1 Sun Feb 5 16:09:16 1995
3 This file documents the changes and new features available with this
10 o Supports generalized file format, without breaking backward compatibility:
11 new file format supports basic-block execution counts and non-realtime
12 histograms (see below)
14 o Supports profiling at the line level: flat profiles, call-graph profiles,
15 and execution-counts can all be displayed at a level that identifies
16 individual lines rather than just functions
18 o Test-coverage support (similar to Sun tcov program): source files
19 can be annotated with the number of times a function was invoked
20 or with the number of times each basic-block in a function was
23 o Generalized histograms: not just execution-time, but arbitrary
24 histograms are support (for example, performance counter based
27 o Powerful mechanism to select data to be included/excluded from
28 analysis and/or output
30 o Support for DEC OSF/1 v3.0
32 o Full cross-platform profiling support: gprof uses BFD to support
33 arbitrary, non-native object file formats and non-native byte-orders
34 (this feature has not been tested yet)
36 o In the call-graph function index, static function names are now
37 printed together with the filename in which the function was defined
38 (required bfd_find_nearest_line() support and symbolic debugging
39 information to be present in the executable file)
41 o Major overhaul of source code (compiles cleanly with -Wall, etc.)
45 The current version is known to work on:
48 All features supported.
51 All features supported.
54 Line-level profiling unsupported because bfd_find_nearest_line()
55 is not fully implemented for Elf binaries.
58 Line-level profiling unsupported because bfd_find_nearest_line()
59 is not fully implemented for SOM binaries.
61 * Detailed Description
63 ** User Interface Changes
65 The command-line interface is backwards compatible with earlier
66 versions of GNU gprof and Berkeley gprof. The only exception is
67 the option to delete arcs from the call graph. The old syntax
72 while the new syntax is:
76 This change was necessary to be compatible with long-option parsing.
77 Also, "fromname" and "toname" can now be arbitrary symspecs rather
78 than just function names (see below for an explanation of symspecs).
79 For example, option "-k gprof.c/" suppresses all arcs due to calls out
84 It is often necessary to apply gprof only to specific parts of a
85 program. GNU gprof has a simple but powerful mechanism to achieve
86 this. So called {\em symspecs\/} provide the foundation for this
87 mechanism. A symspec selects the parts of a profiled program to which
88 an operation should be applied to. The syntax of a symspec is
91 filename_containing_a_dot
92 | funcname_not_containing_a_dot
94 | ( [ any_filename ] `:' ( any_funcname | linenumber ) )
96 Here are some examples:
98 main.c Selects everything in file "main.c"---the
99 dot in the string tells gprof to interpret
100 the string as a filename, rather than as
101 a function name. To select a file whose
102 name does contain a dot, a trailing colon
103 should be specified. For example, "odd:" is
104 interpreted as the file named "odd".
106 main Selects all functions named "main". Notice
107 that there may be multiple instances of the
108 same function name because some of the
109 definitions may be local (i.e., static).
110 Unless a function name is unique in a program,
111 you must use the colon notation explained
112 below to specify a function from a specific
113 source file. Sometimes, functionnames contain
114 dots. In such cases, it is necessar to
115 add a leading colon to the name. For example,
116 ":.mul" selects function ".mul".
118 main.c:main Selects function "main" in file "main.c".
120 main.c:134 Selects line 134 in file "main.c".
122 IMPLEMENTATION NOTE: The source code uses the type sym_id for symspecs.
123 At some point, this probably ought to be changed to "sym_spec" to make
124 reading the code easier.
128 GNU gprof now supports long options. The following is a list of all
129 supported options. Options that are listed without description
130 operate in the same manner as the corresponding option in older
133 Short Form: Long Form:
134 ----------- ----------
136 Request profiling at the line-level rather
137 than just at the function level. Source
138 lines are identified by symbols of the form:
142 where "func" is the function name, "file" is the
143 file name and "line" is the line-number that
144 corresponds to the line.
146 To work properly, the binary must contain symbolic
147 debugging information. This means that the source
148 have to be translated with option "-g" specified.
149 Functions for which there is no symbolic debugging
150 information available are treated as if "--line"
151 had not been specified. However, the line number
152 printed with such symbols is usually incorrect
153 and should be ignored.
156 -A[symspec] --annotated-source[=symspec]
157 Request output in the form of annotated source
158 files. If "symspec" is specified, print output only
159 for symbols selected by "symspec". If the option
160 is specified multiple times, annotated output is
161 generated for the union of all symspecs.
165 -A Prints annotated source for all
167 -Agprof.c Prints annotated source for file
169 -Afoobar Prints annotated source for files
170 containing a function named "foobar".
171 The entire file will be printed, but
172 only the function itself will be
173 annotated with profile data.
175 -J[symspec] --no-annotated-source[=symspec]
176 Suppress annotated source output. If specified
177 without argument, annotated output is suppressed
178 completely. With an argument, annotated output
179 is suppressed only for the symbols selected by
180 "symspec". If the option is specified multiple
181 times, annotated output is suppressed for the
182 union of all symspecs. This option has lower
183 precedence than --annotated-source
185 -p[symspec] --flat-profile[=symspec]
186 Request output in the form of a flat profile
187 (unless any other output-style option is specified,
188 this option is turned on by default). If
189 "symspec" is specified, include only symbols
190 selected by "symspec" in flat profile. If the
191 option is specified multiple times, the flat
192 profile includes symbols selected by the union
195 -P[symspec] --no-flat-profile[=symspec]
196 Suppress output in the flat profile. If given
197 without an argument, the flat profile is suppressed
198 completely. If "symspec" is specified, suppress
199 the selected symbols in the flat profile. If the
200 option is specified multiple times, the union of
201 the selected symbols is suppressed. This option
202 has lower precedence than --flat-profile.
204 -q[symspec] --graph[=symspec]
205 Request output in the form of a call-graph
206 (unless any other output-style option is specified,
207 this option is turned on by default). If "symspec"
208 is specified, include only symbols selected by
209 "symspec" in the call-graph. If the option is
210 specified multiple times, the call-graph includes
211 symbols selected by the union of all symspecs.
213 -Q[symspec] --no-graph[=symspec]
214 Suppress output in the call-graph. If given without
215 an argument, the call-graph is suppressed completely.
216 With a "symspec", suppress the selected symbols
217 from the call-graph. If the option is specified
218 multiple times, the union of the selected symbols
219 is suppressed. This option has lower precedence
222 -C[symspec] --exec-counts[=symspec]
223 Request output in the form of execution counts.
224 If "symspec" is present, include only symbols
225 selected by "symspec" in the execution count
226 listing. If the option is specified multiple
227 times, the execution count listing includes
228 symbols selected by the union of all symspecs.
230 -Z[symspec] --no-exec-counts[=symspec]
231 Suppress output in the execution count listing.
232 If given without an argument, the listing is
233 suppressed completely. With a "symspec", suppress
234 the selected symbols from the call-graph. If the
235 option is specified multiple times, the union of
236 the selected symbols is suppressed. This option
237 has lower precedence than --exec-counts.
240 Print information about the profile files that
241 are read. The information consists of the
242 number and types of records present in the
243 profile file. Currently, a profile file can
244 contain any number and any combination of histogram,
245 call-graph, or basic-block count records.
250 This option affects annotated source output only.
251 By default, only the lines at the beginning of
252 a basic-block are annotated. If this option is
253 specified, every line in a basic-block is annotated
254 by repeating the annotation for the first line.
255 This option is identical to tcov's "-a".
257 -I dirs --directory-path=dirs
258 This option affects annotated source output only.
259 Specifies the list of directories to be searched
260 for source files. The argument "dirs" is a colon
261 separated list of directories. By default, gprof
262 searches for source files relative to the current
263 working directory only.
265 -z --display-unused-functions
267 -m num --min-count=num
268 This option affects annotated source and execution
269 count output only. Symbols that are executed
270 less than "num" times are suppressed. For annotated
271 source output, suppressed symbols are marked
272 by five hash-marks (#####). In an execution count
273 output, suppressed symbols do not appear at all.
276 Normally, source filenames are printed with the path
277 component suppressed. With this option, gprof
278 can be forced to print the full pathname of
279 source filenames. The full pathname is determined
280 from symbolic debugging information in the image file
281 and is relative to the directory in which the compiler
285 This option affects annotated source output only.
286 Normally, gprof prints annotated source files
287 to standard-output. If this option is specified,
288 annotated source for a file named "path/filename"
289 is generated in the file "filename-ann". That is,
290 annotated output is {\em always\/} generated in
291 gprof's current working directory. Care has to
292 be taken if a program consists of files that have
293 identical filenames, but distinct paths.
295 -c --static-call-graph
297 -t num --table-length=num
298 This option affects annotated source output only.
299 After annotating a source file, gprof generates
300 an execution count summary consisting of a table
301 of lines with the top execution counts. By
302 default, this table is ten entries long.
303 This option can be used to change the table length
304 or, by specifying an argument value of 0, it can be
305 suppressed completely.
307 -n symspec --time=symspec
308 Only symbols selected by "symspec" are considered
309 in total and percentage time computations.
310 However, this option does not affect percentage time
311 computation for the flat profile.
312 If the option is specified multiple times, the union
313 of all selected symbols is used in time computations.
316 Exclude the symbols selected by "symspec" from
317 total and percentage time computations.
318 However, this option does not affect percentage time
319 computation for the flat profile.
320 This option is ignored if any --time options are
324 Sets the output line width. Currently, this option
325 affects the printing of the call-graph function index
328 -e <no long form---for backwards compatibility only>
329 -E <no long form---for backwards compatibility only>
330 -f <no long form---for backwards compatibility only>
331 -F <no long form---for backwards compatibility only>
332 -k <no long form---for backwards compatibility only>
337 Prints a usage message.
339 -O name --file-format=name
340 Selects the format of the profile data files.
341 Recognized formats are "auto", "bsd", "magic",
342 and "prof". The last one is not yet supported.
343 Format "auto" attempts to detect the file format
344 automatically (this is the default behavior).
345 It attempts to read the profile data files as
346 "magic" files and if this fails, falls back to
347 the "bsd" format. "bsd" forces gprof to read
348 the data files in the BSD format. "magic" forces
349 gprof to read the data files in the "magic" format.
354 ** File Format Changes
356 The old BSD-derived format used for profile data does not contain a
357 magic cookie that allows to check whether a data file really is a
358 gprof file. Furthermore, it does not provide a version number, thus
359 rendering changes to the file format almost impossible. GNU gprof
360 uses a new file format that provides these features. For backward
361 compatibility, GNU gprof continues to support the old BSD-derived
362 format, but not all features are supported with it. For example,
363 basic-block execution counts cannot be accommodated by the old file
366 The new file format is defined in header file \file{gmon_out.h}. It
367 consists of a header containing the magic cookie and a version number,
368 as well as some spare bytes available for future extensions. All data
369 in a profile data file is in the native format of the host on which
370 the profile was collected. GNU gprof adapts automatically to the
373 In the new file format, the header is followed by a sequence of
374 records. Currently, there are three different record types: histogram
375 records, call-graph arc records, and basic-block execution count
376 records. Each file can contain any number of each record type. When
377 reading a file, GNU gprof will ensure records of the same type are
378 compatible with each other and compute the union of all records. For
379 example, for basic-block execution counts, the union is simply the sum
380 of all execution counts for each basic-block.
382 *** Histogram Records
384 Histogram records consist of a header that is followed by an array of
385 bins. The header contains the text-segment range that the histogram
386 spans, the size of the histogram in bytes (unlike in the old BSD
387 format, this does not include the size of the header), the rate of the
388 profiling clock, and the physical dimension that the bin counts
389 represent after being scaled by the profiling clock rate. The
390 physical dimension is specified in two parts: a long name of up to 15
391 characters and a single character abbreviation. For example, a
392 histogram representing real-time would specify the long name as
393 "seconds" and the abbreviation as "s". This feature is useful for
394 architectures that support performance monitor hardware (which,
395 fortunately, is becoming increasingly common). For example, under DEC
396 OSF/1, the "uprofile" command can be used to produce a histogram of,
397 say, instruction cache misses. In this case, the dimension in the
398 histogram header could be set to "i-cache misses" and the abbreviation
399 could be set to "1" (because it is simply a count, not a physical
400 dimension). Also, the profiling rate would have to be set to 1 in
403 Histogram bins are 16-bit numbers and each bin represent an equal
404 amount of text-space. For example, if the text-segment is one
405 thousand bytes long and if there are ten bins in the histogram, each
406 bin represents one hundred bytes.
409 *** Call-Graph Records
411 Call-graph records have a format that is identical to the one used in
412 the BSD-derived file format. It consists of an arc in the call graph
413 and a count indicating the number of times the arc was traversed
414 during program execution. Arcs are specified by a pair of addresses:
415 the first must be within caller's function and the second must be
416 within the callee's function. When performing profiling at the
417 function level, these addresses can point anywhere within the
418 respective function. However, when profiling at the line-level, it is
419 better if the addresses are as close to the call-site/entry-point as
420 possible. This will ensure that the line-level call-graph is able to
421 identify exactly which line of source code performed calls to a
424 *** Basic-Block Execution Count Records
426 Basic-block execution count records consist of a header followed by a
427 sequence of address/count pairs. The header simply specifies the
428 length of the sequence. In an address/count pair, the address
429 identifies a basic-block and the count specifies the number of times
430 that basic-block was executed. Any address within the basic-address can
433 IMPLEMENTATION NOTE: gcc -a can be used to instrument a program to
434 record basic-block execution counts. However, the __bb_exit_func()
435 that is currently present in libgcc2.c does not generate a gmon.out
436 file in a suiteable format. This should be fixed for future releases
437 of gcc. In the meantime, contact davidm@cs.arizona.edu for a version
438 of __bb_exit_func() to is appropriate.
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