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172 lines
5.4 KiB
Markdown
172 lines
5.4 KiB
Markdown
# libprof: A performance profiling library for gint
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libprof is a small gint library that times and profiles the execution of an
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add-in. It is useful to record the time spent in one or several functions and
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to identify performance bottlenecks in an application.
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libprof's measurements are accurate down to the microsecond-level thanks to
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precise hardware timers, so it can also be used to time even small portions of
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code.
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## Installing and using libprof in a program
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**Installing with GiteaPC**
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libprof can be built and installed with [GiteaPC](https://gitea.planet-casio.com/Lephenixnoir/GiteaPC), an automation tool for the fxSDK.
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```bash
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% giteapc install Lephenixnoir/libprof
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```
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**Installing manually**
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libprof should be built with the [fxSDK](/Lephenixnoir/fxsdk), which provides
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compiler settings and library interfaces to build on the calculator.
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Simply run `fxsdk build-fx` or `fxsdk build-cg`. The fxSDK will invoke CMake
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with a suitable toolchain file while exposing CMake modules for the calculator.
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```bash
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% fxsdk build-fx install
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% fxsdk build-cg install
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```
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**Using in a CMake-based add-in**
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Find the `LibProf` package, which has a `LibProf` target. Versions are numbered like gint, so aim for your version of gint.
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```cmake
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find_package(LibProf 2.1 REQUIRED)
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target_link_libraries(<target_name> LibProf::LibProf)
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```
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**Using in a Makefile-based add-in**
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Link with `-lprof-fx` on fx-9860G and `-lprof-cg` on fx-CG 50. In `project.cfg`:
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```makefile
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LIBS_FX := -lprof-fx
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LIBS_CG := -lprof-cg
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```
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## Basic use
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To access the library, include the `<libprof.h>` header file and call
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`prof_init()` somewhere so that libprof has access to a precise timer. If no
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such timer is available, `prof_init()` returns non-zero (but normally either 2
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or 3 of the TMU are available when an add-in starts).
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```c
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#include <libprof.h>
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prof_init();
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```
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To measure execution time, create a profiling context with `prof_make()`, then
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call `prof_enter()` at the beginning of the code to time and `prof_leave()` at
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the end.
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```c
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void function_to_time(void)
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{
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prof_t prof = prof_make();
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prof_enter(prof);
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/* Do stuff... */
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prof_leave(prof);
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}
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```
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The context records the time spent between calls to `prof_enter()` and
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`prof_leave()`. It can be entered multiple times and will simply accumulate the
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time spent in its counter. When the counter is not running, you can query
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recorded time with `prof_time()`.
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```c
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uint32_t total_function_us = prof_time(prof);
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```
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This time is returned in microseconds, even though the timers are slightly more
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precise than this. Note that the overhead of `prof_enter()` and `prof_leave()`
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is usually less than 1 microsecond, so the measure is very close to the
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wall-clock time spent in the function even if the context is frequently used.
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At the end of the program or whenever you need the timer that libprof is
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holding, call `prof_quit()` to free the resources. This will make the timer
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available to `timer_setup()` again.
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```c
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prof_quit();
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```
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## Recursive functions
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The profiler context keeps track of recursive calls so that functions that
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enter and leave recursively can be timed as well. The only difference with the
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basic example is that we need to make sure a single context is used (instead
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of creating a new one in each stack frame). Making it static is enough.
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```c
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void recursive_function_to_time(void)
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{
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static prof_t prof = prof_make();
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prof_enter(prof);
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/* Stuff... */
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recursive_function_to_time();
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/* Stuff... */
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prof_leave(prof);
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}
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```
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However it makes it somewhat difficult to retrieve the elapsed time because it
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is hidden withing the function's name scope. Making it global can help.
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## Timing a single execution
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In many cases applications just need to measure a single piece of code once and
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get the resulting time. `prof_exec()` is a shortcut macro that does exactly
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that, creating a temporary context and returning elapsed time.
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```
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uint32_t elapsed_us = prof_exec({
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scene_graph_render();
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});
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```
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The macro expands to a short code block that wraps the argument and returns
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the `prof_time()` of the temporary context.
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## Using the timers's full precision
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Hardware timers run at 7-15 MHz depending on the calculator model, so the time
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measure it slightly more precise than what `prof_time()` shows you. You can
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access that value through the `elapsed` field of a context object.
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The value is a count of ticks that occur at a frequency of PΦ/4, where the
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value of PΦ can be obtained by querying gint's CPG driver:
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```c
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#include <gint/clock.h>
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uint32_t tick_freq = clock_freq()->Pphi_f / 4;
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```
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Note that the overhead of `prof_enter()` and `prof_leave()` is usually less
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than a microsecond, but more than a few timer ticks.
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Due in part to caching effects, the first measurement for a given code sequence
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is likely to be larger than the other ones. I have seen effects such as 3 µs
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for a no-op (cache misses in libprof's code) and 100 µs for real cases (cache
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misses in the code itself). Make sure to make several measurements and use
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serious statistical methods!
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## Overclock interference
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Contexts store timer tick counts, which are converted to microsecond delays
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only when `prof_time()` is called. Do not mix measurements performed at
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different overclock settings as the results will be erroneous.
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What you can do is call `prof_time()` and reset the context (by assigning it
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`prof_make()`) before switching clock settings, then add up the microsecond
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delays when the execution is over.
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