first element of result matrix (needs to be init with 0)
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    * @param Zrows Rows of Z
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    * @param Zcols Cols of Z
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    */
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  template <typename T>
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  void XdotY(T* X,uint Xrows,uint Xcols,T* Y,uint Yrows, uint Ycols,T* Z, uint Zrows,uint Zcols) {
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    // Check if the multiplication will work
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//       if (Zrows != Xrows || Zcols != Ycols || Xcols != Yrows) {
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//   return 1;
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//       }
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    // Do the multiplication
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    // Z_{i,k} = sum_{n} X_{i,n} * Y_{n,k}
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    for (uint i = 0; i < Zrows; i++) {
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      for (uint k = 0; k < Zcols; k++) {
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  for (uint n = 0; n < Xcols; n++) {
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    Z[i*Zcols+k] += X[i*Xcols+n] * Y[n*Ycols+k];
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  }
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      }
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    }
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//       return 0;
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  };
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  /**
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    * Multiplication of two matrices Z=X*Y^{T},
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    * while Y will be transposed during calculation
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    *
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    * @param *X Pointer to first element of first matrix
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    * @param Xrows Rows of X
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    * @param Xcols Cols of X
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    * @param *Y Pointer to first element of second matrix
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    * @param Yrows Rows of Y
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    * @param Ycols Cols of Y
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    * @param *Z Pointer to first element of result matrix (needs to be init with 0)
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    * @param Zrows Rows of Z
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    * @param Zcols Cols of Z
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    */
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  template <typename T>
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  void XdotYtrans(T* X,uint Xrows,uint Xcols,T* Y,uint Yrows, uint Ycols,T* Z, uint Zrows,uint Zcols) {
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    // Check if the multiplication will work
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//       if (Zrows != Xrows || Zcols != Yrows || Xcols != Ycols) {
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//   return 1;
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//       }
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    // Do the multiplication
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    // Z_{i,k} = sum_{n} X_{i,n} * Y_{k,n}
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    for (uint i = 0; i < Zrows; i++) {
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      for (uint k = 0; k < Zcols; k++) {
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  for (uint n = 0; n < Xcols; n++) {
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    Z[i*Zcols+k] += X[i*Xcols+n] * Y[n+k*Ycols];
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  }
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      }
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    }
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//       return 0;
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  };
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/**
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    * Multiplication of two matrices Z=X^{T}*Y,
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    * while X will be transposed during calculation
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    *
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    * @param *X Pointer to first element of first of matrix
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    * @param Xrows Rows of X
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    * @param Xcols Cols of X
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    * @param *Y Pointer to first element of second matrix
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    * @param Yrows Rows of Y
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    * @param Ycols Cols of Y
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    * @param *Z Pointer to first element of result matrix (needs to be init with 0)
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    * @param Zrows Rows of Z
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    * @param Zcols Cols of Z
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    */
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  template <typename T>
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  void XtransDotY(T* X, uint Xrows,uint Xcols,T* Y,uint Yrows, uint Ycols,T* Z, uint Zrows,uint Zcols) {
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    // Check if the multiplication will work
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//       if (Zrows != Xrows || Zcols != Yrows || Xcols != Ycols) {
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//   return 1;
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//       }
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    // Do the multiplication
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    // Z_{i,k} = sum_{n} X_{n,i} * Y_{k,n}
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    for (uint i = 0; i < Zrows; i++) {
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      for (uint k = 0; k < Zcols; k++) {
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        for (uint n = 0; n < Xcols; n++) {
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          Z[i*Zcols+k] += X[n*Xcols+i] * Y[n+k*Ycols];
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        }
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      }
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    }
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//       return 0;
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  };
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    /**
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    * Addition of two matrices Z=X+Y,
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    *
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    * @param *X Pointer to first element of first matrix
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    * @param Xrows Rows of X
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    * @param Xcols Cols of X
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    * @param *Y Pointer to first element of second matrix
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    * @param Yrows Rows of Y
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    * @param Ycols Cols of Y
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    * @param *Z Pointer to first element of result matrix (needs to be init with 0)
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    * @param Zrows Rows of Z
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    * @param Zcols Cols of Z
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    */
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  template <typename T>
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  void XplusY(T* X,uint Xrows,uint Xcols,T* Y,uint Yrows, uint Ycols,T* Z, uint Zrows,uint Zcols) {
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    // Check if the multiplication will work
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//       if (Zrows != Xrows || Xrows != Yrows || Zcols != Ycols || Ycols != Xcols {
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//   return 1;
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//       }
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    // Do the summation
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  for (uint idx = 0; idx < Xrows*Xcols; idx++) {
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      Z[idx] += X[idx] + Y[idx];
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    }
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//       return 0;
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  };
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  /**
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    * Initializing matrix with any element
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    *
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    * @param *X Pointer to first element of first matrix
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    * @param Xrows Rows of X
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    * @param Xcols Cols of X
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    * @param value value of all elements
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    */
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  template <typename T>
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  void init(T* X, uint Xrows, uint Xcols, T value) {
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    std::fill (X,X+Xrows*Xcols,value);
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  };
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  /**
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    * Copy a matrix Y=X
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    *
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    * @param *X Pointer to first element of source matrix
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    * @param Xrows Rows of X
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    * @param Xcols Cols of X
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    * @param *Y Pointer to first element of result matrix
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    * @param Yrows Rows of Y
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    * @param Ycols Cols of Y
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    *
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    */
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  template <typename T>
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  void copy(T* X, uint Xrows, uint Xcols, T* Y, uint Yrows, uint Ycols) {
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    // if (Xrows != Yrows || Xcols != Ycols ) {
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//         return 1;
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//       }
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    std::copy (X,X+Xrows*Xcols,Y);
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//       return 0;
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  };
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}
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#endif /* MATRIX_ */