\section{Utilities} \label{sec:util} We have some utitlities available for input and output of sparsematrices; the interfaces to these routines are available in the module \verb|psb_util_mod|. %% \subroutine{}{Sorting utilities} %% \subroutine*{psb\_msort}{Sorting by the Merge-sort algorithm} %% \subroutine*{psb\_qsort}{Sorting by the Quicksort algorithm} %% \syntax{call psb\_msort}{x,ix,dir,flag} %% \syntax*{call psb\_qsort}{x,ix,dir,flag} %% These serial routines sort a sequence $X$ into ascending or %% descending order. The argument meaning is identical for the two %% calls; the only difference is the algorithm used to accomplish the %% task (see Usage Notes below). %% \begin{description} %% \item[\bf On Entry ] %% \item[x] The sequence to be sorted.\\ %% Type:{\bf required}.\\ %% Specified as: an integer array of rank 1. %% \item[ix] A vector of indices.\\ %% Type:{\bf optional}.\\ %% Specified as: an integer array of (at least) the same size as $X$. %% \item[dir] The desired ordering.\\ %% Type:{\bf optional}.\\ %% Specified as: an integer value \verb|psb_sort_up_| or %% \verb|psb_sort_down_|; default \verb|psb_sort_up_|. %% \item[flag] Whether to keep the original values in $IX$.\\ %% Type:{\bf optional}.\\ %% Specified as: an integer value \verb|psb_sort_ovw_idx_| or %% \verb|psb_sort_keep_idx_|; default \verb|psb_sort_ovw_idx_|. %% \end{description} %% \begin{description} %% \item[\bf On Return] %% \item[x] The sequence of values, in the chosen ordering.\\ %% Type:{\bf required}.\\ %% Specified as: an integer array of rank 1. %% \item[ix] A vector of indices.\\ %% Type: {\bf Optional} \\ %% An integer array of rank 1, whose entries are moved to the same %% position as the corresponding entries in $x$. %% \end{description} %% \section*{Usage notes} %% \begin{enumerate} %% \item The two routines return the items in the chosen ordering; the %% only output difference is the handling of ties (i.e. items with an %% equal value) in the original input. With the merge-sort algorithm %% ties are preserved in the same order as they had in the original %% sequence, while this is not guaranteed for quicksort %% \item If $flag = psb\_sort\_ovw\_idx\_$ then the entries in $ix(1:n)$ %% where $n$ is the size of $x$ are initialized to $ix(i) \leftarrow %% i$; thus, upon return from the subroutine, for each %% index $i$ we have in $ix(i)$ the position that the item $x(i)$ %% occupied in the original data sequence; %% \item If $flag = psb\_sort\_keep\_idx\_$ the routine will assume that %% the entries in $ix(:)$ have already been initialized by the user; %% \item The two sorting algorithms have a similar $O(n \log n)$ expected %% running time; in the average case quicksort will be the %% fastest. However note that: %% \begin{enumerate} %% \item The worst case running time for quicksort is $O(n^2)$; the algorithm %% implemented here follows the well-known median-of-three heuristics, %% but the worst case may still apply; %% \item The worst case running time for merge-sort is the same as the %% average case; %% \item The merge-sort algorithm is implemented to take advantage of %% subsequences that may be already in the desired ordering at the %% beginning; this situation is relatively common when dealing with %% indices of sparse matrix entries, thus merge-sort is the %% preferred choice when a sorting is needed by other routines in the %% library. %% \end{enumerate} %% \end{enumerate} %\subroutine{PSB\_HBIO\_MOD}{Input/Output in Harwell-Boeing format} \subroutine{hb\_read}{Read a sparse matrix from a file in the Harwell--Boeing format} \syntax{call hb\_read}{a, iret, iunit, filename, b, mtitle} \begin{description} \item[Type:] Asynchronous. \item[\bf On Entry ] \item[filename] The name of the file to be read.\\ Type:{\bf optional}.\\ Specified as: a character variable containing a valid file name, or \verb|-|, in which case the default input unit 5 (i.e. standard input in Unix jargon) is used. Default: \verb|-|. \item[iunit] The Fortran file unit number.\\ Type:{\bf optional}.\\ Specified as: an integer value. Only meaningful if filename is not \verb|-|. \end{description} \begin{description} \item[\bf On Return] \item[a] the sparse matrix read from file.\\ Type:{\bf required}.\\ Specified as: a structured data of type \spdata. \item[b] Rigth hand side.\\ Type: {\bf Optional} \\ An array of type real or complex, rank 1 and having the ALLOCATABLE attribute; will be allocated and filled in if the input file contains a right hand side. \item[mtitle] Matrix title.\\ Type: {\bf Optional} \\ A charachter variable of length 72 holding a copy of the matrix title as specified by the Harwell-Boeing format and contained in the input file. \item[iret] Error code.\\ Type: {\bf required} \\ An integer value; 0 means no error has been detected. \end{description} \subroutine{hb\_write}{Write a sparse matrix to a file in the Harwell--Boeing format} \syntax{call hb\_write}{a, iret, iunit, filename, key, rhs, mtitle} \begin{description} \item[Type:] Asynchronous. \item[\bf On Entry ] \item[a] the sparse matrix to be written.\\ Type:{\bf required}.\\ Specified as: a structured data of type \spdata. \item[b] Rigth hand side.\\ Type: {\bf Optional} \\ An array of type real or complex, rank 1 and having the ALLOCATABLE attribute; will be allocated and filled in if the input file contains a right hand side. \item[filename] The name of the file to be written to.\\ Type:{\bf optional}.\\ Specified as: a character variable containing a valid file name, or \verb|-|, in which case the default output unit 6 (i.e. standard output in Unix jargon) is used. Default: \verb|-|. \item[iunit] The Fortran file unit number.\\ Type:{\bf optional}.\\ Specified as: an integer value. Only meaningful if filename is not \verb|-|. \item[key] Matrix key.\\ Type: {\bf Optional} \\ A charachter variable of length 8 holding the matrix key as specified by the Harwell-Boeing format and to be written to file. \item[mtitle] Matrix title.\\ Type: {\bf Optional} \\ A charachter variable of length 72 holding the matrix title as specified by the Harwell-Boeing format and to be written to file. \end{description} \begin{description} \item[\bf On Return] \item[iret] Error code.\\ Type: {\bf required} \\ An integer value; 0 means no error has been detected. \end{description} %\subroutine{PSB\_MMIO\_MOD}{Input/Output in MatrixMarket format} \subroutine{mm\_mat\_read}{Read a sparse matrix from a file in the MatrixMarket format} \syntax{call mm\_mat\_read}{a, iret, iunit, filename} \begin{description} \item[Type:] Asynchronous. \item[\bf On Entry ] \item[filename] The name of the file to be read.\\ Type:{\bf optional}.\\ Specified as: a character variable containing a valid file name, or \verb|-|, in which case the default input unit 5 (i.e. standard input in Unix jargon) is used. Default: \verb|-|. \item[iunit] The Fortran file unit number.\\ Type:{\bf optional}.\\ Specified as: an integer value. Only meaningful if filename is not \verb|-|. \end{description} \begin{description} \item[\bf On Return] \item[a] the sparse matrix read from file.\\ Type:{\bf required}.\\ Specified as: a structured data of type \spdata. \item[iret] Error code.\\ Type: {\bf required} \\ An integer value; 0 means no error has been detected. \end{description} \subroutine{mm\_mat\_write}{Write a sparse matrix to a file in the MatrixMarket format} \syntax{call mm\_mat\_write}{a, mtitle, iret, iunit, filename} \begin{description} \item[Type:] Asynchronous. \item[\bf On Entry ] \item[a] the sparse matrix to be written.\\ Type:{\bf required}.\\ Specified as: a structured data of type \spdata. \item[mtitle] Matrix title.\\ Type: {\bf required} \\ A charachter variable holding a descriptive title for the matrix to be written to file. \item[filename] The name of the file to be written to.\\ Type:{\bf optional}.\\ Specified as: a character variable containing a valid file name, or \verb|-|, in which case the default output unit 6 (i.e. standard output in Unix jargon) is used. Default: \verb|-|. \item[iunit] The Fortran file unit number.\\ Type:{\bf optional}.\\ Specified as: an integer value. Only meaningful if filename is not \verb|-|. \end{description} \begin{description} \item[\bf On Return] \item[iret] Error code.\\ Type: {\bf required} \\ An integer value; 0 means no error has been detected. \end{description} %%% Local Variables: %%% mode: latex %%% TeX-master: "userguide" %%% End: