Mercurial > octave-nkf
view scripts/general/profile.m @ 19867:9fc020886ae9
maint: Clean up m-files to follow Octave coding conventions.
Try to trim long lines to < 80 chars.
Use '##' for single line comments.
Use '(...)' around tests for if/elseif/switch/while.
Abut cell indexing operator '{' next to variable.
Abut array indexing operator '(' next to variable.
Use space between negation operator '!' and following expression.
Use two newlines between endfunction and start of %!test or %!demo code.
Remove unnecessary parens grouping between short-circuit operators.
Remove stray extra spaces (typos) between variables and assignment operators.
Remove stray extra spaces from ends of lines.
| author | Rik <rik@octave.org> |
|---|---|
| date | Mon, 23 Feb 2015 14:54:39 -0800 |
| parents | 4197fc428c7d |
| children | 7503499a252b |
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## Copyright (C) 2012-2015 Daniel Kraft ## ## This file is part of Octave. ## ## Octave is free software; you can redistribute it and/or modify it ## under the terms of the GNU General Public License as published by ## the Free Software Foundation; either version 3 of the License, or (at ## your option) any later version. ## ## Octave 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 ## General Public License for more details. ## ## You should have received a copy of the GNU General Public License ## along with Octave; see the file COPYING. If not, see ## <http://www.gnu.org/licenses/>. ## -*- texinfo -*- ## @deftypefn {Command} {} profile on ## @deftypefnx {Command} {} profile off ## @deftypefnx {Command} {} profile resume ## @deftypefnx {Command} {} profile clear ## @deftypefnx {Function File} {@var{S} =} profile ("status") ## @deftypefnx {Function File} {@var{T} =} profile ("info") ## Control the built-in profiler. ## ## @table @code ## @item profile on ## Start the profiler, clearing all previously collected data if there ## is any. ## ## @item profile off ## Stop profiling. The collected data can later be retrieved and examined ## with calls like @code{S = profile ("info")}. ## ## @item profile clear ## Clear all collected profiler data. ## ## @item profile resume ## Restart profiling without cleaning up the old data and instead ## all newly collected statistics are added to the already existing ones. ## ## @item @var{S} = profile ("status") ## Return a structure filled with certain information about the current status ## of the profiler. At the moment, the only field is @code{ProfilerStatus} ## which is either @qcode{"on"} or @qcode{"off"}. ## ## @item @var{T} = profile ("info") ## Return the collected profiling statistics in the structure @var{T}. ## The flat profile is returned in the field @code{FunctionTable} which is an ## array of structures, each entry corresponding to a function which was called ## and for which profiling statistics are present. Furthermore, the field ## @code{Hierarchical} contains the hierarchical call-tree. Each node ## has an index into the @code{FunctionTable} identifying the function it ## corresponds to as well as data fields for number of calls and time spent ## at this level in the call-tree. ## @seealso{profshow, profexplore} ## @end table ## @end deftypefn ## Built-in profiler. ## Author: Daniel Kraft <d@domob.eu> function retval = profile (option) if (nargin != 1) print_usage (); endif switch (option) case "on" __profiler_reset__ (); __profiler_enable__ (true); case "off" __profiler_enable__ (false); case "clear" __profiler_reset__ (); case "resume" __profiler_enable__ (true); case "status" enabled = __profiler_enable__ (); if (enabled) enabled = "on"; else enabled = "off"; endif retval = struct ("ProfilerStatus", enabled); case "info" [flat, tree] = __profiler_data__ (); retval = struct ("FunctionTable", flat, "Hierarchical", tree); otherwise warning ("profile: Unrecognized option '%s'", option); print_usage (); endswitch endfunction %!demo %! profile on; %! A = rand (100); %! B = expm (A); %! profile off; %! profile resume; %! C = sqrtm (A); %! profile off; %! T = profile ("info"); %! profshow (T); %!test %! on_struct.ProfilerStatus = "on"; %! off_struct.ProfilerStatus = "off"; %! profile ("on"); %! result = logm (rand (200) + 10 * eye (200)); %! assert (profile ("status"), on_struct); %! profile ("off"); %! assert (profile ("status"), off_struct); %! profile ("resume"); %! result = logm (rand (200) + 10 * eye (200)); %! profile ("off"); %! assert (profile ("status"), off_struct); %! info = profile ("info"); %! assert (isstruct (info)); %! assert (size (info), [1, 1]); %! assert (fieldnames (info), {"FunctionTable"; "Hierarchical"}); %! ftbl = info.FunctionTable; %! assert (fieldnames (ftbl), {"FunctionName"; "TotalTime"; "NumCalls"; "IsRecursive"; "Parents"; "Children"}); %! hier = info.Hierarchical; %! assert (fieldnames (hier), {"Index"; "SelfTime"; "TotalTime"; "NumCalls"; "Children"}); %! profile ("clear"); %! info = profile ("info"); %! assert (isstruct (info)); %! assert (size (info), [1, 1]); %! assert (fieldnames (info), {"FunctionTable"; "Hierarchical"}); %! ftbl = info.FunctionTable; %! assert (size (ftbl), [0, 1]); %! assert (fieldnames (ftbl), {"FunctionName"; "TotalTime"; "NumCalls"; "IsRecursive"; "Parents"; "Children"}); %! hier = info.Hierarchical; %! assert (size (hier), [0, 1]); %! assert (fieldnames (hier), {"Index"; "SelfTime"; "NumCalls"; "Children"}); ## Test input validation %!error profile () %!error profile ("on", 2) %!error profile ("INVALID_OPTION")