From 530ffd0b7d3c39757b20f00716e486b5caf89aff Mon Sep 17 00:00:00 2001 From: sanine Date: Wed, 12 Oct 2022 12:03:23 -0500 Subject: add cairo --- libs/cairo-1.16.0/perf/README | 239 ++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 239 insertions(+) create mode 100644 libs/cairo-1.16.0/perf/README (limited to 'libs/cairo-1.16.0/perf/README') diff --git a/libs/cairo-1.16.0/perf/README b/libs/cairo-1.16.0/perf/README new file mode 100644 index 0000000..1b1c19a --- /dev/null +++ b/libs/cairo-1.16.0/perf/README @@ -0,0 +1,239 @@ +This is cairo's micro-benchmark performance test suite. + +One of the simplest ways to run this performance suite is: + + make perf + +which will give a report of the speed of each individual test. See +more details on other options for running the suite below. + +A macro test suite (with full traces and more intensive benchmarks) is +also available; for this, see https://cgit.freedesktop.org/cairo-traces. +The macro-benchmarks are better measures of actual real-world +performance, and should be preferred over the micro-benchmarks (and over +make perf) for identifying performance regressions or improvements. If +you copy or symlink this repository at cairo/perf/cairo-traces, then +make perf will run those tests as well. + +Running the micro-benchmarks +---------------------------- +The micro-benchmark performance suite is composed of a series of +hand-written, short, synthetic tests that measure the speed of doing a +simple operation such as painting a surface or showing glyphs. These aim +to give very good feedback on whether a performance related patch is +successful without causing any performance degradations elsewhere. + +The micro-benchmarks are compiled into a single executable called +cairo-perf-micro, which is what "make perf" executes. Some +examples of running it: + + # Report on all tests with default number of iterations: + ./cairo-perf-micro + + # Report on 100 iterations of all gradient tests: + ./cairo-perf-micro -i 100 gradient + + # Generate raw results for 10 iterations into cairo.perf + ./cairo-perf-micro -r -i 10 > cairo.perf + # Append 10 more iterations of the paint test + ./cairo-perf-micro -r -i 10 paint >> cairo.perf + +Raw results aren't useful for reading directly, but are quite useful +when using cairo-perf-diff to compare separate runs (see more +below). The advantage of using the raw mode is that test runs can be +generated incrementally and appended to existing reports. + +Generating comparisons of separate runs +--------------------------------------- +It's often useful to generate a chart showing the comparison of two +separate runs of the cairo performance suite, (for example, after +applying a patch intended to improve cairo's performance). The +cairo-perf-diff script can be used to compare two report files +generated by cairo-perf. + +Again, by way of example: + + # Show performance changes from cairo-orig.perf to cairo-patched.perf + ./cairo-perf-diff cairo-orig.perf cairo-patched.perf + +This will work whether the data files were generate in raw mode (with +cairo-perf -r) or cooked, (cairo-perf without -r). + +Finally, in its most powerful mode, cairo-perf-diff accepts two git +revisions and will do all the work of checking each revision out, +building it, running cairo-perf for each revision, and finally +generating the report. Obviously, this mode only works if you are +using cairo within a git repository, (and not from a tar file). Using +this mode is as simple as passing the git revisions to be compared to +cairo-perf-diff: + + # Compare cairo 1.2.6 to cairo 1.4.0 + ./cairo-perf-diff 1.2.6 1.4.0 + + # Measure the impact of the latest commit + ./cairo-perf-diff HEAD~1 HEAD + +As a convenience, this common desire to measure a single commit is +supported by passing a single revision to cairo-perf-diff, in which +case it will compare it to the immediately preceding commit. So for +example: + + # Measure the impact of the latest commit + ./cairo-perf-diff HEAD + + # Measure the impact of an arbitrary commit by SHA-1 + ./cairo-perf-diff aa883123d2af90 + +Also, when passing git revisions to cairo-perf-diff like this, it will +automatically cache results and re-use them rather than re-running +cairo-perf over and over on the same versions. This means that if you +ask for a report that you've generated in the past, cairo-perf-diff +should return it immediately. + +Now, sometimes it is desirable to generate more iterations rather than +re-using cached results. In this case, the -f flag can be used to +force cairo-perf-diff to generate additional results in addition to +what has been cached: + + # Measure the impact of latest commit (force more measurement) + ./cairo-perf-diff -f + +And finally, the -f mode is most useful in conjunction with the -- +option to cairo-perf-diff which allows you to pass options to the +underlying cairo-perf runs. This allows you to restrict the additional +test runs to a limited subset of the tests. + +For example, a frequently used trick is to first generate a chart with +a very small number of iterations for all tests: + + ./cairo-perf-diff HEAD + +Then, if any of the results look suspicious, (say there's a slowdown +reported in the text tests, but you think the text test shouldn't be +affected), then you can force more iterations to be tested for only +those tests: + + ./cairo-perf-diff -f HEAD -- text + +Generating comparisons of different backends +-------------------------------------------- +An alternate question that is often asked is, "how does the speed of one +backend compare to another?". cairo-perf-compare-backends can read files +generated by cairo-perf and produces a comparison of the backends for every +test. + +Again, by way of example: + + # Show relative performance of the backends + ./cairo-perf-compare-backends cairo.perf + +This will work whether the data files were generate in raw mode (with +cairo-perf -r) or cooked, (cairo-perf without -r). + + +Creating a new performance test +------------------------------- +This is where we could use everybody's help. If you have encountered a +sequence of cairo operations that are slower than you would like, then +please provide a performance test. Writing a test is very simple, it +requires you to write only a small C file with a couple of functions, +one of which exercises the cairo calls of interest. + +Here is the basic structure of a performance test file: + + /* Copyright © 2006 Kind Cairo User + * + * ... Licensing information here ... + * Please copy the MIT blurb as in other tests + */ + + #include "cairo-perf.h" + + static cairo_time_t + do_my_new_test (cairo_t *cr, int width, int height) + { + cairo_perf_timer_start (); + + /* Make the cairo calls to be measured */ + + cairo_perf_timer_stop (); + + return cairo_perf_timer_elapsed (); + } + + void + my_new_test (cairo_perf_t *perf, cairo_t *cr, int width, int height) + { + /* First do any setup for which the execution time should not + * be measured. For example, this might include loading + * images from disk, creating patterns, etc. */ + + /* Then launch the actual performance testing. */ + cairo_perf_run (perf, "my_new_test", do_my_new_test); + + /* Finally, perform any cleanup from the setup above. */ + } + +That's really all there is to writing a new test. The first function +above is the one that does the real work and returns a timing +number. The second function is the one that will be called by the +performance test rig (see below for how to accomplish that), and +allows for multiple performance cases to be written in one file, +(simply call cairo_perf_run once for each case, passing the +appropriate callback function to each). + +We go through this dance of indirectly calling your own function +through cairo_perf_run so that cairo_perf_run can call your function +many times and measure statistical properties over the many runs. + +Finally, to fully integrate your new test case you just need to add +your new test to three different lists. (TODO: We should set this up +better so that the lists are maintained automatically---computed from +the list of files in cairo/perf, for example). Here's what needs to be +added: + + 1. Makefile.am: Add the new file name to the cairo_perf_SOURCES list + + 2. cairo-perf.h: Add a new CAIRO_PERF_DECL line with the name of your + function, (my_new_test in the example above) + + 3. cairo-perf-micro.c: Add a new row to the list at the end of the + file. A typical entry would look like: + + { my_new_test, 16, 64 } + + The last two numbers are a minimum and a maximum image size at + which your test should be exercised. If these values are the same, + then only that size will be used. If they are different, then + intermediate sizes will be used by doubling. So in the example + above, three tests would be performed at sizes of 16x16, 32x32 and + 64x64. + + +How to run cairo-perf-diff on WINDOWS +------------------------------------- +This section explains the specifics of running cairo-perf-diff under +win32 plateforms. It assumes that you have installed a UNIX-like shell +environment such as MSYS (distributed as part of MinGW). + + 1. From your Mingw32 window, be sure to have all of your MSVC environ- + ment variables set up for proper compilation using 'make' + + 2. Add the %GitBaseDir%/Git/bin path to your environment, replacing the + %GitBaseDir% by whatever directory your Git version is installed to. + + 3. Comment out the "UNSET CDPATH" line in the git-sh-setup script + (located inside the ...Git/bin directory) by putting a "#" at the + beginning of the line. + +you should be ready to go ! + +From your mingw32 window, go to your cairo/perf directory and run the +cairo-perf-diff script with the right arguments. + +Thanks for your contributions and have fun with cairo! + +TODO +---- +Add a control language for crafting and running small sets of micro +benchmarks. -- cgit v1.2.1