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Copyright 1989 AT&T
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prof [-ChsVz] [-a | c | n | t] [-o | x] [-g | l] [-m mdata] [prog]
The prof command interprets a profile file produced by the monitor function. The symbol table in the object file prog (a.out by default) is read and correlated with a profile file (mon.out by default). For each external text symbol the percentage of time spent executing between the address of that symbol and the address of the next is printed, together with the number of times that function was called and the average number of milliseconds per call.
The mutually exclusive options -a, -c, -n, and -t determine the type of sorting of the output lines: -a
Sort by increasing symbol address.
Sort by decreasing number of calls.
Sort lexically by symbol name.
Sort by decreasing percentage of total time (default).
The mutually exclusive options -o and -x specify the printing of the address of each symbol monitored: -o
Print each symbol address (in octal) along with the symbol name.
Print each symbol address (in hexadecimal) along with the symbol name.
The mutually exclusive options -g and -l control the type of symbols to be reported. The -l option must be used with care; it applies the time spent in a static function to the preceding (in memory) global function, instead of giving the static function a separate entry in the report. If all static functions are properly located, this feature can be very useful. If not, the resulting report may be misleading.
Assume that A and B are global functions and only A calls static function S. If S is located immediately after A in the source code (that is, if S is properly located), then, with the -l option, the amount of time spent in A can easily be determined, including the time spent in S. If, however, both A and B call S, then, if the -l option is used, the report will be misleading; the time spent during B's call to S will be attributed to A, making it appear as if more time had been spent in A than really had. In this case, function S cannot be properly located. -g
List the time spent in static (non-global) functions separately. The -g option function is the opposite of the -l function.
Suppress printing statically declared functions. If this option is given, time spent executing in a static function is allocated to the closest global function loaded before the static function in the executable. This option is the default. It is the opposite of the -g function and should be used with care.
The following options may be used in any combination: -C
Demangle C++ symbol names before printing them out.
Suppress the heading normally printed on the report. This is useful if the report is to be processed further.
Use file mdata instead of mon.out as the input profile file.
Print a summary of several of the monitoring parameters and statistics on the standard error output.
Print prof version information on the standard error output.
Include all symbols in the profile range, even if associated with zero number of calls and zero time.
A single function may be split into subfunctions for profiling by means of the MARK macro. See prof(5).
The name of the file created by a profiled program is controlled by the environment variable PROFDIR. If PROFDIR is not set, mon.out is produced in the directory current when the program terminates. If PROFDIR=string, string/pid.progname is produced, where progname consists of argv[0] with any path prefix removed, and pid is the process ID of the program. If PROFDIR is set, but null, no profiling output is produced.
default profile file
default namelist (object) file
gprof(1), exit(2), pcsample(2), profil(2), malloc(3C), malloc(3MALLOC), monitor(3C), attributes(5), prof(5)
If the executable image has been stripped and does not have the .symtab symbol table, gprof reads the global dynamic symbol tables .dynsym and .SUNW_ldynsym, if present. The symbols in the dynamic symbol tables are a subset of the symbols that are found in .symtab. The .dynsym symbol table contains the global symbols used by the runtime linker. .SUNW_ldynsym augments the information in .dynsym with local function symbols. In the case where .dynsym is found and .SUNW_ldynsym is not, only the information for the global symbols is available. Without local symbols, the behavior is as described for the -a option.
The times reported in successive identical runs may show variances because of varying cache-hit ratios that result from sharing the cache with other processes. Even if a program seems to be the only one using the machine, hidden background or asynchronous processes may blur the data. In rare cases, the clock ticks initiating recording of the program counter may beat with loops in a program, grossly distorting measurements. Call counts are always recorded precisely, however.
Only programs that call exit or return from main are guaranteed to produce a profile file, unless a final call to monitor is explicitly coded.
The times for static functions are attributed to the preceding external text symbol if the -g option is not used. However, the call counts for the preceding function are still correct; that is, the static function call counts are not added to the call counts of the external function.
If more than one of the options -t, -c, -a, and -n is specified, the last option specified is used and the user is warned.
LD_LIBRARY_PATH must not contain /usr/lib as a component when compiling a program for profiling. If LD_LIBRARY_PATH contains /usr/lib, the program will not be linked correctly with the profiling versions of the system libraries in /usr/lib/libp. See gprof(1).
Functions such as mcount(), _mcount(), moncontrol(), _moncontrol(), monitor(), and _monitor() may appear in the prof report. These functions are part of the profiling implementation and thus account for some amount of the runtime overhead. Since these functions are not present in an unprofiled application, time accumulated and call counts for these functions may be ignored when evaluating the performance of an application.
64-bit profiling may be used freely with dynamically linked executables, and profiling information is collected for the shared objects if the objects are compiled for profiling. Care must be applied to interpret the profile output, since it is possible for symbols from different shared objects to have the same name. If duplicate names are seen in the profile output, it is better to use the -s (summary) option, which prefixes a module id before each symbol that is duplicated. The symbols can then be mapped to appropriate modules by looking at the modules information in the summary.
If the -a option is used with a dynamically linked executable, the sorting occurs on a per-shared-object basis. Since there is a high likelihood of symbols from differed shared objects to have the same value, this results in an output that is more understandable. A blank line separates the symbols from different shared objects, if the -s option is given.
32-bit profiling may be used with dynamically linked executables, but care must be applied. In 32-bit profiling, shared objects cannot be profiled with prof. Thus, when a profiled, dynamically linked program is executed, only the main portion of the image is sampled. This means that all time spent outside of the main object, that is, time spent in a shared object, will not be included in the profile summary; the total time reported for the program may be less than the total time used by the program.
Because the time spent in a shared object cannot be accounted for, the use of shared objects should be minimized whenever a program is profiled with prof. If desired, the program should be linked to the profiled version of a library (or to the standard archive version if no profiling version is available), instead of the shared object to get profile information on the functions of a library. Versions of profiled libraries may be supplied with the system in the /usr/lib/libp directory. Refer to compiler driver documentation on profiling.
Consider an extreme case. A profiled program dynamically linked with the shared C library spends 100 units of time in some libc routine, say, malloc(). Suppose malloc() is called only from routine B and B consumes only 1 unit of time. Suppose further that routine A consumes 10 units of time, more than any other routine in the main (profiled) portion of the image. In this case, prof will conclude that most of the time is being spent in A and almost no time is being spent in B. From this it will be almost impossible to tell that the greatest improvement can be made by looking at routine B and not routine A. The value of the profiler in this case is severely degraded; the solution is to use archives as much as possible for profiling.