gprofng/src/Stats_data.cc - binutils-gdb - Git at Google

 /* Copyright (C) 2021 Free Software Foundation, Inc.
    Contributed by Oracle.

    This file is part of GNU Binutils.

    This program 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, or (at your option)
    any later version.

    This program 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 this program; if not, write to the Free Software
    Foundation, 51 Franklin Street - Fifth Floor, Boston,
    MA 02110-1301, USA.  */

 #include "config.h"
 //#include <search.h>     //  For the tsearch stuff
 #include <assert.h>
 //#include <stdlib.h>
 #include "Table.h"
 #include "Sample.h"
 #include "Stats_data.h"
 #include "util.h"
 #include "i18n.h"

 //XXX:	The fundamental problem with this package of routines is that
 //XXX:	they should look a lot more like overview data. The result
 //XXX:	is that it is not possible to share as much code as would
 //XXX:	otherwise be possible.

 int
 Stats_data::size ()
 {
   // Return the number of Stats_item values associated with "this".
   if (stats_items == NULL)
     return 0;
   return stats_items->size ();
 }

 Stats_data::Stats_item
 Stats_data::fetch (int index)
 {
   // Routine will return the "index"'th Stats_item associated with "this".
   assert (index >= 0 && index < stats_items->size ());
   return *(stats_items->fetch (index));
 }

 Stats_data::Stats_data ()
 {
   // this constructor for use with sum()
   packets = NULL;
   stats_items = NULL;
 }

 Stats_data::Stats_data (DataView *_packets)
 {
   packets = _packets;
   stats_items = NULL;
   compute_data ();  // reads all data
 }

 Stats_data::~Stats_data ()
 {
   if (stats_items)
     {
       stats_items->destroy ();
       delete stats_items;
     }
 }

 void
 Stats_data::sum (Stats_data *data)
 {
   int index;
   Stats_item *stats_item, *data_item;
   if (stats_items == NULL)
     {
       stats_items = new Vector<Stats_item*>;
       Vec_loop (Stats_item*, data->stats_items, index, data_item)
       {
 	stats_item = create_stats_item (data_item->value.ll, data_item->label);
 	stats_items->append (stats_item);
       }
     }
   else
     {
       Vec_loop (Stats_item*, data->stats_items, index, data_item)
       {
 	stats_items->fetch (index)->value.ll += data_item->value.ll;
       }
     }
 }

 Stats_data::Stats_item *
 Stats_data::create_stats_item (long long v, char *l)
 {
   Stats_data::Stats_item *st_it;
   st_it = new Stats_data::Stats_item;
   st_it->label = l;
   st_it->value.sign = false;
   st_it->value.ll = v;
   st_it->value.tag = VT_LLONG;
   return st_it;
 }

 PrUsage *
 Stats_data::fetchPrUsage (long index)
 {
   // Return the data values corresponding to the "index"'th sample.
   PrUsage *prusage;
   if (packets->getSize () > 0)
     {
       Sample* sample = (Sample*) packets->getObjValue (PROP_SMPLOBJ, index);
       prusage = sample->get_usage ();
       if (prusage != NULL)
 	return prusage;
     }
   return new PrUsage;
 }

 void
 Stats_data::compute_data ()
 {
   Stats_data::Stats_item *stats_item;
   PrUsage *tots, *temp;
   stats_items = new Vector<Stats_data::Stats_item*>;

   // Precomputation is needed.
   long size = packets->getSize ();
   tots = new PrUsage ();
   for (long index = 0; index < size; index++)
     {
       temp = fetchPrUsage (index);
       tots->pr_tstamp += temp->pr_tstamp;
       tots->pr_create += temp->pr_create;
       tots->pr_term += temp->pr_term;
       tots->pr_rtime += temp->pr_rtime;
       tots->pr_utime += temp->pr_utime;
       tots->pr_stime += temp->pr_stime;
       tots->pr_ttime += temp->pr_ttime;
       tots->pr_tftime += temp->pr_tftime;
       tots->pr_dftime += temp->pr_dftime;
       tots->pr_kftime += temp->pr_kftime;
       tots->pr_slptime += temp->pr_slptime;
       tots->pr_ltime += temp->pr_ltime;
       tots->pr_wtime += temp->pr_wtime;
       tots->pr_stoptime += temp->pr_stoptime;
       tots->pr_minf += temp->pr_minf;
       tots->pr_majf += temp->pr_majf;
       tots->pr_nswap += temp->pr_nswap;
       tots->pr_inblk += temp->pr_inblk;
       tots->pr_oublk += temp->pr_oublk;
       tots->pr_msnd += temp->pr_msnd;
       tots->pr_mrcv += temp->pr_mrcv;
       tots->pr_sigs += temp->pr_sigs;
       tots->pr_vctx += temp->pr_vctx;
       tots->pr_ictx += temp->pr_ictx;
       tots->pr_sysc += temp->pr_sysc;
       tots->pr_ioch += temp->pr_ioch;
     }
   stats_item = create_stats_item ((long long) tots->pr_minf,
 				  GTXT ("Minor Page Faults"));
   stats_items->append (stats_item);
   stats_item = create_stats_item ((long long) tots->pr_majf,
 				  GTXT ("Major Page Faults"));
   stats_items->append (stats_item);
   stats_item = create_stats_item ((long long) tots->pr_nswap,
 				  GTXT ("Process swaps"));
   stats_items->append (stats_item);
   stats_item = create_stats_item ((long long) tots->pr_inblk,
 				  GTXT ("Input blocks"));
   stats_items->append (stats_item);
   stats_item = create_stats_item ((long long) tots->pr_oublk,
 				  GTXT ("Output blocks"));
   stats_items->append (stats_item);
   stats_item = create_stats_item ((long long) tots->pr_msnd,
 				  GTXT ("Messages sent"));
   stats_items->append (stats_item);
   stats_item = create_stats_item ((long long) tots->pr_mrcv,
 				  GTXT ("Messages received"));
   stats_items->append (stats_item);
   stats_item = create_stats_item ((long long) tots->pr_sigs,
 				  GTXT ("Signals handled"));
   stats_items->append (stats_item);
   stats_item = create_stats_item ((long long) tots->pr_vctx,
 				  GTXT ("Voluntary context switches"));
   stats_items->append (stats_item);
   stats_item = create_stats_item ((long long) tots->pr_ictx,
 				  GTXT ("Involuntary context switches"));
   stats_items->append (stats_item);
   stats_item = create_stats_item ((long long) tots->pr_sysc,
 				  GTXT ("System calls"));
   stats_items->append (stats_item);
   stats_item = create_stats_item ((long long) tots->pr_ioch,
 				  GTXT ("Characters of I/O"));
   stats_items->append (stats_item);
   delete tots;
 }
	/* Copyright (C) 2021 Free Software Foundation, Inc.
	Contributed by Oracle.

	This file is part of GNU Binutils.

	This program 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, or (at your option)
	any later version.

	This program 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 this program; if not, write to the Free Software
	Foundation, 51 Franklin Street - Fifth Floor, Boston,
	MA 02110-1301, USA. */

	#include "config.h"
	//#include <search.h> // For the tsearch stuff
	#include <assert.h>
	//#include <stdlib.h>
	#include "Table.h"
	#include "Sample.h"
	#include "Stats_data.h"
	#include "util.h"
	#include "i18n.h"

	//XXX: The fundamental problem with this package of routines is that
	//XXX: they should look a lot more like overview data. The result
	//XXX: is that it is not possible to share as much code as would
	//XXX: otherwise be possible.

	int
	Stats_data::size ()
	{
	// Return the number of Stats_item values associated with "this".
	if (stats_items == NULL)
	return 0;
	return stats_items->size ();
	}

	Stats_data::Stats_item
	Stats_data::fetch (int index)
	{
	// Routine will return the "index"'th Stats_item associated with "this".
	assert (index >= 0 && index < stats_items->size ());
	return *(stats_items->fetch (index));
	}

	Stats_data::Stats_data ()
	{
	// this constructor for use with sum()
	packets = NULL;
	stats_items = NULL;
	}

	Stats_data::Stats_data (DataView *_packets)
	{
	packets = _packets;
	stats_items = NULL;
	compute_data (); // reads all data
	}

	Stats_data::~Stats_data ()
	{
	if (stats_items)
	{
	stats_items->destroy ();
	delete stats_items;
	}
	}

	void
	Stats_data::sum (Stats_data *data)
	{
	int index;
	Stats_item stats_item, data_item;
	if (stats_items == NULL)
	{
	stats_items = new Vector<Stats_item*>;
	Vec_loop (Stats_item*, data->stats_items, index, data_item)
	{
	stats_item = create_stats_item (data_item->value.ll, data_item->label);
	stats_items->append (stats_item);
	}
	}
	else
	{
	Vec_loop (Stats_item*, data->stats_items, index, data_item)
	{
	stats_items->fetch (index)->value.ll += data_item->value.ll;
	}
	}
	}

	Stats_data::Stats_item *
	Stats_data::create_stats_item (long long v, char *l)
	{
	Stats_data::Stats_item *st_it;
	st_it = new Stats_data::Stats_item;
	st_it->label = l;
	st_it->value.sign = false;
	st_it->value.ll = v;
	st_it->value.tag = VT_LLONG;
	return st_it;
	}

	PrUsage *
	Stats_data::fetchPrUsage (long index)
	{
	// Return the data values corresponding to the "index"'th sample.
	PrUsage *prusage;
	if (packets->getSize () > 0)
	{
	Sample* sample = (Sample*) packets->getObjValue (PROP_SMPLOBJ, index);
	prusage = sample->get_usage ();
	if (prusage != NULL)
	return prusage;
	}
	return new PrUsage;
	}

	void
	Stats_data::compute_data ()
	{
	Stats_data::Stats_item *stats_item;
	PrUsage tots, temp;
	stats_items = new Vector<Stats_data::Stats_item*>;

	// Precomputation is needed.
	long size = packets->getSize ();
	tots = new PrUsage ();
	for (long index = 0; index < size; index++)
	{
	temp = fetchPrUsage (index);
	tots->pr_tstamp += temp->pr_tstamp;
	tots->pr_create += temp->pr_create;
	tots->pr_term += temp->pr_term;
	tots->pr_rtime += temp->pr_rtime;
	tots->pr_utime += temp->pr_utime;
	tots->pr_stime += temp->pr_stime;
	tots->pr_ttime += temp->pr_ttime;
	tots->pr_tftime += temp->pr_tftime;
	tots->pr_dftime += temp->pr_dftime;
	tots->pr_kftime += temp->pr_kftime;
	tots->pr_slptime += temp->pr_slptime;
	tots->pr_ltime += temp->pr_ltime;
	tots->pr_wtime += temp->pr_wtime;
	tots->pr_stoptime += temp->pr_stoptime;
	tots->pr_minf += temp->pr_minf;
	tots->pr_majf += temp->pr_majf;
	tots->pr_nswap += temp->pr_nswap;
	tots->pr_inblk += temp->pr_inblk;
	tots->pr_oublk += temp->pr_oublk;
	tots->pr_msnd += temp->pr_msnd;
	tots->pr_mrcv += temp->pr_mrcv;
	tots->pr_sigs += temp->pr_sigs;
	tots->pr_vctx += temp->pr_vctx;
	tots->pr_ictx += temp->pr_ictx;
	tots->pr_sysc += temp->pr_sysc;
	tots->pr_ioch += temp->pr_ioch;
	}
	stats_item = create_stats_item ((long long) tots->pr_minf,
	GTXT ("Minor Page Faults"));
	stats_items->append (stats_item);
	stats_item = create_stats_item ((long long) tots->pr_majf,
	GTXT ("Major Page Faults"));
	stats_items->append (stats_item);
	stats_item = create_stats_item ((long long) tots->pr_nswap,
	GTXT ("Process swaps"));
	stats_items->append (stats_item);
	stats_item = create_stats_item ((long long) tots->pr_inblk,
	GTXT ("Input blocks"));
	stats_items->append (stats_item);
	stats_item = create_stats_item ((long long) tots->pr_oublk,
	GTXT ("Output blocks"));
	stats_items->append (stats_item);
	stats_item = create_stats_item ((long long) tots->pr_msnd,
	GTXT ("Messages sent"));
	stats_items->append (stats_item);
	stats_item = create_stats_item ((long long) tots->pr_mrcv,
	GTXT ("Messages received"));
	stats_items->append (stats_item);
	stats_item = create_stats_item ((long long) tots->pr_sigs,
	GTXT ("Signals handled"));
	stats_items->append (stats_item);
	stats_item = create_stats_item ((long long) tots->pr_vctx,
	GTXT ("Voluntary context switches"));
	stats_items->append (stats_item);
	stats_item = create_stats_item ((long long) tots->pr_ictx,
	GTXT ("Involuntary context switches"));
	stats_items->append (stats_item);
	stats_item = create_stats_item ((long long) tots->pr_sysc,
	GTXT ("System calls"));
	stats_items->append (stats_item);
	stats_item = create_stats_item ((long long) tots->pr_ioch,
	GTXT ("Characters of I/O"));
	stats_items->append (stats_item);
	delete tots;
	}