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openresty/doc/LuaJIT-2.1/ext_profiler.pod

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=pod
LuaJIT
=head1 Profiler
=over
=item * LuaJIT
=over
=item * Download E<rchevron>
=item * Installation
=item * Running
=back
=item * Extensions
=over
=item * FFI Library
=over
=item * FFI Tutorial
=item * ffi.* API
=item * FFI Semantics
=back
=item * jit.* Library
=item * Lua/C API
=item * Profiler
=back
=item * Status
=over
=item * Changes
=back
=item * FAQ
=item * Performance E<rchevron>
=item * Wiki E<rchevron>
=item * Mailing List E<rchevron>
=back
LuaJIT has an integrated statistical profiler with very low overhead.
It allows sampling the currently executing stack and other parameters
in regular intervals.
The integrated profiler can be accessed from three levels:
=over
=item * The bundled high-level profiler, invoked by the C<-jp> command
line option.
=item * A low-level Lua API to control the profiler.
=item * A low-level C API to control the profiler.
=back
=head2 High-Level Profiler
The bundled high-level profiler offers basic profiling functionality.
It generates simple textual summaries or source code annotations. It
can be accessed with the C<-jp> command line option or from Lua code by
loading the underlying C<jit.p> module.
To cut to the chase E<mdash> run this to get a CPU usage profile by
function name:
luajit -jp myapp.lua
It's I<not> a stated goal of the bundled profiler to add every possible
option or to cater for special profiling needs. The low-level profiler
APIs are documented below. They may be used by third-party authors to
implement advanced functionality, e.g. IDE integration or graphical
profilers.
Note: Sampling works for both interpreted and JIT-compiled code. The
results for JIT-compiled code may sometimes be surprising. LuaJIT
heavily optimizes and inlines Lua code E<mdash> there's no simple
one-to-one correspondence between source code lines and the sampled
machine code.
=head2 C<-jp=[options[,output]]>
The C<-jp> command line option starts the high-level profiler. When the
application run by the command line terminates, the profiler stops and
writes the results to C<stdout> or to the specified C<output> file.
The C<options> argument specifies how the profiling is to be performed:
=over
=item * C<f> E<mdash> Stack dump: function name, otherwise module:line.
This is the default mode.
=item * C<F> E<mdash> Stack dump: ditto, but dump module:name.
=item * C<l> E<mdash> Stack dump: module:line.
=item * C<E<lt>numberE<gt>> E<mdash> stack dump depth (callee E<larr>
caller). Default: 1.
=item * C<-E<lt>numberE<gt>> E<mdash> Inverse stack dump depth (caller
E<rarr> callee).
=item * C<s> E<mdash> Split stack dump after first stack level. Implies
depth E<ge> 2 or depth E<le> -2.
=item * C<p> E<mdash> Show full path for module names.
=item * C<v> E<mdash> Show VM states.
=item * C<z> E<mdash> Show zones.
=item * C<r> E<mdash> Show raw sample counts. Default: show
percentages.
=item * C<a> E<mdash> Annotate excerpts from source code files.
=item * C<A> E<mdash> Annotate complete source code files.
=item * C<G> E<mdash> Produce raw output suitable for graphical tools.
=item * C<mE<lt>numberE<gt>> E<mdash> Minimum sample percentage to be
shown. Default: 3%.
=item * C<iE<lt>numberE<gt>> E<mdash> Sampling interval in
milliseconds. Default: 10ms.
Note: The actual sampling precision is OS-dependent.
=back
The default output for C<-jp> is a list of the most CPU consuming spots
in the application. Increasing the stack dump depth with (say) C<-jp=2>
may help to point out the main callers or callees of hotspots. But
sample aggregation is still flat per unique stack dump.
To get a two-level view (split view) of callers/callees, use C<-jp=s>
or C<-jp=-s>. The percentages shown for the second level are relative
to the first level.
To see how much time is spent in each line relative to a function, use
C<-jp=fl>.
To see how much time is spent in different VM states or zones, use
C<-jp=v> or C<-jp=z>.
Combinations of C<v/z> with C<f/F/l> produce two-level views, e.g.
C<-jp=vf> or C<-jp=fv>. This shows the time spent in a VM state or zone
vs. hotspots. This can be used to answer questions like "Which time
consuming functions are only interpreted?" or "What's the garbage
collector overhead for a specific function?".
Multiple options can be combined E<mdash> but not all combinations make
sense, see above. E.g. C<-jp=3si4m1> samples three stack levels deep in
4ms intervals and shows a split view of the CPU consuming functions and
their callers with a 1% threshold.
Source code annotations produced by C<-jp=a> or C<-jp=A> are always
flat and at the line level. Obviously, the source code files need to be
readable by the profiler script.
The high-level profiler can also be started and stopped from Lua code
with:
require("jit.p").start(options, output)
...
require("jit.p").stop()
=head2 C<jit.zone> E<mdash> Zones
Zones can be used to provide information about different parts of an
application to the high-level profiler. E.g. a game could make use of
an C<"AI"> zone, a C<"PHYS"> zone, etc. Zones are hierarchical,
organized as a stack.
The C<jit.zone> module needs to be loaded explicitly:
local zone = require("jit.zone")
=over
=item * C<zone("name")> pushes a named zone to the zone stack.
=item * C<zone()> pops the current zone from the zone stack and returns
its name.
=item * C<zone:get()> returns the current zone name or C<nil>.
=item * C<zone:flush()> flushes the zone stack.
=back
To show the time spent in each zone use C<-jp=z>. To show the time
spent relative to hotspots use e.g. C<-jp=zf> or C<-jp=fz>.
=head2 Low-level Lua API
The C<jit.profile> module gives access to the low-level API of the
profiler from Lua code. This module needs to be loaded explicitly:
local profile = require("jit.profile")
This module can be used to implement your own higher-level profiler. A
typical profiling run starts the profiler, captures stack dumps in the
profiler callback, adds them to a hash table to aggregate the number of
samples, stops the profiler and then analyzes all of the captured stack
dumps. Other parameters can be sampled in the profiler callback, too.
But it's important not to spend too much time in the callback, since
this may skew the statistics.
=head2 C<profile.start(mode, cb)> E<mdash> Start profiler
This function starts the profiler. The C<mode> argument is a string
holding options:
=over
=item * C<f> E<mdash> Profile with precision down to the function
level.
=item * C<l> E<mdash> Profile with precision down to the line level.
=item * C<iE<lt>numberE<gt>> E<mdash> Sampling interval in milliseconds
(default 10ms). Note: The actual sampling precision is OS-dependent.
=back
The C<cb> argument is a callback function which is called with three
arguments: C<(thread, samples, vmstate)>. The callback is called on a
separate coroutine, the C<thread> argument is the state that holds the
stack to sample for profiling. Note: do I<not> modify the stack of that
state or call functions on it.
C<samples> gives the number of accumulated samples since the last
callback (usually 1).
C<vmstate> holds the VM state at the time the profiling timer
triggered. This may or may not correspond to the state of the VM when
the profiling callback is called. The state is either C<'N'> native
(compiled) code, C<'I'> interpreted code, C<'C'> C code, C<'G'> the
garbage collector, or C<'J'> the JIT compiler.
=head2 C<profile.stop()> E<mdash> Stop profiler
This function stops the profiler.
=head2 C<dump = profile.dumpstack([thread,] fmt, depth)> E<mdash> Dump
stack
This function allows taking stack dumps in an efficient manner. It
returns a string with a stack dump for the C<thread> (coroutine),
formatted according to the C<fmt> argument:
=over
=item * C<p> E<mdash> Preserve the full path for module names.
Otherwise only the file name is used.
=item * C<f> E<mdash> Dump the function name if it can be derived.
Otherwise use module:line.
=item * C<F> E<mdash> Ditto, but dump module:name.
=item * C<l> E<mdash> Dump module:line.
=item * C<Z> E<mdash> Zap the following characters for the last dumped
frame.
=item * All other characters are added verbatim to the output string.
=back
The C<depth> argument gives the number of frames to dump, starting at
the topmost frame of the thread. A negative number dumps the frames in
inverse order.
The first example prints a list of the current module names and line
numbers of up to 10 frames in separate lines. The second example prints
semicolon-separated function names for all frames (up to 100) in
inverse order:
print(profile.dumpstack(thread, "l\n", 10))
print(profile.dumpstack(thread, "lZ;", -100))
=head2 Low-level C API
The profiler can be controlled directly from C code, e.g. for use by
IDEs. The declarations are in C<"luajit.h"> (see Lua/C API extensions).
=head2 C<luaJIT_profile_start(L, mode, cb, data)> E<mdash> Start
profiler
This function starts the profiler. See above for a description of the
C<mode> argument.
The C<cb> argument is a callback function with the following
declaration:
typedef void (*luaJIT_profile_callback)(void *data, lua_State *L,
int samples, int vmstate);
C<data> is available for use by the callback. C<L> is the state that
holds the stack to sample for profiling. Note: do I<not> modify this
stack or call functions on this stack E<mdash> use a separate coroutine
for this purpose. See above for a description of C<samples> and
C<vmstate>.
=head2 C<luaJIT_profile_stop(L)> E<mdash> Stop profiler
This function stops the profiler.
=head2 C<p = luaJIT_profile_dumpstack(L, fmt, depth, len)> E<mdash>
Dump stack
This function allows taking stack dumps in an efficient manner. See
above for a description of C<fmt> and C<depth>.
This function returns a C<const char *> pointing to a private string
buffer of the profiler. The C<int *len> argument returns the length of
the output string. The buffer is overwritten on the next call and
deallocated when the profiler stops. You either need to consume the
content immediately or copy it for later use.
----
Copyright E<copy> 2005-2016 Mike Pall E<middot> Contact
=cut
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