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## Copyright (C) 2012-2020 The Octave Project Developers
##
## See the file COPYRIGHT.md in the top-level directory of this
## distribution or <https://octave.org/copyright/>.
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########################################################################

## -*- texinfo -*-
## @deftypefn  {} {} profshow (@var{data})
## @deftypefnx {} {} profshow (@var{data}, @var{n})
## @deftypefnx {} {} profshow ()
## @deftypefnx {} {} profshow (@var{n})
## Display flat per-function profiler results.
##
## Print out profiler data (execution time, number of calls) for the most
## critical @var{n} functions.  The results are sorted in descending order by
## the total time spent in each function.  If @var{n} is unspecified it
## defaults to 20.
##
## The input @var{data} is the structure returned by @code{profile ("info")}.
## If unspecified, @code{profshow} will use the current profile dataset.
##
## The attribute column displays @samp{R} for recursive functions, and is blank
## for all other function types.
## @seealso{profexplore, profile}
## @end deftypefn

## Built-in profiler.
function profshow (data, n = 20)

  if (nargin > 2)
    print_usage ();
  endif

  if (nargin == 0)
    data = profile ("info");
  elseif (nargin == 1 && ! isstruct (data))
    n = data;
    data = profile ("info");
  endif

  n = fix (n);
  if (! isscalar (n) || ! isreal (n) || ! (n > 0))
    error ("profile: N must be a positive integer");
  endif

  m = length (data.FunctionTable);
  n = min (n, m);

  ## We want to sort by times in descending order.  For this, extract the
  ## times to an array, then sort this, and use the resulting index permutation
  ## to print out our table.
  times = [ data.FunctionTable.TotalTime ];
  totalTime = sum (times);

  [~, p] = sort (times, "descend");

  ## For printing the table, find out the maximum length of a function name
  ## so that we can proportion the table accordingly.  Based on this,
  ## we can build the format used for printing table rows.
  nameLen = max (length ("Function"),
                 columns (char (data.FunctionTable(p(1:n)).FunctionName)));
  headerFormat = sprintf ("%%4s %%%ds %%4s %%12s %%10s %%12s\n", nameLen);
  rowFormat = sprintf ("%%4d %%%ds %%4s %%12.3f %%10.2f %%12d\n", nameLen);

  printf (headerFormat, ...
          "#", "Function", "Attr", "Time (s)", "Time (%)", "Calls");
  printf ("%s\n", repmat ("-", 1, nameLen + 2 * 5 + 11 + 2 * 13));

  for i = 1 : n
    row = data.FunctionTable(p(i));
    timePercent = 100 * row.TotalTime / totalTime;
    attr = "";
    if (row.IsRecursive)
      attr = "R";
    endif
    printf (rowFormat, p(i), row.FunctionName, attr,
            row.TotalTime, timePercent, row.NumCalls);
  endfor

endfunction


%!demo
%! profile on;
%! A = rand (100);
%! B = expm (A);
%! profile off;
%! T = profile ("info");
%! profshow (T, 10);

%!demo
%! profile on;
%! expm (rand (500) + eye (500));
%! profile off;
%! profshow (profile ("info"), 5);

%!error profshow (1, 2, 3)
%!error <N must be a positive integer> profshow (struct (), ones (2))
%!error <N must be a positive integer> profshow (struct (), 1+i)
%!error <N must be a positive integer> profshow (struct (), -1)