gprof(1) - NetBSD Manual Pages

GPROF(1)                    NetBSD Reference Manual                   GPROF(1)


NAME
gprof - display call graph profile data
SYNOPSIS
gprof [options] [a.out [gmon.out ...]]
DESCRIPTION
Gprof produces an execution profile of C, Pascal, or Fortran77 programs. The effect of called routines is incorporated in the profile of each caller. The profile data is taken from the call graph profile file (gmon.out default) which is created by programs that are compiled with the -pg option of cc(1), pc(1), and f77(1). The -pg option also links in versions of the library routines that are compiled for profiling. Gprof reads the given object file (the default is a.out) and establishes the relation between it's symbol table and the call graph profile from gmon.out. If more than one profile file is specified, the gprof output shows the sum of the profile information in the given profile files. Gprof calculates the amount of time spent in each routine. Next, these times are propagated along the edges of the call graph. Cycles are dis- covered, and calls into a cycle are made to share the time of the cycle. The first listing shows the functions sorted according to the time they represent including the time of their call graph descendents. Below each function entry is shown its (direct) call graph children, and how their times are propagated to this function. A similar display above the func- tion shows how this function's time and the time of its descendents is propagated to its (direct) call graph parents. Cycles are also shown, with an entry for the cycle as a whole and a list- ing of the members of the cycle and their contributions to the time and call counts of the cycle. Second, a flat profile is given, similar to that provided by prof(1). This listing gives the total execution times, the call counts, the time in milliseconds the call spent in the routine itself, and the time in milliseconds the call spent in the routine itself including its descen- dents. Finally, an index of the function names is provided. The following options are available: -a Suppresses the printing of statically declared functions. If this option is given, all relevant information about the static function (e.g., time samples, calls to other func- tions, calls from other functions) belongs to the function loaded just before the static function in the a.out file. -b Suppresses the printing of a description of each field in the profile. -c The static call graph of the program is discovered by a heuristic that examines the text space of the object file. Static-only parents or children are shown with call counts of 0. -C count Find a minimal set of arcs that can be broken to eliminate all cycles with count or more members. Caution: the algo- rithm used to break cycles is exponential, so using this op- tion may cause gprof to run for a very long time. -e name Suppresses the printing of the graph profile entry for rou- tine name and all its descendants (unless they have other an- cestors that aren't suppressed). More than one -e option may be given. Only one name may be given with each -e option. -E name Suppresses the printing of the graph profile entry for rou- tine name (and its descendants) as -e, above, and also ex- cludes the time spent in name (and its descendants) from the total and percentage time computations. (For example, -E mcount -E mcleanup is the default.) -f name Prints the graph profile entry of only the specified routine name and its descendants. More than one -f option may be given. Only one name may be given with each -f option. -F name Prints the graph profile entry of only the routine name and its descendants (as -f, above) and also uses only the times of the printed routines in total time and percentage computa- tions. More than one -F option may be given. Only one name may be given with each -F option. The -F option overrides the -E option. -k fromname toname Will delete any arcs from routine fromname to routine toname. This can be used to break undesired cycles. More than one -k option may be given. Only one pair of routine names may be given with each -k option. -s A profile file gmon.sum is produced that represents the sum of the profile information in all the specified profile files. This summary profile file may be given to later exe- cutions of gprof (probably also with a -s) to accumulate pro- file data across several runs of an a.out file. -z Displays routines that have zero usage (as shown by call counts and accumulated time). This is useful with the -c op- tion for discovering which routines were never called.
ENVIRONMENT
PROFDIR If the environmental variable PROFDIR is set, profiling informa- tion is placed in that directory in a file named pid.progname. If it is set to a null value, no profiling information is out- put. Otherwise, profiling information is placed in the file gmon.out.
FILES
a.out The namelist and text space. gmon.out Dynamic call graph and profile. gmon.sum Summarized dynamic call graph and profile.
SEE ALSO
cc(1), prof(1), profil(2), moncontrol(3) S. Graham, P. Kessler, and M. McKusick, "An Execution Profiler for Modular Programs", Software - Practice and Experience, 13, pp. 671-685, 1983. S. Graham, P. Kessler, and M. McKusick, "gprof: A Call Graph Execution Profiler", Proceedings of the SIGPLAN '82 Symposium on Compiler Construction, SIGPLAN Notices, 6, 17, pp. 120-126, June 1982.
HISTORY
The gprof profiler appeared in 4.2BSD.
BUGS
The granularity of the sampling is shown, but remains statistical at best. We assume that the time for each execution of a function can be expressed by the total time for the function divided by the number of times the function is called. Thus the time propagated along the call graph arcs to the function's parents is directly proportional to the num- ber of times that arc is traversed. Parents that are not themselves profiled will have the time of their pro- filed children propagated to them, but they will appear to be sponta- neously invoked in the call graph listing, and will not have their time propagated further. Similarly, signal catchers, even though profiled, will appear to be spontaneous (although for more obscure reasons). Any profiled children of signal catchers should have their times propagated properly, unless the signal catcher was invoked during the execution of the profiling routine, in which case all is lost. The profiled program must call exit(3) or return normally for the profil- ing information to be saved in the gmon.out file. 4.2 Berkeley Distribution June 6, 1993 3

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