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221 lines
6.6 KiB
Plaintext
221 lines
6.6 KiB
Plaintext
README for gtk+/perf
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--------------------
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This is a framework for testing performance in GTK+. For GTK+, being
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performant does not only mean "paint widgets fast". It also means
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things like the time needed to set up widgets, to map and draw a
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window for the first time, and emitting/propagating signals.
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The following is accurate as of 2006/Jun/14.
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Background
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----------
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A widget's lifetime looks more or less like this:
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1. Instantiation
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2. Size request
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3. Size allocate
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5. Realize
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4. Map
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5. Expose
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6. Destroy
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Some of these stages are particularly interesting:
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- Instantiation means creating the widget. This may be as simple as a
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few malloc()s and setting some fields. It could also be a
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complicated operation if the widget needs to contact an external
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server to create itself, or if it needs to read data files.
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- Size requisition is when GTK+ asks the widget, "how big do you want
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to be on the screen"? This can be an expensive operation. The
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widget has to measure its text, measure its icons (and thus load its
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icons), and generally run through its internal layout code.
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- Realization is when the widget creates its GDK resources, like its
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GdkWindow and graphics contexts it may need. This could be
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expensive if the widget needs to load data files for cursors or
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backgrounds.
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- Expose is when the widget gets repainted. This will happen many
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times throughout the lifetime of the widget: every time you drag a
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window on top of it, every time its data changes and it needs to
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redraw, every time it gets resized.
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GtkWidgetProfiler is a mechanism to let you get individual timings for
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each of the stages in the lifetime of a widget. It also lets you run
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some stages many times in a sequence, so that you can run a real
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profiler and get an adequate number of samples. For example,
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GtkWidgetProfiler lets you say "repaint this widget 1000 times".
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Why is this not as simple as doing
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start_timer ();
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for (i = 0; i < 1000; i++) {
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gtk_widget_queue_draw (widget);
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while (gtk_events_pending ())
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gtk_main_iteration ();
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}
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stop_timer ();
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Huh?
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Because X is an asynchronous window system. So, when you send the
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"paint" commands, your program will regain control but it will take
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some time for the X server to actually process those commands.
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GtkWidgetProfiler has special code to wait for the X server and give
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you accurate timings.
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Using the framework
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-------------------
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Right now the framework is very simple; it just has utility functions
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to time widget creation, mapping, exposure, and destruction. To run
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such a test, you use the GtkWidgetProfiler object in
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gtkwidgetprofiler.h.
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The gtk_widget_profiler_profile_boot() function will emit the
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"create-widget" signal so that you can create your widget for
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testing. It will then take timings for the widget, and emit the
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"report" signal as appropriate.
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The "create-widget" signal:
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The handler has this form:
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GtkWidget *create_widget_callback (GtkWidgetProfiler *profiler,
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gpointer user_data);
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You need to create a widget in your handler, and return it. Do not
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show the widget; the profiler will do that by itself at the right
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time, and will actually complain if you show the widget.
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The "report" signal:
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This function will get called when the profiler wants to report that
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it finished timing an important stage in the lifecycle of your
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widget. The handler has this form:
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void report_callback (GtkWidgetProfiler *profiler,
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GtkWidgetProfilerReport report,
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GtkWidget *widget,
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gdouble elapsed,
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gpointer user_data);
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The "report" argument tells you what happened to your widget:
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GTK_WIDGET_PROFILER_REPORT_CREATE. A timer gets started right
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before the profiler emits the "create-widget" signal,, and it gets
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stopped when your callback returns with the new widget. This
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measures the time it takes to set up your widget, but not show it.
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GTK_WIDGET_PROFILER_REPORT_MAP. A timer gets started right before
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the profiler calls gtk_widget_show_all() on your widget, and it
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gets stopped when the the widget has been mapped.
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GTK_WIDGET_PROFILER_REPORT_EXPOSE. A timer gets started right before
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the profiler starts waiting for GTK+ and the X server to finish
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painting your widget, and it gets stopped when the widget is fully
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painted to the screen.
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GTK_WIDGET_PROFILER_REPORT_DESTROY. A timer gets started right
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before the profiler calls gtk_widget_destroy() on your widget, and
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it gets stopped when gtk_widget_destroy() returns.
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As a very basic example of using GtkWidgetProfiler is this:
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----------------------------------------------------------------------
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#include <stdio.h>
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#include <gtk/gtk.h>
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#include "gtkwidgetprofiler.h"
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static GtkWidget *
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create_widget_cb (GtkWidgetProfiler *profiler, gpointer data)
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{
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GtkWidget *window;
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window = gtk_window_new (GTK_WINDOW_TOPLEVEL);
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/* ... fill the window with widgets, and don't show them ... */
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return window;
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}
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static void
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report_cb (GtkWidgetProfiler *profiler, GtkWidgetProfilerReport report, GtkWidget *widget, gdouble elapsed, gpointer data)
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{
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const char *type;
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switch (report) {
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case GTK_WIDGET_PROFILER_REPORT_CREATE:
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type = "widget creation";
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break;
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case GTK_WIDGET_PROFILER_REPORT_MAP:
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type = "widget map";
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break;
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case GTK_WIDGET_PROFILER_REPORT_EXPOSE:
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type = "widget expose";
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break;
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case GTK_WIDGET_PROFILER_REPORT_DESTROY:
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type = "widget destruction";
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break;
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default:
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g_assert_not_reached ();
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type = NULL;
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}
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fprintf (stderr, "%s: %g sec\n", type, elapsed);
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if (report == GTK_WIDGET_PROFILER_REPORT_DESTROY)
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fputs ("\n", stderr);
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}
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int
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main (int argc, char **argv)
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{
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GtkWidgetProfiler *profiler;
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gtk_init (&argc, &argv);
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profiler = gtk_widget_profiler_new ();
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g_signal_connect (profiler, "create-widget",
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G_CALLBACK (create_widget_cb), NULL);
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g_signal_connect (profiler, "report",
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G_CALLBACK (report_cb), NULL);
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gtk_widget_profiler_set_num_iterations (profiler, 100);
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gtk_widget_profiler_profile_boot (profiler);
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gtk_widget_profiler_profile_expose (profiler);
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return 0;
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}
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----------------------------------------------------------------------
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Getting meaningful results
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--------------------------
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Getting times for widget creation/mapping/exposing/destruction is
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interesting, but how do you actually find the places that need
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optimizing?
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Why, you run the tests under a profiler, of course.
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FIXME: document how to do this.
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Feedback
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--------
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Please mail your feedback to Federico Mena-Quintero <federico@novell.com>.
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This performance framework is a work in progress.
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