/usr/include/octave-4.2.2/octave/profiler.h is in liboctave-dev 4.2.2-1ubuntu1.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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Copyright (C) 2014-2017 Julien Bect
Copyright (C) 2012-2016 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/>.
*/
#if ! defined (octave_profiler_h)
#define octave_profiler_h 1
#include "octave-config.h"
#include <cstddef>
#include <map>
#include <set>
#include <string>
#include <vector>
class octave_value;
class
OCTINTERP_API
profile_data_accumulator
{
public:
// This is a utility class that can be used to call the enter/exit
// functions in a manner protected from stack unwinding.
template <typename T> class enter
{
private:
profile_data_accumulator& acc;
std::string fcn;
bool is_active;
public:
enter (profile_data_accumulator& a, const T& t) : acc (a)
{
// A profiling block cannot be active if the profiler is not
is_active = acc.is_active ();
if (is_active)
{
fcn = t.profiler_name ();
// NOTE: The test f != "" must be kept to prevent a blank line showing
// up in profiler statistics. See bug #39524. The root cause is that
// the function name is not set for the recurring readline hook function.
if (fcn == "")
is_active = false; // Inactive profiling block
else
acc.enter_function (fcn);
}
}
~enter ()
{
if (is_active)
acc.exit_function (fcn);
}
private:
// No copying!
enter (const enter&);
enter& operator = (const enter&);
};
profile_data_accumulator (void);
virtual ~profile_data_accumulator ();
bool is_active (void) const { return enabled; }
void set_active (bool);
void reset (void);
octave_value get_flat (void) const;
octave_value get_hierarchical (void) const;
private:
// One entry in the flat profile (i.e., a collection of data for a single
// function). This is filled in when building the flat profile from the
// hierarchical call tree.
struct stats
{
stats ();
double time;
unsigned calls;
bool recursive;
typedef std::set<octave_idx_type> function_set;
function_set parents;
function_set children;
// Convert a function_set list to an Octave array of indices.
static octave_value function_set_value (const function_set&);
};
typedef std::vector<stats> flat_profile;
// Store data for one node in the call-tree of the hierarchical profiler
// data we collect.
class tree_node
{
public:
tree_node (tree_node*, octave_idx_type);
virtual ~tree_node ();
void add_time (double dt) { time += dt; }
// Enter a child function. It is created in the list of children if it
// wasn't already there. The now-active child node is returned.
tree_node* enter (octave_idx_type);
// Exit function. As a sanity-check, it is verified that the currently
// active function actually is the one handed in here. Returned is the
// then-active node, which is our parent.
tree_node* exit (octave_idx_type);
void build_flat (flat_profile&) const;
// Get the hierarchical profile for this node and its children. If total
// is set, accumulate total time of the subtree in that variable as
// additional return value.
octave_value get_hierarchical (double* total = 0) const;
private:
tree_node* parent;
octave_idx_type fcn_id;
typedef std::map<octave_idx_type, tree_node*> child_map;
child_map children;
// This is only time spent *directly* on this level, excluding children!
double time;
unsigned calls;
// No copying!
tree_node (const tree_node&);
tree_node& operator = (const tree_node&);
};
// Each function we see in the profiler is given a unique index (which
// simply counts starting from 1). We thus have to map profiler-names to
// those indices. For all other stuff, we identify functions by their index.
typedef std::vector<std::string> function_set;
typedef std::map<std::string, octave_idx_type> fcn_index_map;
function_set known_functions;
fcn_index_map fcn_index;
bool enabled;
tree_node* call_tree;
tree_node* active_fcn;
// Store last timestamp we had, when the currently active function was called.
double last_time;
// These are private as only the unwind-protecting inner class enter
// should be allowed to call them.
void enter_function (const std::string&);
void exit_function (const std::string&);
// Query a timestamp, used for timing calls (obviously).
// This is not static because in the future, maybe we want a flag
// in the profiler or something to choose between cputime, wall-time,
// user-time, system-time, ...
double query_time () const;
// Add the time elapsed since last_time to the function we're currently in.
// This is called from two different positions, thus it is useful to have
// it as a seperate function.
void add_current_time (void);
// No copying!
profile_data_accumulator (const profile_data_accumulator&);
profile_data_accumulator& operator = (const profile_data_accumulator&);
};
// The instance used.
extern OCTINTERP_API profile_data_accumulator profiler;
// Helper macro to profile a block of code.
#define BEGIN_PROFILER_BLOCK(classname) \
{ \
profile_data_accumulator::enter<classname> pe (profiler, *this);
#define END_PROFILER_BLOCK \
} // end of block => call pe's destructor
#endif
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