oprofile-0.9.7/libpp/format_output.h - nest-learning-thermostat/5.1.7/oprofile - Git at Google

 /**
  * @file format_output.h
  * outputting format for symbol lists
  *
  * @remark Copyright 2002 OProfile authors
  * @remark Read the file COPYING
  *
  * @author Philippe Elie
  * @author John Levon
  */

 #ifndef FORMAT_OUTPUT_H
 #define FORMAT_OUTPUT_H

 #include "config.h"

 #include <string>
 #include <map>
 #include <iosfwd>

 #include "format_flags.h"
 #include "symbol.h"
 #include "string_filter.h"
 #include "xml_output.h"

 class symbol_entry;
 class sample_entry;
 class callgraph_container;
 class profile_container;
 class diff_container;
 class extra_images;
 class op_bfd;

 struct profile_classes;
 // FIXME: should be passed to the derived class formatter ctor
 extern profile_classes classes;

 namespace format_output {

 /// base class for formatter, handle common options to formatter
 class formatter {
 public:
 	formatter(extra_images const & extra);
 	virtual ~formatter();

 	/// add a given column
 	void add_format(format_flags flag);

 	/// set the need_header boolean to false
 	void show_header(bool);
 	/// format for 64 bit wide VMAs
 	void vma_format_64bit(bool);
 	/// show long (full path) filenames
 	void show_long_filenames(bool);
 	/// use global count rather symbol count for details percent
 	void show_global_percent(bool);

 	/**
 	 * Set the number of collected profile classes. Each class
 	 * will output sample count and percentage in extra columns.
 	 *
 	 * This class assumes that the profile information has been
 	 * populated with the right number of classes.
 	 */
 	void set_nr_classes(size_t nr_classes);

 	/// output table header, implemented by calling the virtual function
 	/// output_header_field()
 	void output_header(std::ostream & out);

 protected:
 	struct counts_t {
 		/// total sample count
 		count_array_t total;
 		/// samples so far
 		count_array_t cumulated_samples;
 		/// percentage so far
 		count_array_t cumulated_percent;
 		/// detailed percentage so far
 		count_array_t cumulated_percent_details;
 	};

 	/// data passed for output
 	struct field_datum {
 		field_datum(symbol_entry const & sym,
 		            sample_entry const & s,
 			    size_t pc, counts_t & c,
 			    extra_images const & extra, double d = 0.0)
 			: symbol(sym), sample(s), pclass(pc),
 			  counts(c), extra(extra), diff(d) {}
 		symbol_entry const & symbol;
 		sample_entry const & sample;
 		size_t pclass;
 		counts_t & counts;
 		extra_images const & extra;
 		double diff;
 	};

 	/// format callback type
 	typedef std::string (formatter::*fct_format)(field_datum const &);

 	/** @name format functions.
 	 * The set of formatting functions, used internally by output().
 	 */
 	//@{
 	std::string format_vma(field_datum const &);
 	std::string format_symb_name(field_datum const &);
 	std::string format_image_name(field_datum const &);
 	std::string format_app_name(field_datum const &);
 	std::string format_linenr_info(field_datum const &);
 	std::string format_nr_samples(field_datum const &);
 	std::string format_nr_cumulated_samples(field_datum const &);
 	std::string format_percent(field_datum const &);
 	std::string format_cumulated_percent(field_datum const &);
 	std::string format_percent_details(field_datum const &);
 	std::string format_cumulated_percent_details(field_datum const &);
 	std::string format_diff(field_datum const &);
 	//@}

 	/// decribe one field of the colummned output.
 	struct field_description {
 		field_description() {}
 		field_description(std::size_t w, std::string h,
 				  fct_format f)
 			: width(w), header_name(h), formatter(f) {}

 		std::size_t width;
 		std::string header_name;
 		fct_format formatter;
 	};

 	typedef std::map<format_flags, field_description> format_map_t;

 	/// actually do output
 	void do_output(std::ostream & out, symbol_entry const & symbol,
 		      sample_entry const & sample, counts_t & c,
 	              diff_array_t const & = diff_array_t(),
 	              bool hide_immutable_field = false);

 	/// returns the nr of char needed to pad this field
 	size_t output_header_field(std::ostream & out, format_flags fl,
 	                           size_t padding);

 	/// returns the nr of char needed to pad this field
 	size_t output_field(std::ostream & out, field_datum const & datum,
 			   format_flags fl, size_t padding,
 			   bool hide_immutable);

 	/// stores functors for doing actual formatting
 	format_map_t format_map;

 	/// number of profile classes
 	size_t nr_classes;

 	/// total counts
 	counts_t counts;

 	/// formatting flags set
 	format_flags flags;
 	/// true if we need to format as 64 bits quantities
 	bool vma_64;
 	/// false if we use basename(filename) in output rather filename
 	bool long_filenames;
 	/// true if we need to show header before the first output
 	bool need_header;
 	/// bool if details percentage are relative to total count rather to
 	/// symbol count
 	bool global_percent;

 	/// To retrieve the real image location, usefull when acting on
 	/// an archive and for 2.6 kernel modules
 	extra_images const & extra_found_images;
 };


 /// class to output in a columned format symbols and associated samples
 class opreport_formatter : public formatter {
 public:
 	/// build a ready to use formatter
 	opreport_formatter(profile_container const & profile);

 	/** output a vector of symbols to out according to the output format
 	 * specifier previously set by call(s) to add_format() */
 	void output(std::ostream & out, symbol_collection const & syms);

 	/// set the output_details boolean
 	void show_details(bool);

 private:

 	/** output one symbol symb to out according to the output format
 	 * specifier previously set by call(s) to add_format() */
 	void output(std::ostream & out, symbol_entry const * symb);

 	/// output details for the symbol
 	void output_details(std::ostream & out, symbol_entry const * symb);

 	/// container we work from
 	profile_container const & profile;

 	/// true if we need to show details for each symbols
 	bool need_details;
 };


 /// class to output in a columned format caller/callee and associated samples
 class cg_formatter : public formatter {
 public:
 	/// build a ready to use formatter
 	cg_formatter(callgraph_container const & profile);

 	/** output callgraph information according to the previously format
 	 * specifier set by call(s) to add_format() */
 	void output(std::ostream & out, symbol_collection const & syms);
 };

 /// class to output a columned format symbols plus diff values
 class diff_formatter : public formatter {
 public:
 	/// build a ready to use formatter
 	diff_formatter(diff_container const & profile,
 		       extra_images const & extra);

 	/**
 	 * Output a vector of symbols to out according to the output
 	 * format specifier previously set by call(s) to add_format()
 	 */
 	void output(std::ostream & out, diff_collection const & syms);

 private:
 	/// output a single symbol
 	void output(std::ostream & out, diff_symbol const & sym);

 };


 /// class to output in XML format
 class xml_formatter : public formatter {
 public:
 	/// build a ready to use formatter
 	xml_formatter(profile_container const * profile,
 		      symbol_collection & symbols, extra_images const & extra,
 		      string_filter const & symbol_filter);

 	// output body of XML output
 	void output(std::ostream & out);

 	/** output one symbol symb to out according to the output format
 	 * specifier previously set by call(s) to add_format() */
 	virtual void output_symbol(std::ostream & out,
 		symbol_entry const * symb, size_t lo, size_t hi,
 		bool is_module);

 	/// output details for the symbol
 	std::string output_symbol_details(symbol_entry const * symb,
 		size_t & detail_index, size_t const lo, size_t const hi);

 	/// set the output_details boolean
 	void show_details(bool);

 	// output SymbolData XML elements
 	void output_symbol_data(std::ostream & out);

 private:
 	/// container we work from
 	profile_container const * profile;

 	// ordered collection of symbols associated with this profile
 	symbol_collection & symbols;

 	/// true if we need to show details for each symbols
 	bool need_details;

 	// count of DetailData items output so far
 	size_t detail_count;

 	/// with --details we need to reopen the bfd object for each symb to
 	/// get it's contents, hence we store the filter used by the bfd ctor.
 	string_filter const & symbol_filter;

 	void output_sample_data(std::ostream & out,
 		sample_entry const & sample, size_t count);

 	/// output attribute in XML
 	void output_attribute(std::ostream & out, field_datum const & datum,
 			      format_flags fl, tag_t tag);

 	/// Retrieve a bfd object for this symbol, reopening a new bfd object
 	/// only if necessary
 	bool get_bfd_object(symbol_entry const * symb, op_bfd * & abfd) const;

 	void output_the_symbol_data(std::ostream & out,
 		symbol_entry const * symb, op_bfd * & abfd);

 	void output_cg_children(std::ostream & out,
 		cg_symbol::children const cg_symb, op_bfd * & abfd);
 };

 // callgraph XML output version
 class xml_cg_formatter : public xml_formatter {
 public:
 	/// build a ready to use formatter
 	xml_cg_formatter(callgraph_container const & callgraph,
 		symbol_collection & symbols, string_filter const & sf);

 	/** output one symbol symb to out according to the output format
 	 * specifier previously set by call(s) to add_format() */
 	virtual void output_symbol(std::ostream & out,
 		symbol_entry const * symb, size_t lo, size_t hi, bool is_module);

 private:
 	/// container we work from
 	callgraph_container const & callgraph;

 	void output_symbol_core(std::ostream & out,
 		cg_symbol::children const cg_symb,
 		std::string const selfname, std::string const qname,
 		size_t lo, size_t hi, bool is_module, tag_t tag);
 };

 } // namespace format_output


 #endif /* !FORMAT_OUTPUT_H */
	/**
	* @file format_output.h
	* outputting format for symbol lists
	*
	* @remark Copyright 2002 OProfile authors
	* @remark Read the file COPYING
	*
	* @author Philippe Elie
	* @author John Levon
	*/

	#ifndef FORMAT_OUTPUT_H
	#define FORMAT_OUTPUT_H

	#include "config.h"

	#include <string>
	#include <map>
	#include <iosfwd>

	#include "format_flags.h"
	#include "symbol.h"
	#include "string_filter.h"
	#include "xml_output.h"

	class symbol_entry;
	class sample_entry;
	class callgraph_container;
	class profile_container;
	class diff_container;
	class extra_images;
	class op_bfd;

	struct profile_classes;
	// FIXME: should be passed to the derived class formatter ctor
	extern profile_classes classes;

	namespace format_output {

	/// base class for formatter, handle common options to formatter
	class formatter {
	public:
	formatter(extra_images const & extra);
	virtual ~formatter();

	/// add a given column
	void add_format(format_flags flag);

	/// set the need_header boolean to false
	void show_header(bool);
	/// format for 64 bit wide VMAs
	void vma_format_64bit(bool);
	/// show long (full path) filenames
	void show_long_filenames(bool);
	/// use global count rather symbol count for details percent
	void show_global_percent(bool);

	/**
	* Set the number of collected profile classes. Each class
	* will output sample count and percentage in extra columns.
	*
	* This class assumes that the profile information has been
	* populated with the right number of classes.
	*/
	void set_nr_classes(size_t nr_classes);

	/// output table header, implemented by calling the virtual function
	/// output_header_field()
	void output_header(std::ostream & out);

	protected:
	struct counts_t {
	/// total sample count
	count_array_t total;
	/// samples so far
	count_array_t cumulated_samples;
	/// percentage so far
	count_array_t cumulated_percent;
	/// detailed percentage so far
	count_array_t cumulated_percent_details;
	};

	/// data passed for output
	struct field_datum {
	field_datum(symbol_entry const & sym,
	sample_entry const & s,
	size_t pc, counts_t & c,
	extra_images const & extra, double d = 0.0)
	: symbol(sym), sample(s), pclass(pc),
	counts(c), extra(extra), diff(d) {}
	symbol_entry const & symbol;
	sample_entry const & sample;
	size_t pclass;
	counts_t & counts;
	extra_images const & extra;
	double diff;
	};

	/// format callback type
	typedef std::string (formatter::*fct_format)(field_datum const &);

	/** @name format functions.
	* The set of formatting functions, used internally by output().
	*/
	//@{
	std::string format_vma(field_datum const &);
	std::string format_symb_name(field_datum const &);
	std::string format_image_name(field_datum const &);
	std::string format_app_name(field_datum const &);
	std::string format_linenr_info(field_datum const &);
	std::string format_nr_samples(field_datum const &);
	std::string format_nr_cumulated_samples(field_datum const &);
	std::string format_percent(field_datum const &);
	std::string format_cumulated_percent(field_datum const &);
	std::string format_percent_details(field_datum const &);
	std::string format_cumulated_percent_details(field_datum const &);
	std::string format_diff(field_datum const &);
	//@}

	/// decribe one field of the colummned output.
	struct field_description {
	field_description() {}
	field_description(std::size_t w, std::string h,
	fct_format f)
	: width(w), header_name(h), formatter(f) {}

	std::size_t width;
	std::string header_name;
	fct_format formatter;
	};

	typedef std::map<format_flags, field_description> format_map_t;

	/// actually do output
	void do_output(std::ostream & out, symbol_entry const & symbol,
	sample_entry const & sample, counts_t & c,
	diff_array_t const & = diff_array_t(),
	bool hide_immutable_field = false);

	/// returns the nr of char needed to pad this field
	size_t output_header_field(std::ostream & out, format_flags fl,
	size_t padding);

	/// returns the nr of char needed to pad this field
	size_t output_field(std::ostream & out, field_datum const & datum,
	format_flags fl, size_t padding,
	bool hide_immutable);

	/// stores functors for doing actual formatting
	format_map_t format_map;

	/// number of profile classes
	size_t nr_classes;

	/// total counts
	counts_t counts;

	/// formatting flags set
	format_flags flags;
	/// true if we need to format as 64 bits quantities
	bool vma_64;
	/// false if we use basename(filename) in output rather filename
	bool long_filenames;
	/// true if we need to show header before the first output
	bool need_header;
	/// bool if details percentage are relative to total count rather to
	/// symbol count
	bool global_percent;

	/// To retrieve the real image location, usefull when acting on
	/// an archive and for 2.6 kernel modules
	extra_images const & extra_found_images;
	};


	/// class to output in a columned format symbols and associated samples
	class opreport_formatter : public formatter {
	public:
	/// build a ready to use formatter
	opreport_formatter(profile_container const & profile);

	/** output a vector of symbols to out according to the output format
	* specifier previously set by call(s) to add_format() */
	void output(std::ostream & out, symbol_collection const & syms);

	/// set the output_details boolean
	void show_details(bool);

	private:

	/** output one symbol symb to out according to the output format
	* specifier previously set by call(s) to add_format() */
	void output(std::ostream & out, symbol_entry const * symb);

	/// output details for the symbol
	void output_details(std::ostream & out, symbol_entry const * symb);

	/// container we work from
	profile_container const & profile;

	/// true if we need to show details for each symbols
	bool need_details;
	};


	/// class to output in a columned format caller/callee and associated samples
	class cg_formatter : public formatter {
	public:
	/// build a ready to use formatter
	cg_formatter(callgraph_container const & profile);

	/** output callgraph information according to the previously format
	* specifier set by call(s) to add_format() */
	void output(std::ostream & out, symbol_collection const & syms);
	};

	/// class to output a columned format symbols plus diff values
	class diff_formatter : public formatter {
	public:
	/// build a ready to use formatter
	diff_formatter(diff_container const & profile,
	extra_images const & extra);

	/**
	* Output a vector of symbols to out according to the output
	* format specifier previously set by call(s) to add_format()
	*/
	void output(std::ostream & out, diff_collection const & syms);

	private:
	/// output a single symbol
	void output(std::ostream & out, diff_symbol const & sym);

	};


	/// class to output in XML format
	class xml_formatter : public formatter {
	public:
	/// build a ready to use formatter
	xml_formatter(profile_container const * profile,
	symbol_collection & symbols, extra_images const & extra,
	string_filter const & symbol_filter);

	// output body of XML output
	void output(std::ostream & out);

	/** output one symbol symb to out according to the output format
	* specifier previously set by call(s) to add_format() */
	virtual void output_symbol(std::ostream & out,
	symbol_entry const * symb, size_t lo, size_t hi,
	bool is_module);

	/// output details for the symbol
	std::string output_symbol_details(symbol_entry const * symb,
	size_t & detail_index, size_t const lo, size_t const hi);

	/// set the output_details boolean
	void show_details(bool);

	// output SymbolData XML elements
	void output_symbol_data(std::ostream & out);

	private:
	/// container we work from
	profile_container const * profile;

	// ordered collection of symbols associated with this profile
	symbol_collection & symbols;

	/// true if we need to show details for each symbols
	bool need_details;

	// count of DetailData items output so far
	size_t detail_count;

	/// with --details we need to reopen the bfd object for each symb to
	/// get it's contents, hence we store the filter used by the bfd ctor.
	string_filter const & symbol_filter;

	void output_sample_data(std::ostream & out,
	sample_entry const & sample, size_t count);

	/// output attribute in XML
	void output_attribute(std::ostream & out, field_datum const & datum,
	format_flags fl, tag_t tag);

	/// Retrieve a bfd object for this symbol, reopening a new bfd object
	/// only if necessary
	bool get_bfd_object(symbol_entry const * symb, op_bfd * & abfd) const;

	void output_the_symbol_data(std::ostream & out,
	symbol_entry const * symb, op_bfd * & abfd);

	void output_cg_children(std::ostream & out,
	cg_symbol::children const cg_symb, op_bfd * & abfd);
	};

	// callgraph XML output version
	class xml_cg_formatter : public xml_formatter {
	public:
	/// build a ready to use formatter
	xml_cg_formatter(callgraph_container const & callgraph,
	symbol_collection & symbols, string_filter const & sf);

	/** output one symbol symb to out according to the output format
	* specifier previously set by call(s) to add_format() */
	virtual void output_symbol(std::ostream & out,
	symbol_entry const * symb, size_t lo, size_t hi, bool is_module);

	private:
	/// container we work from
	callgraph_container const & callgraph;

	void output_symbol_core(std::ostream & out,
	cg_symbol::children const cg_symb,
	std::string const selfname, std::string const qname,
	size_t lo, size_t hi, bool is_module, tag_t tag);
	};

	} // namespace format_output


	#endif /* !FORMAT_OUTPUT_H */