oprofile-0.9.7/pp/opreport.cpp - nest-learning-thermostat/5.1.1/oprofile - Git at Google

 /**
  * @file opreport.cpp
  * Implement opreport utility
  *
  * @remark Copyright 2003 OProfile authors
  * @remark Read the file COPYING
  *
  * @author John Levon
  * @author Philippe Elie
  */

 #include <iostream>
 #include <iomanip>
 #include <vector>
 #include <algorithm>
 #include <sstream>
 #include <numeric>

 #include "op_exception.h"
 #include "stream_util.h"
 #include "string_manip.h"
 #include "file_manip.h"
 #include "opreport_options.h"
 #include "op_header.h"
 #include "profile.h"
 #include "populate.h"
 #include "arrange_profiles.h"
 #include "profile_container.h"
 #include "callgraph_container.h"
 #include "diff_container.h"
 #include "symbol_sort.h"
 #include "format_output.h"
 #include "xml_utils.h"
 #include "image_errors.h"

 using namespace std;

 namespace {

 static size_t nr_classes;

 /// storage for a merged file summary
 struct summary {
 	count_array_t counts;
 	string lib_image;

 	bool operator<(summary const & rhs) const {
 		return options::reverse_sort
 		    ? counts[0] < rhs.counts[0] : rhs.counts[0] < counts[0];
 	}

 	/// add a set of files to a summary
 	count_type add_files(list<profile_sample_files> const & files,
 	                     size_t pclass);
 };


 count_type summary::
 add_files(list<profile_sample_files> const & files, size_t pclass)
 {
 	count_type subtotal = 0;

 	list<profile_sample_files>::const_iterator it = files.begin();
 	list<profile_sample_files>::const_iterator const end = files.end();

 	for (; it != end; ++it) {
 		count_type count = profile_t::sample_count(it->sample_filename);
 		counts[pclass] += count;
 		subtotal += count;

 		if (!it->cg_files.empty()) {
 			throw op_runtime_error("opreport.cpp::add_files(): "
 			       "unxpected non empty cg file set");
 		}
 	}

 	return subtotal;
 }


 /**
  * Summary of an application: a set of image summaries
  * for one application, i.e. an application image and all
  * dependent images such as libraries.
  */
 struct app_summary {
 	/// total count of us and all dependents
 	count_array_t counts;
 	/// the main image
 	string image;
 	/// our dependent images
 	vector<summary> deps;

 	/// construct and fill in the data
 	count_type add_profile(profile_set const & profile, size_t pclass);

 	bool operator<(app_summary const & rhs) const {
 		return options::reverse_sort
 		    ? counts[0] < rhs.counts[0] : rhs.counts[0] < counts[0];
 	}

 private:
 	/// find a matching summary (including main app summary)
 	summary & find_summary(string const & image);
 };


 summary & app_summary::find_summary(string const & image)
 {
 	vector<summary>::iterator sit = deps.begin();
 	vector<summary>::iterator const send = deps.end();
 	for (; sit != send; ++sit) {
 		if (sit->lib_image == image)
 			return *sit;
 	}

 	summary summ;
 	summ.lib_image = image;
 	deps.push_back(summ);
 	return deps.back();
 }


 count_type app_summary::add_profile(profile_set const & profile,
                                 size_t pclass)
 {
 	count_type group_total = 0;

 	// first the main image
 	summary & summ = find_summary(profile.image);
 	count_type app_count = summ.add_files(profile.files, pclass);
 	counts[pclass] += app_count;
 	group_total += app_count;

 	// now all dependent images if any
 	list<profile_dep_set>::const_iterator it = profile.deps.begin();
 	list<profile_dep_set>::const_iterator const end = profile.deps.end();

 	for (; it != end; ++it) {
 		summary & summ = find_summary(it->lib_image);
 		count_type lib_count = summ.add_files(it->files, pclass);
 		counts[pclass] += lib_count;
 		group_total += lib_count;
 	}

 	return group_total;
 }


 /// all the summaries
 struct summary_container {
 	summary_container(vector<profile_class> const & pclasses);

 	/// all map summaries
 	vector<app_summary> apps;
 	/// total count of samples for all summaries
 	count_array_t total_counts;
 };


 summary_container::
 summary_container(vector<profile_class> const & pclasses)
 {
 	typedef map<string, app_summary> app_map_t;
 	app_map_t app_map;

 	for (size_t i = 0; i < pclasses.size(); ++i) {
 		list<profile_set>::const_iterator it
 			= pclasses[i].profiles.begin();
 		list<profile_set>::const_iterator const end
 			= pclasses[i].profiles.end();

 		for (; it != end; ++it) {
 			app_map_t::iterator ait = app_map.find(it->image);
 			if (ait == app_map.end()) {
 				app_summary app;
 				app.image = it->image;
 				total_counts[i] += app.add_profile(*it, i);
 				app_map[app.image] = app;
 			} else {
 				total_counts[i]
 					+= ait->second.add_profile(*it, i);
 			}
 		}
 	}

 	app_map_t::const_iterator it = app_map.begin();
 	app_map_t::const_iterator const end = app_map.end();

 	for (; it != end; ++it)
 		apps.push_back(it->second);

 	// sort by count
 	stable_sort(apps.begin(), apps.end());
 	vector<app_summary>::iterator ait = apps.begin();
 	vector<app_summary>::iterator const aend = apps.end();
 	for (; ait != aend; ++ait)
 		stable_sort(ait->deps.begin(), ait->deps.end());
 }


 void output_header()
 {
 	if (!options::show_header)
 		return;

 	cout << classes.cpuinfo << endl;
 	if (!classes.event.empty())
 		cout << classes.event << endl;

 	for (vector<profile_class>::size_type i = 0;
 	     i < classes.v.size(); ++i) {
 		cout << classes.v[i].longname << endl;
 	}
 }


 string get_filename(string const & filename)
 {
 	return options::long_filenames ? filename : op_basename(filename);
 }


 /// Output a count and a percentage
 void output_count(count_type total_count, count_type count)
 {
 	cout << setw(9) << count << ' ';
 	double ratio = op_ratio(count, total_count);
 	cout << format_percent(ratio * 100, percent_int_width,
 			      percent_fract_width) << ' ';
 }


 void output_col_headers(bool indent)
 {
 	if (!options::show_header)
 		return;

 	if (indent)
 		cout << '\t';

 	size_t colwidth = 9 + 1 + percent_width;

 	for (size_t i = 0; i < classes.v.size(); ++i) {
 		string name = classes.v[i].name;
 		if (name.length() > colwidth)
 			name = name.substr(0, colwidth - 3)
 				+ "...";
 		io_state state(cout);
 		// gcc 2.95 doesn't know right io manipulator
 		cout.setf(ios::right, ios::adjustfield);
 		// gcc 2.95 doesn't honor setw() for std::string
 		cout << setw(colwidth) << name.c_str();
 		cout << '|';
 	}
 	cout << '\n';

 	if (indent)
 		cout << '\t';

 	for (size_t i = 0; i < classes.v.size(); ++i) {
 		cout << "  samples| ";
 		io_state state(cout);
 		// gcc 2.95 doesn't know right io manipulator
 		cout.setf(ios::right, ios::adjustfield);
 		cout << setw(percent_width) << "%|";
 	}

 	cout << '\n';

 	if (indent)
 		cout << '\t';

 	for (size_t i = 0; i < classes.v.size(); ++i) {
 		cout << "-----------";
 		string str(percent_width, '-');
 		cout << str;
 	}

 	cout << '\n';
 }


 void
 output_deps(summary_container const & summaries,
 	    app_summary const & app)
 {
 	// the app summary itself is *always* present
 	// (perhaps with zero counts) so this test
 	// is correct
 	if (app.deps.size() == 1)
 		return;

 	output_col_headers(true);

 	for (size_t j = 0 ; j < app.deps.size(); ++j) {
 		summary const & summ = app.deps[j];

 		if (summ.counts.zero())
 			continue;

 		cout << '\t';

 		for (size_t i = 0; i < nr_classes; ++i) {
 			count_type tot_count = options::global_percent
 				? summaries.total_counts[i] : app.counts[i];

 			output_count(tot_count, summ.counts[i]);
 		}

 		cout << get_filename(summ.lib_image);
 		cout << '\n';
 	}
 }


 /**
  * Display all the given summary information
  */
 void output_summaries(summary_container const & summaries)
 {
 	output_col_headers(false);

 	for (size_t i = 0; i < summaries.apps.size(); ++i) {
 		app_summary const & app = summaries.apps[i];

 		if ((app.counts[0] * 100.0) / summaries.total_counts[0]
 		    < options::threshold) {
 			continue;
 		}

 		for (size_t j = 0; j < nr_classes; ++j)
 			output_count(summaries.total_counts[j], app.counts[j]);

 		cout << get_filename(app.image) << '\n';

 		output_deps(summaries, app);
 	}
 }


 format_flags get_format_flags(column_flags const & cf)
 {
 	format_flags flags(ff_none);
 	flags = format_flags(flags | ff_nr_samples);
 	flags = format_flags(flags | ff_percent | ff_symb_name);

 	if (options::show_address)
 		flags = format_flags(flags | ff_vma);

 	if (options::debug_info)
 		flags = format_flags(flags | ff_linenr_info);

 	if (options::accumulated) {
 		flags = format_flags(flags | ff_nr_samples_cumulated);
 		flags = format_flags(flags | ff_percent_cumulated);
 	}

 	if (classes2.v.size())
 		flags = format_flags(flags | ff_diff);

 	if (cf & cf_image_name)
 		flags = format_flags(flags | ff_image_name);

 	return flags;
 }


 void output_symbols(profile_container const & pc, bool multiple_apps)
 {
 	profile_container::symbol_choice choice;
 	choice.threshold = options::threshold;
 	symbol_collection symbols = pc.select_symbols(choice);
 	options::sort_by.sort(symbols, options::reverse_sort,
 	                      options::long_filenames);
 	format_output::formatter * out;
 	format_output::xml_formatter * xml_out = 0;
 	format_output::opreport_formatter * text_out = 0;

 	if (options::xml) {
 		xml_out = new format_output::xml_formatter(&pc, symbols,
 			pc.extra_found_images, options::symbol_filter);
 		xml_out->show_details(options::details);
 		out = xml_out;
 		// for XML always output long filenames
 		out->show_long_filenames(true);
 	} else {
 		text_out = new format_output::opreport_formatter(pc);
 		text_out->show_details(options::details);
 		out = text_out;
 		out->show_long_filenames(options::long_filenames);
 	}

 	out->set_nr_classes(nr_classes);
 	out->show_header(options::show_header);
 	out->vma_format_64bit(choice.hints & cf_64bit_vma);
 	out->show_global_percent(options::global_percent);

 	format_flags flags = get_format_flags(choice.hints);
 	if (multiple_apps)
 		flags = format_flags(flags | ff_app_name);

 	out->add_format(flags);

 	if (options::xml) {
 		xml_support = new xml_utils(xml_out, symbols, nr_classes,
 			pc.extra_found_images);
 		xml_out->output(cout);
 	} else {
 		text_out->output(cout, symbols);
 	}
 }


 void output_diff_symbols(profile_container const & pc1,
                          profile_container const & pc2, bool multiple_apps)
 {
 	diff_container dc(pc1, pc2);

 	profile_container::symbol_choice choice;
 	choice.threshold = options::threshold;

 	diff_collection symbols = dc.get_symbols(choice);

 	format_flags flags = get_format_flags(choice.hints);
 	if (multiple_apps)
 		flags = format_flags(flags | ff_app_name);

 	// With diff profile we output only filename coming from the first
 	// profile session, internally we use only name derived from the sample
 	// filename so image name can match.
 	format_output::diff_formatter out(dc, pc1.extra_found_images);

 	out.set_nr_classes(nr_classes);
 	out.show_long_filenames(options::long_filenames);
 	out.show_header(options::show_header);
 	out.show_global_percent(options::global_percent);
 	out.vma_format_64bit(choice.hints & cf_64bit_vma);
 	out.add_format(flags);

 	options::sort_by.sort(symbols, options::reverse_sort,
 	                      options::long_filenames);

 	out.output(cout, symbols);
 }


 void output_cg_symbols(callgraph_container const & cg, bool multiple_apps)
 {
 	column_flags output_hints = cg.output_hint();

 	symbol_collection symbols = cg.get_symbols();

 	options::sort_by.sort(symbols, options::reverse_sort,
 	                      options::long_filenames);

 	format_output::formatter * out;
 	format_output::xml_cg_formatter * xml_out = 0;
 	format_output::cg_formatter * text_out = 0;

 	if (options::xml) {
 		xml_out = new format_output::xml_cg_formatter(cg, symbols,
 			options::symbol_filter);
 		xml_out->show_details(options::details);
 		out = xml_out;
 		// for XML always output long filenames
 		out->show_long_filenames(true);
 	} else {
 		text_out = new format_output::cg_formatter(cg);
 		out = text_out;
 		out->show_long_filenames(options::long_filenames);
 	}

 	out->set_nr_classes(nr_classes);
 	out->show_header(options::show_header);
 	out->vma_format_64bit(output_hints & cf_64bit_vma);
 	out->show_global_percent(options::global_percent);

 	format_flags flags = get_format_flags(output_hints);
 	if (multiple_apps)
 		flags = format_flags(flags | ff_app_name);

 	out->add_format(flags);

 	if (options::xml) {
 		xml_support = new xml_utils(xml_out, symbols, nr_classes,
 			cg.extra_found_images);
 		xml_out->output(cout);
 	} else {
 		text_out->output(cout, symbols);
 	}

 }


 int opreport(options::spec const & spec)
 {
 	want_xml = options::xml;

 	handle_options(spec);

 	nr_classes = classes.v.size();

 	if (!options::symbols && !options::xml) {
 		summary_container summaries(classes.v);
 		output_header();
 		output_summaries(summaries);
 		return 0;
 	}

 	bool multiple_apps = false;

 	for (size_t i = 0; i < classes.v.size(); ++i) {
 		if (classes.v[i].profiles.size() > 1)
 			multiple_apps = true;
 	}

 	list<inverted_profile> iprofiles = invert_profiles(classes);

 	report_image_errors(iprofiles, classes.extra_found_images);

 	if (options::xml) {
 		xml_utils::output_xml_header(options::command_options,
 		                             classes.cpuinfo, classes.event);
 	} else {
 		output_header();
 	}

 	if (classes2.v.size()) {
 		for (size_t i = 0; i < classes2.v.size(); ++i) {
 			if (classes2.v[i].profiles.size() > 1)
 				multiple_apps |= true;
 		}

 		profile_container pc1(options::debug_info, options::details,
 				      classes.extra_found_images);

 		list<inverted_profile>::iterator it = iprofiles.begin();
 		list<inverted_profile>::iterator const end = iprofiles.end();

 		for (; it != end; ++it)
 			populate_for_image(pc1, *it,
 					   options::symbol_filter, 0);

 		list<inverted_profile> iprofiles2 = invert_profiles(classes2);

 		report_image_errors(iprofiles2, classes2.extra_found_images);

 		profile_container pc2(options::debug_info, options::details,
 				      classes2.extra_found_images);

 		list<inverted_profile>::iterator it2 = iprofiles2.begin();
 		list<inverted_profile>::iterator const end2 = iprofiles2.end();

 		for (; it2 != end2; ++it2)
 			populate_for_image(pc2, *it2,
 					   options::symbol_filter, 0);

 		output_diff_symbols(pc1, pc2, multiple_apps);
 	} else if (options::callgraph) {
 		callgraph_container cg_container;
 		cg_container.populate(iprofiles, classes.extra_found_images,
 			options::debug_info, options::threshold,
 			options::merge_by.lib, options::symbol_filter);

 		output_cg_symbols(cg_container, multiple_apps);
 	} else {
 		profile_container samples(options::debug_info,
 			options::details, classes.extra_found_images);

 		list<inverted_profile>::iterator it = iprofiles.begin();
 		list<inverted_profile>::iterator const end = iprofiles.end();

 		for (; it != end; ++it)
 			populate_for_image(samples, *it,
 					   options::symbol_filter, 0);

 		output_symbols(samples, multiple_apps);
 	}

 	return 0;
 }

 }  // anonymous namespace


 int main(int argc, char const * argv[])
 {
 	cout.tie(0);
 	return run_pp_tool(argc, argv, opreport);
 }
	/**
	* @file opreport.cpp
	* Implement opreport utility
	*
	* @remark Copyright 2003 OProfile authors
	* @remark Read the file COPYING
	*
	* @author John Levon
	* @author Philippe Elie
	*/

	#include <iostream>
	#include <iomanip>
	#include <vector>
	#include <algorithm>
	#include <sstream>
	#include <numeric>

	#include "op_exception.h"
	#include "stream_util.h"
	#include "string_manip.h"
	#include "file_manip.h"
	#include "opreport_options.h"
	#include "op_header.h"
	#include "profile.h"
	#include "populate.h"
	#include "arrange_profiles.h"
	#include "profile_container.h"
	#include "callgraph_container.h"
	#include "diff_container.h"
	#include "symbol_sort.h"
	#include "format_output.h"
	#include "xml_utils.h"
	#include "image_errors.h"

	using namespace std;

	namespace {

	static size_t nr_classes;

	/// storage for a merged file summary
	struct summary {
	count_array_t counts;
	string lib_image;

	bool operator<(summary const & rhs) const {
	return options::reverse_sort
	? counts[0] < rhs.counts[0] : rhs.counts[0] < counts[0];
	}

	/// add a set of files to a summary
	count_type add_files(list<profile_sample_files> const & files,
	size_t pclass);
	};


	count_type summary::
	add_files(list<profile_sample_files> const & files, size_t pclass)
	{
	count_type subtotal = 0;

	list<profile_sample_files>::const_iterator it = files.begin();
	list<profile_sample_files>::const_iterator const end = files.end();

	for (; it != end; ++it) {
	count_type count = profile_t::sample_count(it->sample_filename);
	counts[pclass] += count;
	subtotal += count;

	if (!it->cg_files.empty()) {
	throw op_runtime_error("opreport.cpp::add_files(): "
	"unxpected non empty cg file set");
	}
	}

	return subtotal;
	}


	/**
	* Summary of an application: a set of image summaries
	* for one application, i.e. an application image and all
	* dependent images such as libraries.
	*/
	struct app_summary {
	/// total count of us and all dependents
	count_array_t counts;
	/// the main image
	string image;
	/// our dependent images
	vector<summary> deps;

	/// construct and fill in the data
	count_type add_profile(profile_set const & profile, size_t pclass);

	bool operator<(app_summary const & rhs) const {
	return options::reverse_sort
	? counts[0] < rhs.counts[0] : rhs.counts[0] < counts[0];
	}

	private:
	/// find a matching summary (including main app summary)
	summary & find_summary(string const & image);
	};


	summary & app_summary::find_summary(string const & image)
	{
	vector<summary>::iterator sit = deps.begin();
	vector<summary>::iterator const send = deps.end();
	for (; sit != send; ++sit) {
	if (sit->lib_image == image)
	return *sit;
	}

	summary summ;
	summ.lib_image = image;
	deps.push_back(summ);
	return deps.back();
	}


	count_type app_summary::add_profile(profile_set const & profile,
	size_t pclass)
	{
	count_type group_total = 0;

	// first the main image
	summary & summ = find_summary(profile.image);
	count_type app_count = summ.add_files(profile.files, pclass);
	counts[pclass] += app_count;
	group_total += app_count;

	// now all dependent images if any
	list<profile_dep_set>::const_iterator it = profile.deps.begin();
	list<profile_dep_set>::const_iterator const end = profile.deps.end();

	for (; it != end; ++it) {
	summary & summ = find_summary(it->lib_image);
	count_type lib_count = summ.add_files(it->files, pclass);
	counts[pclass] += lib_count;
	group_total += lib_count;
	}

	return group_total;
	}


	/// all the summaries
	struct summary_container {
	summary_container(vector<profile_class> const & pclasses);

	/// all map summaries
	vector<app_summary> apps;
	/// total count of samples for all summaries
	count_array_t total_counts;
	};


	summary_container::
	summary_container(vector<profile_class> const & pclasses)
	{
	typedef map<string, app_summary> app_map_t;
	app_map_t app_map;

	for (size_t i = 0; i < pclasses.size(); ++i) {
	list<profile_set>::const_iterator it
	= pclasses[i].profiles.begin();
	list<profile_set>::const_iterator const end
	= pclasses[i].profiles.end();

	for (; it != end; ++it) {
	app_map_t::iterator ait = app_map.find(it->image);
	if (ait == app_map.end()) {
	app_summary app;
	app.image = it->image;
	total_counts[i] += app.add_profile(*it, i);
	app_map[app.image] = app;
	} else {
	total_counts[i]
	+= ait->second.add_profile(*it, i);
	}
	}
	}

	app_map_t::const_iterator it = app_map.begin();
	app_map_t::const_iterator const end = app_map.end();

	for (; it != end; ++it)
	apps.push_back(it->second);

	// sort by count
	stable_sort(apps.begin(), apps.end());
	vector<app_summary>::iterator ait = apps.begin();
	vector<app_summary>::iterator const aend = apps.end();
	for (; ait != aend; ++ait)
	stable_sort(ait->deps.begin(), ait->deps.end());
	}


	void output_header()
	{
	if (!options::show_header)
	return;

	cout << classes.cpuinfo << endl;
	if (!classes.event.empty())
	cout << classes.event << endl;

	for (vector<profile_class>::size_type i = 0;
	i < classes.v.size(); ++i) {
	cout << classes.v[i].longname << endl;
	}
	}


	string get_filename(string const & filename)
	{
	return options::long_filenames ? filename : op_basename(filename);
	}


	/// Output a count and a percentage
	void output_count(count_type total_count, count_type count)
	{
	cout << setw(9) << count << ' ';
	double ratio = op_ratio(count, total_count);
	cout << format_percent(ratio * 100, percent_int_width,
	percent_fract_width) << ' ';
	}


	void output_col_headers(bool indent)
	{
	if (!options::show_header)
	return;

	if (indent)
	cout << '\t';

	size_t colwidth = 9 + 1 + percent_width;

	for (size_t i = 0; i < classes.v.size(); ++i) {
	string name = classes.v[i].name;
	if (name.length() > colwidth)
	name = name.substr(0, colwidth - 3)
	+ "...";
	io_state state(cout);
	// gcc 2.95 doesn't know right io manipulator
	cout.setf(ios::right, ios::adjustfield);
	// gcc 2.95 doesn't honor setw() for std::string
	cout << setw(colwidth) << name.c_str();
	cout << '\|';
	}
	cout << '\n';

	if (indent)
	cout << '\t';

	for (size_t i = 0; i < classes.v.size(); ++i) {
	cout << " samples\| ";
	io_state state(cout);
	// gcc 2.95 doesn't know right io manipulator
	cout.setf(ios::right, ios::adjustfield);
	cout << setw(percent_width) << "%\|";
	}

	cout << '\n';

	if (indent)
	cout << '\t';

	for (size_t i = 0; i < classes.v.size(); ++i) {
	cout << "-----------";
	string str(percent_width, '-');
	cout << str;
	}

	cout << '\n';
	}


	void
	output_deps(summary_container const & summaries,
	app_summary const & app)
	{
	// the app summary itself is always present
	// (perhaps with zero counts) so this test
	// is correct
	if (app.deps.size() == 1)
	return;

	output_col_headers(true);

	for (size_t j = 0 ; j < app.deps.size(); ++j) {
	summary const & summ = app.deps[j];

	if (summ.counts.zero())
	continue;

	cout << '\t';

	for (size_t i = 0; i < nr_classes; ++i) {
	count_type tot_count = options::global_percent
	? summaries.total_counts[i] : app.counts[i];

	output_count(tot_count, summ.counts[i]);
	}

	cout << get_filename(summ.lib_image);
	cout << '\n';
	}
	}


	/**
	* Display all the given summary information
	*/
	void output_summaries(summary_container const & summaries)
	{
	output_col_headers(false);

	for (size_t i = 0; i < summaries.apps.size(); ++i) {
	app_summary const & app = summaries.apps[i];

	if ((app.counts[0] * 100.0) / summaries.total_counts[0]
	< options::threshold) {
	continue;
	}

	for (size_t j = 0; j < nr_classes; ++j)
	output_count(summaries.total_counts[j], app.counts[j]);

	cout << get_filename(app.image) << '\n';

	output_deps(summaries, app);
	}
	}


	format_flags get_format_flags(column_flags const & cf)
	{
	format_flags flags(ff_none);
	flags = format_flags(flags \| ff_nr_samples);
	flags = format_flags(flags \| ff_percent \| ff_symb_name);

	if (options::show_address)
	flags = format_flags(flags \| ff_vma);

	if (options::debug_info)
	flags = format_flags(flags \| ff_linenr_info);

	if (options::accumulated) {
	flags = format_flags(flags \| ff_nr_samples_cumulated);
	flags = format_flags(flags \| ff_percent_cumulated);
	}

	if (classes2.v.size())
	flags = format_flags(flags \| ff_diff);

	if (cf & cf_image_name)
	flags = format_flags(flags \| ff_image_name);

	return flags;
	}


	void output_symbols(profile_container const & pc, bool multiple_apps)
	{
	profile_container::symbol_choice choice;
	choice.threshold = options::threshold;
	symbol_collection symbols = pc.select_symbols(choice);
	options::sort_by.sort(symbols, options::reverse_sort,
	options::long_filenames);
	format_output::formatter * out;
	format_output::xml_formatter * xml_out = 0;
	format_output::opreport_formatter * text_out = 0;

	if (options::xml) {
	xml_out = new format_output::xml_formatter(&pc, symbols,
	pc.extra_found_images, options::symbol_filter);
	xml_out->show_details(options::details);
	out = xml_out;
	// for XML always output long filenames
	out->show_long_filenames(true);
	} else {
	text_out = new format_output::opreport_formatter(pc);
	text_out->show_details(options::details);
	out = text_out;
	out->show_long_filenames(options::long_filenames);
	}

	out->set_nr_classes(nr_classes);
	out->show_header(options::show_header);
	out->vma_format_64bit(choice.hints & cf_64bit_vma);
	out->show_global_percent(options::global_percent);

	format_flags flags = get_format_flags(choice.hints);
	if (multiple_apps)
	flags = format_flags(flags \| ff_app_name);

	out->add_format(flags);

	if (options::xml) {
	xml_support = new xml_utils(xml_out, symbols, nr_classes,
	pc.extra_found_images);
	xml_out->output(cout);
	} else {
	text_out->output(cout, symbols);
	}
	}


	void output_diff_symbols(profile_container const & pc1,
	profile_container const & pc2, bool multiple_apps)
	{
	diff_container dc(pc1, pc2);

	profile_container::symbol_choice choice;
	choice.threshold = options::threshold;

	diff_collection symbols = dc.get_symbols(choice);

	format_flags flags = get_format_flags(choice.hints);
	if (multiple_apps)
	flags = format_flags(flags \| ff_app_name);

	// With diff profile we output only filename coming from the first
	// profile session, internally we use only name derived from the sample
	// filename so image name can match.
	format_output::diff_formatter out(dc, pc1.extra_found_images);

	out.set_nr_classes(nr_classes);
	out.show_long_filenames(options::long_filenames);
	out.show_header(options::show_header);
	out.show_global_percent(options::global_percent);
	out.vma_format_64bit(choice.hints & cf_64bit_vma);
	out.add_format(flags);

	options::sort_by.sort(symbols, options::reverse_sort,
	options::long_filenames);

	out.output(cout, symbols);
	}


	void output_cg_symbols(callgraph_container const & cg, bool multiple_apps)
	{
	column_flags output_hints = cg.output_hint();

	symbol_collection symbols = cg.get_symbols();

	options::sort_by.sort(symbols, options::reverse_sort,
	options::long_filenames);

	format_output::formatter * out;
	format_output::xml_cg_formatter * xml_out = 0;
	format_output::cg_formatter * text_out = 0;

	if (options::xml) {
	xml_out = new format_output::xml_cg_formatter(cg, symbols,
	options::symbol_filter);
	xml_out->show_details(options::details);
	out = xml_out;
	// for XML always output long filenames
	out->show_long_filenames(true);
	} else {
	text_out = new format_output::cg_formatter(cg);
	out = text_out;
	out->show_long_filenames(options::long_filenames);
	}

	out->set_nr_classes(nr_classes);
	out->show_header(options::show_header);
	out->vma_format_64bit(output_hints & cf_64bit_vma);
	out->show_global_percent(options::global_percent);

	format_flags flags = get_format_flags(output_hints);
	if (multiple_apps)
	flags = format_flags(flags \| ff_app_name);

	out->add_format(flags);

	if (options::xml) {
	xml_support = new xml_utils(xml_out, symbols, nr_classes,
	cg.extra_found_images);
	xml_out->output(cout);
	} else {
	text_out->output(cout, symbols);
	}

	}


	int opreport(options::spec const & spec)
	{
	want_xml = options::xml;

	handle_options(spec);

	nr_classes = classes.v.size();

	if (!options::symbols && !options::xml) {
	summary_container summaries(classes.v);
	output_header();
	output_summaries(summaries);
	return 0;
	}

	bool multiple_apps = false;

	for (size_t i = 0; i < classes.v.size(); ++i) {
	if (classes.v[i].profiles.size() > 1)
	multiple_apps = true;
	}

	list<inverted_profile> iprofiles = invert_profiles(classes);

	report_image_errors(iprofiles, classes.extra_found_images);

	if (options::xml) {
	xml_utils::output_xml_header(options::command_options,
	classes.cpuinfo, classes.event);
	} else {
	output_header();
	}

	if (classes2.v.size()) {
	for (size_t i = 0; i < classes2.v.size(); ++i) {
	if (classes2.v[i].profiles.size() > 1)
	multiple_apps \|= true;
	}

	profile_container pc1(options::debug_info, options::details,
	classes.extra_found_images);

	list<inverted_profile>::iterator it = iprofiles.begin();
	list<inverted_profile>::iterator const end = iprofiles.end();

	for (; it != end; ++it)
	populate_for_image(pc1, *it,
	options::symbol_filter, 0);

	list<inverted_profile> iprofiles2 = invert_profiles(classes2);

	report_image_errors(iprofiles2, classes2.extra_found_images);

	profile_container pc2(options::debug_info, options::details,
	classes2.extra_found_images);

	list<inverted_profile>::iterator it2 = iprofiles2.begin();
	list<inverted_profile>::iterator const end2 = iprofiles2.end();

	for (; it2 != end2; ++it2)
	populate_for_image(pc2, *it2,
	options::symbol_filter, 0);

	output_diff_symbols(pc1, pc2, multiple_apps);
	} else if (options::callgraph) {
	callgraph_container cg_container;
	cg_container.populate(iprofiles, classes.extra_found_images,
	options::debug_info, options::threshold,
	options::merge_by.lib, options::symbol_filter);

	output_cg_symbols(cg_container, multiple_apps);
	} else {
	profile_container samples(options::debug_info,
	options::details, classes.extra_found_images);

	list<inverted_profile>::iterator it = iprofiles.begin();
	list<inverted_profile>::iterator const end = iprofiles.end();

	for (; it != end; ++it)
	populate_for_image(samples, *it,
	options::symbol_filter, 0);

	output_symbols(samples, multiple_apps);
	}

	return 0;
	}

	} // anonymous namespace


	int main(int argc, char const * argv[])
	{
	cout.tie(0);
	return run_pp_tool(argc, argv, opreport);
	}