oprofile-0.9.7/libpp/profile_container.h - nest-learning-thermostat/5.1.1/oprofile - Git at Google

 /**
  * @file profile_container.h
  * Container associating symbols and samples
  *
  * @remark Copyright 2002, 2003 OProfile authors
  * @remark Read the file COPYING
  *
  * @author Philippe Elie
  * @author John Levon
  */

 #ifndef PROFILE_CONTAINER_H
 #define PROFILE_CONTAINER_H

 #include <string>
 #include <vector>

 #include "profile.h"
 #include "utility.h"
 #include "op_bfd.h"
 #include "sample_container.h"
 #include "symbol_container.h"
 #include "format_flags.h"
 #include "locate_images.h"

 class string_filter;
 class symbol_entry;
 class sample_entry;

 /**
  * Store multiple samples files belonging to the same profiling session.
  * This is the main container capable of holding the profiles for arbitrary
  * binary images and arbitrary profile classes.
  */
 class profile_container : noncopyable {
 public:
 	/**
 	 * Build an object to store information on samples. All parameters
 	 * acts as hint for what you will request after recording samples and
 	 * so allow optimizations during recording the information.
 	 *
 	 * @param debug_info If true line numbers and source files are
 	 * recorded.
 	 * @param need_details If true if we need to record all samples or to
 	 * to record them at symbol level.
 	 * @param extra extra images location
 	 */
 	profile_container(bool debug_info, bool need_details,
 			  extra_images const & extra);

 	~profile_container();

 	/**
 	 * add() - record symbols/samples in the underlying container
 	 *
 	 * @param profile the samples files container
 	 * @param abfd the associated bfd object
 	 * @param app_name the owning application name of sample
 	 * @param pclass the profile class to add results for
 	 *
 	 * add() is an helper for delayed ctor. Take care you can't safely
 	 * make any call to add after any other member function call.
 	 * Obviously you can add only samples files which are coherent (same
 	 * sampling rate, same events etc.)
 	 */
 	void add(profile_t const & profile, op_bfd const & abfd,
 		 std::string const & app_name, size_t pclass);

 	/// Find a symbol from its image_name, vma, return zero if no symbol
 	/// for this image at this vma
 	symbol_entry const * find_symbol(std::string const & image_name,
 					 bfd_vma vma) const;

 	/// Find the symbols from its filename, linenr, return an empty
 	/// symbol_collection if no symbol at this location
 	symbol_collection const find_symbol(debug_name_id filename,
 					size_t linenr) const;

 	/// Find a sample by its symbol, vma, return zero if there is no sample
 	/// at this vma
 	sample_entry const * find_sample(symbol_entry const * symbol,
 					 bfd_vma vma) const;

 	/// Find a symbol. Return NULL if not found.
 	symbol_entry const * find(symbol_entry const & symbol) const;

 	/// used for select_symbols()
 	struct symbol_choice {
 		symbol_choice()
 			: hints(cf_none), threshold(0.0), match_image(false) {}

 		/// hints filled in
 		column_flags hints;
 		/// percentage threshold
 		double threshold;
 		/// match the image name only
 		bool match_image;
 		/// owning image name
 		std::string image_name;
 	};

 	/**
 	 * select_symbols - create a set of symbols sorted by sample count
 	 * @param choice  parameters to use/fill in when selecting
 	 */
 	symbol_collection const select_symbols(symbol_choice & choice) const;

 	/**
 	 * select_symbols - create a set of symbols belonging to a given source
 	 * @param filename  source file where are defined the returned symbols
 	 */
 	symbol_collection const select_symbols(debug_name_id filename) const;

 	/// Like select_symbols for filename without allowing sort by vma.
 	std::vector<debug_name_id> const select_filename(double threshold) const;

 	/// return the total number of samples
 	count_array_t samples_count() const;

 	/// Get the samples count which belongs to filename. Return 0 if
 	/// no samples found.
 	count_array_t samples_count(debug_name_id filename_id) const;
 	/// Get the samples count which belongs to filename, linenr. Return
 	/// 0 if no samples found.
 	count_array_t samples_count(debug_name_id filename,
 			   size_t linenr) const;

 	/// return an iterator to the first symbol
 	symbol_container::symbols_t::iterator begin_symbol() const;
 	/// return an iterator to the last symbol
 	symbol_container::symbols_t::iterator end_symbol() const;

 	/// return iterator to the first samples
 	sample_container::samples_iterator begin() const;
 	/// return iterator to the last samples
 	sample_container::samples_iterator end() const;

 	/// return iterator to the first samples for this symbol
 	sample_container::samples_iterator begin(symbol_entry const *) const;
 	/// return iterator to the last samples for this symbol
 	sample_container::samples_iterator end(symbol_entry const *) const;

 private:
 	/// helper for add()
 	void add_samples(op_bfd const & abfd, symbol_index_t sym_index,
 	                 profile_t::iterator_pair const &,
 	                 symbol_entry const * symbol, size_t pclass,
 			 unsigned long start);

 	/**
 	 * create an unique artificial symbol for an offset range. The range
 	 * is only a hint of the maximum size of the created symbol. We
 	 * give to the symbol an unique name as ?image_file_name#order and
 	 * a range up to the nearest of syms or for the whole range if no
 	 * syms exist after the start offset. the end parameter is updated
 	 * to reflect the symbol range.
 	 *
 	 * The rationale here is to try to create symbols for alignment between
 	 * function as little as possible and to create meaningfull symbols
 	 * for special case such image w/o symbol.
 	 */
 	std::string create_artificial_symbol(op_bfd const & abfd, u32 start,
 	                                     u32 & end, size_t & order);

 	/// The symbols collected by pp tools sorted by increased vma, provide
 	/// also a sort order on samples count for each profile class
 	scoped_ptr<symbol_container> symbols;
 	/// The samples count collected by pp tools sorted by increased vma,
 	/// provide also a sort order on (filename, linenr)
 	scoped_ptr<sample_container> samples;
 	/// build() must count samples count for each profile class so cache it
 	/// here since user of profile_container often need it later.
 	count_array_t total_count;

 	/**
 	 * Optimization hints for what information we are going to need,
 	 * see the explanation in profile_container()
 	 */
 	//@{
 	bool debug_info;
 	bool need_details;
 	//@}

 public: // FIXME
 	extra_images extra_found_images;
 };

 #endif /* !PROFILE_CONTAINER_H */
	/**
	* @file profile_container.h
	* Container associating symbols and samples
	*
	* @remark Copyright 2002, 2003 OProfile authors
	* @remark Read the file COPYING
	*
	* @author Philippe Elie
	* @author John Levon
	*/

	#ifndef PROFILE_CONTAINER_H
	#define PROFILE_CONTAINER_H

	#include <string>
	#include <vector>

	#include "profile.h"
	#include "utility.h"
	#include "op_bfd.h"
	#include "sample_container.h"
	#include "symbol_container.h"
	#include "format_flags.h"
	#include "locate_images.h"

	class string_filter;
	class symbol_entry;
	class sample_entry;

	/**
	* Store multiple samples files belonging to the same profiling session.
	* This is the main container capable of holding the profiles for arbitrary
	* binary images and arbitrary profile classes.
	*/
	class profile_container : noncopyable {
	public:
	/**
	* Build an object to store information on samples. All parameters
	* acts as hint for what you will request after recording samples and
	* so allow optimizations during recording the information.
	*
	* @param debug_info If true line numbers and source files are
	* recorded.
	* @param need_details If true if we need to record all samples or to
	* to record them at symbol level.
	* @param extra extra images location
	*/
	profile_container(bool debug_info, bool need_details,
	extra_images const & extra);

	~profile_container();

	/**
	* add() - record symbols/samples in the underlying container
	*
	* @param profile the samples files container
	* @param abfd the associated bfd object
	* @param app_name the owning application name of sample
	* @param pclass the profile class to add results for
	*
	* add() is an helper for delayed ctor. Take care you can't safely
	* make any call to add after any other member function call.
	* Obviously you can add only samples files which are coherent (same
	* sampling rate, same events etc.)
	*/
	void add(profile_t const & profile, op_bfd const & abfd,
	std::string const & app_name, size_t pclass);

	/// Find a symbol from its image_name, vma, return zero if no symbol
	/// for this image at this vma
	symbol_entry const * find_symbol(std::string const & image_name,
	bfd_vma vma) const;

	/// Find the symbols from its filename, linenr, return an empty
	/// symbol_collection if no symbol at this location
	symbol_collection const find_symbol(debug_name_id filename,
	size_t linenr) const;

	/// Find a sample by its symbol, vma, return zero if there is no sample
	/// at this vma
	sample_entry const * find_sample(symbol_entry const * symbol,
	bfd_vma vma) const;

	/// Find a symbol. Return NULL if not found.
	symbol_entry const * find(symbol_entry const & symbol) const;

	/// used for select_symbols()
	struct symbol_choice {
	symbol_choice()
	: hints(cf_none), threshold(0.0), match_image(false) {}

	/// hints filled in
	column_flags hints;
	/// percentage threshold
	double threshold;
	/// match the image name only
	bool match_image;
	/// owning image name
	std::string image_name;
	};

	/**
	* select_symbols - create a set of symbols sorted by sample count
	* @param choice parameters to use/fill in when selecting
	*/
	symbol_collection const select_symbols(symbol_choice & choice) const;

	/**
	* select_symbols - create a set of symbols belonging to a given source
	* @param filename source file where are defined the returned symbols
	*/
	symbol_collection const select_symbols(debug_name_id filename) const;

	/// Like select_symbols for filename without allowing sort by vma.
	std::vector<debug_name_id> const select_filename(double threshold) const;

	/// return the total number of samples
	count_array_t samples_count() const;

	/// Get the samples count which belongs to filename. Return 0 if
	/// no samples found.
	count_array_t samples_count(debug_name_id filename_id) const;
	/// Get the samples count which belongs to filename, linenr. Return
	/// 0 if no samples found.
	count_array_t samples_count(debug_name_id filename,
	size_t linenr) const;

	/// return an iterator to the first symbol
	symbol_container::symbols_t::iterator begin_symbol() const;
	/// return an iterator to the last symbol
	symbol_container::symbols_t::iterator end_symbol() const;

	/// return iterator to the first samples
	sample_container::samples_iterator begin() const;
	/// return iterator to the last samples
	sample_container::samples_iterator end() const;

	/// return iterator to the first samples for this symbol
	sample_container::samples_iterator begin(symbol_entry const *) const;
	/// return iterator to the last samples for this symbol
	sample_container::samples_iterator end(symbol_entry const *) const;

	private:
	/// helper for add()
	void add_samples(op_bfd const & abfd, symbol_index_t sym_index,
	profile_t::iterator_pair const &,
	symbol_entry const * symbol, size_t pclass,
	unsigned long start);

	/**
	* create an unique artificial symbol for an offset range. The range
	* is only a hint of the maximum size of the created symbol. We
	* give to the symbol an unique name as ?image_file_name#order and
	* a range up to the nearest of syms or for the whole range if no
	* syms exist after the start offset. the end parameter is updated
	* to reflect the symbol range.
	*
	* The rationale here is to try to create symbols for alignment between
	* function as little as possible and to create meaningfull symbols
	* for special case such image w/o symbol.
	*/
	std::string create_artificial_symbol(op_bfd const & abfd, u32 start,
	u32 & end, size_t & order);

	/// The symbols collected by pp tools sorted by increased vma, provide
	/// also a sort order on samples count for each profile class
	scoped_ptr<symbol_container> symbols;
	/// The samples count collected by pp tools sorted by increased vma,
	/// provide also a sort order on (filename, linenr)
	scoped_ptr<sample_container> samples;
	/// build() must count samples count for each profile class so cache it
	/// here since user of profile_container often need it later.
	count_array_t total_count;

	/**
	* Optimization hints for what information we are going to need,
	* see the explanation in profile_container()
	*/
	//@{
	bool debug_info;
	bool need_details;
	//@}

	public: // FIXME
	extra_images extra_found_images;
	};

	#endif /* !PROFILE_CONTAINER_H */