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At the same time, change the library sonames for -3.0 to just -3. This is necessary since the 2.99 releases installed libraries like libgtk-3.0.so.0.9903.0, and we want to prevent the library version number from jumping back. So 3.0 will have libgtk-3.so.0.0.0. |
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appwindow.c | ||
gtkwidgetprofiler.c | ||
gtkwidgetprofiler.h | ||
main.c | ||
Makefile.am | ||
marshalers.list | ||
README | ||
textview.c | ||
treeview.c | ||
typebuiltins.c.template | ||
typebuiltins.h.template | ||
widgets.h |
README for gtk+/perf -------------------- This is a framework for testing performance in GTK+. For GTK+, being performant does not only mean "paint widgets fast". It also means things like the time needed to set up widgets, to map and draw a window for the first time, and emitting/propagating signals. The following is accurate as of 2006/Jun/14. Background ---------- A widget's lifetime looks more or less like this: 1. Instantiation 2. Size request 3. Size allocate 5. Realize 4. Map 5. Expose 6. Destroy Some of these stages are particularly interesting: - Instantiation means creating the widget. This may be as simple as a few malloc()s and setting some fields. It could also be a complicated operation if the widget needs to contact an external server to create itself, or if it needs to read data files. - Size requisition is when GTK+ asks the widget, "how big do you want to be on the screen"? This can be an expensive operation. The widget has to measure its text, measure its icons (and thus load its icons), and generally run through its internal layout code. - Realization is when the widget creates its GDK resources, like its GdkWindow and graphics contexts it may need. This could be expensive if the widget needs to load data files for cursors or backgrounds. - Expose is when the widget gets repainted. This will happen many times throughout the lifetime of the widget: every time you drag a window on top of it, every time its data changes and it needs to redraw, every time it gets resized. GtkWidgetProfiler is a mechanism to let you get individual timings for each of the stages in the lifetime of a widget. It also lets you run some stages many times in a sequence, so that you can run a real profiler and get an adequate number of samples. For example, GtkWidgetProfiler lets you say "repaint this widget 1000 times". Why is this not as simple as doing start_timer (); for (i = 0; i < 1000; i++) { gtk_widget_queue_draw (widget); while (gtk_events_pending ()) gtk_main_iteration (); } stop_timer (); Huh? Because X is an asynchronous window system. So, when you send the "paint" commands, your program will regain control but it will take some time for the X server to actually process those commands. GtkWidgetProfiler has special code to wait for the X server and give you accurate timings. Using the framework ------------------- Right now the framework is very simple; it just has utility functions to time widget creation, mapping, exposure, and destruction. To run such a test, you use the GtkWidgetProfiler object in gtkwidgetprofiler.h. The gtk_widget_profiler_profile_boot() function will emit the "create-widget" signal so that you can create your widget for testing. It will then take timings for the widget, and emit the "report" signal as appropriate. The "create-widget" signal: The handler has this form: GtkWidget *create_widget_callback (GtkWidgetProfiler *profiler, gpointer user_data); You need to create a widget in your handler, and return it. Do not show the widget; the profiler will do that by itself at the right time, and will actually complain if you show the widget. The "report" signal: This function will get called when the profiler wants to report that it finished timing an important stage in the lifecycle of your widget. The handler has this form: void report_callback (GtkWidgetProfiler *profiler, GtkWidgetProfilerReport report, GtkWidget *widget, gdouble elapsed, gpointer user_data); The "report" argument tells you what happened to your widget: GTK_WIDGET_PROFILER_REPORT_CREATE. A timer gets started right before the profiler emits the "create-widget" signal,, and it gets stopped when your callback returns with the new widget. This measures the time it takes to set up your widget, but not show it. GTK_WIDGET_PROFILER_REPORT_MAP. A timer gets started right before the profiler calls gtk_widget_show_all() on your widget, and it gets stopped when the the widget has been mapped. GTK_WIDGET_PROFILER_REPORT_EXPOSE. A timer gets started right before the profiler starts waiting for GTK+ and the X server to finish painting your widget, and it gets stopped when the widget is fully painted to the screen. GTK_WIDGET_PROFILER_REPORT_DESTROY. A timer gets started right before the profiler calls gtk_widget_destroy() on your widget, and it gets stopped when gtk_widget_destroy() returns. As a very basic example of using GtkWidgetProfiler is this: ---------------------------------------------------------------------- #include <stdio.h> #include <gtk/gtk.h> #include "gtkwidgetprofiler.h" static GtkWidget * create_widget_cb (GtkWidgetProfiler *profiler, gpointer data) { GtkWidget *window; window = gtk_window_new (GTK_WINDOW_TOPLEVEL); /* ... fill the window with widgets, and don't show them ... */ return window; } static void report_cb (GtkWidgetProfiler *profiler, GtkWidgetProfilerReport report, GtkWidget *widget, gdouble elapsed, gpointer data) { const char *type; switch (report) { case GTK_WIDGET_PROFILER_REPORT_CREATE: type = "widget creation"; break; case GTK_WIDGET_PROFILER_REPORT_MAP: type = "widget map"; break; case GTK_WIDGET_PROFILER_REPORT_EXPOSE: type = "widget expose"; break; case GTK_WIDGET_PROFILER_REPORT_DESTROY: type = "widget destruction"; break; default: g_assert_not_reached (); type = NULL; } fprintf (stderr, "%s: %g sec\n", type, elapsed); if (report == GTK_WIDGET_PROFILER_REPORT_DESTROY) fputs ("\n", stderr); } int main (int argc, char **argv) { GtkWidgetProfiler *profiler; gtk_init (&argc, &argv); profiler = gtk_widget_profiler_new (); g_signal_connect (profiler, "create-widget", G_CALLBACK (create_widget_cb), NULL); g_signal_connect (profiler, "report", G_CALLBACK (report_cb), NULL); gtk_widget_profiler_set_num_iterations (profiler, 100); gtk_widget_profiler_profile_boot (profiler); gtk_widget_profiler_profile_expose (profiler); return 0; } ---------------------------------------------------------------------- Getting meaningful results -------------------------- Getting times for widget creation/mapping/exposing/destruction is interesting, but how do you actually find the places that need optimizing? Why, you run the tests under a profiler, of course. FIXME: document how to do this. Feedback -------- Please mail your feedback to Federico Mena-Quintero <federico@novell.com>. This performance framework is a work in progress.