/usr/share/ada/adainclude/gtkada/glib-main.ads is in libgtkada2.24.1-dev 2.24.1-2.
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-- GtkAda - Ada95 binding for Gtk+/Gnome --
-- --
-- Copyright (C) 2006-2008, AdaCore --
-- --
-- This library is free software; you can redistribute it and/or --
-- modify it under the terms of the GNU General Public --
-- License as published by the Free Software Foundation; either --
-- version 2 of the License, or (at your option) any later version. --
-- --
-- This library is distributed in the hope that it will be useful, --
-- but WITHOUT ANY WARRANTY; without even the implied warranty of --
-- MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU --
-- General Public License for more details. --
-- --
-- You should have received a copy of the GNU General Public --
-- License along with this library; if not, write to the --
-- Free Software Foundation, Inc., 59 Temple Place - Suite 330, --
-- Boston, MA 02111-1307, USA. --
-- --
-----------------------------------------------------------------------
-- <description>
-- This package contains low-level subprograms that are used to interact or
-- configure the main loop.
-- This loop is responsible for processing events, monitoring input sources
-- like pipes, sockets,..., and calling callbacks at given time intervals.
-- New event sources can be created.
--
-- To allow multiple independent sets of sources to be handled in different
-- threads, each source is associated with a main context. A main context can
-- only be running in a single thread, but sources can be added to it and
-- removed from it from other threads.
--
-- Each event source is assigned a priority. The default priority,
-- G_PRIORITY_DEFAULT, is 0. Values less than 0 denote higher priorities.
-- Values greater than 0 denote lower priorities. Events from high priority
-- sources are always processed before events from lower priority sources.
--
-- Idle functions can also be added, and assigned a priority. These will be
-- run whenever no events with a higher priority are ready to be processed.
--
-- The GMainLoop data type represents a main event loop. A GMainLoop is
-- created with g_main_loop_new(). After adding the initial event sources,
-- g_main_loop_run() is called. This continuously checks for new events from
-- each of the event sources and dispatches them. Finally, the processing of
-- an event from one of the sources leads to a call to g_main_loop_quit() to
-- exit the main loop, and g_main_loop_run() returns.
-- It is possible to create new instances of GMainLoop recursively. This is
-- often used in GTK+ applications when showing modal dialog boxes. Note that
-- event sources are associated with a particular GMainContext, and will be
-- checked and dispatched for all main loops associated with that
-- GMainContext.
--
-- Creating new sources types
-- ==========================
--
-- One of the unusual features of the GTK+ main loop functionality is that new
-- types of event source can be created and used in addition to the builtin
-- type of event source. A new event source type is used for handling GDK
-- events.
--
-- New source types basically interact with with the main context in two ways.
-- Their prepare function in GSourceFuncs can set a timeout to determine the
-- maximum amount of time that the main loop will sleep before checking the
-- source again. In addition, or as well, the source can add file descriptors
-- to the set that the main context checks using g_source_add_poll().
--
-- Ada
-- ===
--
-- Some of these features duplicate Ada builtin tasking support, but the
-- latter might be more complex to use in the context of a graphical
-- application, since most of the time the windowing system doesn't support
-- multi-threaded applications.
-- </description>
-- <c_version>glib 2.10.2</c_version>
-- <group>Glib, the general-purpose library</group>
-- <testgtk>create_sources.adb</testgtk>
package Glib.Main is
--------------------
-- G_Main_Context --
--------------------
type G_Main_Context is new Glib.C_Proxy;
-- This type represents a set of sources to handled in the main loop.
-- Basically, this represents a main loop. There might be several main
-- loops running at the same time, although gtk+ itself has only one,
-- identified as the default main context.
function Main_Context_New return G_Main_Context;
-- Create a new context
procedure Main_Context_Ref (Context : G_Main_Context);
procedure Main_Context_Unref (Context : G_Main_Context);
-- Increase or decreate the reference counting for Context. When this
-- reaches 0, the memory is freed.
function Main_Context_Default return G_Main_Context;
-- Returns the default main context. This is the main context used for main
-- loop functions when a main loop is not explicitly specified.
procedure Wakeup (Context : G_Main_Context);
-- If context is currently waiting in a poll(), interrupt the poll(), and
-- continue the iteration process.
function Acquire (Context : G_Main_Context) return Boolean;
-- Tries to become the owner of the specified context. If some other thread
-- is the owner of the context, returns FALSE immediately. Ownership is
-- properly recursive: the owner can require ownership again and will
-- release ownership when Release() is called as many times as Acquire().
-- You must be the owner of a context before you can call Prepare(),
-- Query(), Check(), Dispatch().
procedure Release (Context : G_Main_Context);
-- Releases ownership of a context previously acquired by this thread with
-- Acquire(). If the context was acquired multiple times, the only release
-- ownership when Release() is called as many times as it was acquired.
function Is_Owner (Context : G_Main_Context) return Boolean;
-- Determines whether this thread holds the (recursive) ownership of this
-- context. This is useful to know before waiting on another thread
-- that may be blocking to get ownership of context.
procedure Dispatch (Context : G_Main_Context);
-- Dispatches all pending sources.
---------------
-- Main loop --
---------------
function Depth return Integer;
-- The main loop recursion level in the current thread. It returns 0 when
-- called from the toplevel.
--------------
-- G_Source --
--------------
type G_Source is new Glib.C_Proxy;
-- This type represents an event source that can be monitored by the main
-- loop. There are various internal types of such sources, that can be
-- configured by setting appropriate callbacks (this is not yet doable in
-- GtkAda). See Idle_Source_New and Timeout_Source_New.
type G_Source_Id is new Guint;
-- The ID of a source within the context to which it is attached.
No_Source_Id : constant G_Source_Id;
type G_Source_Func is access function return Boolean;
type Source_Prepare_Func is access
function (Source : G_Source; Timeout : access Gint) return Gboolean;
pragma Convention (C, Source_Prepare_Func);
-- Called before all the file descriptors are polled. If the source can
-- determine that it is ready here (without waiting for the results of the
-- poll() call) it should return TRUE. It can also return a timeout value
-- which should be the maximum timeout (in milliseconds) which should be
-- passed to the poll() call. The actual timeout used will be -1 if all
-- sources returned -1, or it will be the minimum of all the timeout_
-- values returned which were >= 0.
type Source_Check_Func is access
function (Source : G_Source) return Gboolean;
pragma Convention (C, Source_Check_Func);
-- Called after all the file descriptors are polled. The source should
-- return TRUE if it is ready to be dispatched. Note that some time may
-- have passed since the previous prepare function was called, so the
-- source should be checked again here.
type G_Source_Func_User_Data is access
function (User_Data : System.Address) return Gboolean;
pragma Convention (C, G_Source_Func_User_Data);
-- A callback for a G_Source. If it returns False, the source will be
-- removed and no longer executed. User_Data is the data passed to
-- Set_Callback.
type Source_Dispatch_Func is access
function (Source : G_Source;
Callback : G_Source_Func_User_Data;
Data : System.Address) return Gboolean;
pragma Convention (C, Source_Dispatch_Func);
-- Called to dispatch the event source, after it has returned TRUE in
-- either its prepare or its check function. The dispatch function is
-- passed in a callback function and data. The callback function may be
-- NULL if the source was never connected to a callback using
-- Set_Callback().
-- In C, the exact profile of Callback depends on the type of Source. This
-- is not possible in Ada, which expects a precise profile.
function Default_Dispatch
(Source : G_Source; Cb : G_Source_Func_User_Data; Data : System.Address)
return Gboolean;
pragma Convention (C, Default_Dispatch);
-- Default implementation for the dispatch callback for sources. This
-- simply calls Cb and pass it Data.
type Source_Finalize_Func is access procedure (Source : G_Source);
pragma Convention (C, Source_Finalize_Func);
-- Called when the source is finalized.
type G_Source_Type is private;
Null_Source_Type : constant G_Source_Type;
function G_Source_Type_New
(Prepare : Source_Prepare_Func;
Check : Source_Check_Func;
Dispatch : Source_Dispatch_Func := Default_Dispatch'Access;
Finalize : Source_Finalize_Func := null) return G_Source_Type;
-- Create a new type of sources.
-- This function is specific to GtkAda. The returned value is never
-- freed. Most of the time, you do not need to create a new source type,
-- or even call Source_New. Most things can be implemented through the
-- careful use of Idle and Timeout callbacks. However, creating a new
-- source type allows for cleaner code, by sharing the common part of the
-- handling.
--
-- For idle sources, the prepare and check functions always return TRUE to
-- indicate that the source is always ready to be processed. The prepare
-- function also returns a timeout value of 0 to ensure that the poll()
-- call doesn't block (since that would be time wasted which could have
-- been spent running the idle function).
--
-- For timeout sources, the prepare and check functions both return TRUE if
-- the timeout interval has expired. The prepare function also returns a
-- timeout value to ensure that the poll() call doesn't block too long and
-- miss the next timeout.
--
-- For file descriptor sources, the prepare function typically returns
-- FALSE, since it must wait until poll() has been called before it knows
-- whether any events need to be processed. It sets the returned timeout to
-- -1 to indicate that it doesn't mind how long the poll() call blocks. In
-- the check function, it tests the results of the poll() call to see if
-- the required condition has been met, and returns TRUE if so.
function Source_New
(Source_Type : G_Source_Type; User_Data : System.Address) return G_Source;
-- Creates a new GSource structure.
--
-- The source will not initially be associated with any GMainContext and
-- must be added to one with Attach() before it will be executed.
function Get_User_Data (Source : G_Source) return System.Address;
-- Return the user data passed to Source_New. This only applies to sources
-- created through that function, and returns undefined results (or even
-- segfaults) otherwise
procedure Source_Ref (Source : G_Source);
procedure Source_Unref (Source : G_Source);
-- Increase or decrease the reference counting for Source. When this
-- reaches 0, the Source is destroyed
procedure Source_Destroy (Source : G_Source);
-- Removes the source from its context, and mark it as destroyed (the
-- memory is not reclaimed while the reference counting doesn't reach 0).
-- Source cannot be added to another context.
function Attach
(Source : G_Source;
Context : G_Main_Context := null) return G_Source_Id;
-- Add Source to Context. The Source will be executed within that context.
-- If context is null, the source is added to the default context.
-- Returns the Id of the source within Context.
function Remove (Id : G_Source_Id) return Boolean;
procedure Remove (Id : G_Source_Id);
-- Removes the source with the given id from the default main context.
-- The id of. Return True if the source was found and removed
type G_Priority is new Gint;
Priority_High : constant G_Priority := -100;
Priority_Default : constant G_Priority := 0;
Priority_High_Idle : constant G_Priority := 100;
Priority_Default_Idle : constant G_Priority := 200;
Priority_Low : constant G_Priority := 300;
-- Priority_High and Priority_Low are not used within glib or gtk+. The
-- priority for all graphical events is Priority_Default. gtk+ uses
-- Priority_High_Idle+10 for resizing operations, and
-- Priority_High_Idle+20 for redrawing operations, to ensure that resizing
-- occurs before redrawing and avoid redrawing twice.
procedure Set_Priority (Source : G_Source; Priority : G_Priority);
function Get_Priority (Source : G_Source) return G_Priority;
-- Sets the priority of a source. While the main loop is being run, a
-- source will be dispatched if it is ready to be dispatched and no sources
-- at a higher (numerically smaller) priority are ready to be dispatched.
procedure Set_Can_Recurse (Source : G_Source; Can_Recurse : Boolean);
function Get_Can_Recurse (Source : G_Source) return Boolean;
-- Sets whether a source can be called recursively. If can_recurse is TRUE,
-- then while the source is being dispatched then this source will be
-- processed normally. Otherwise, all processing of this source is blocked
-- until the dispatch function returns.
function Get_Id (Source : G_Source) return G_Source_Id;
-- Returns the numeric ID for a particular source. The ID of a source is
-- positive integer which is unique within a particular main loop context.
-- The reverse mapping from ID to source is done by Find_Source_By_Id
function Find_Source_By_Id
(Id : G_Source_Id; Context : G_Main_Context := null) return G_Source;
-- Find a source given a context and its Id.
function Get_Context (Source : G_Source) return G_Main_Context;
-- Gets the context with which the source is associated. Calling this
-- function on a destroyed source is an error. The returned value is Null
-- for sources that haven't been attached yet
----------------------
-- Idle and timeout --
----------------------
function Idle_Source_New return G_Source;
-- Return a newly allocated idle G_Source. Such a source is polled
-- whenever the main loop is not processing events with a higher priority.
-- This source must be attached to a main context before it will be
-- executed.
function Timeout_Source_New (Interval : Guint) return G_Source;
-- Return a newly allocated idle G_Source. Such a source is called at
-- regular intervals. Internval is in milliseconds.
function Idle_Add (Func : G_Source_Func) return G_Source_Id;
-- Adds a function to be called whenever there are no higher priority
-- events pending in the default main loop. This function is given the
-- priority Priority_Default_Idle. If the function returns False, it is
-- automatically removed from the list of event sources and will not be
-- called again.
-- This function returns the Id of the event source. See Find_Source_By_Id.
-- This is implemented by using Idle_Source_New internally.
function Timeout_Add
(Interval : Guint;
Func : G_Source_Func) return G_Source_Id;
-- Create a new function to be called periodically until it returns False.
--
-- Note that timeout functions may be delayed, due to the processing of
-- other event sources. Thus they should not be relied on for precise
-- timing. After each call to the timeout function, the time of the next
-- timeout is recalculated based on the current time and the given interval
-- (it does not try to 'catch up' time lost in delays).
generic
type Data_Type (<>) is private;
package Generic_Sources is
type G_Source_Func is access
function (Data : Data_Type) return Boolean;
-- If the function returns FALSE it is automatically
-- removed from the list of event sources and will not be called again.
type Destroy_Notify is access procedure (Data : in out Data_Type);
-- Notify is called just prior to the destruction of Data. It is also
-- called if the idle or timeout is destroyed through a call to
-- Remove (Id);
function Idle_Add
(Func : G_Source_Func;
Data : Data_Type;
Priority : G_Priority := Priority_Default_Idle;
Notify : Destroy_Notify := null) return G_Source_Id;
-- Adds a function to be called whenever there are no higher priority
-- events pending.
function Timeout_Add
(Interval : Guint;
Func : G_Source_Func;
Data : Data_Type;
Priority : G_Priority := Priority_Default;
Notify : Destroy_Notify := null) return G_Source_Id;
-- Adds a function to be called at regular intervals (in milliseconds).
procedure Set_Callback
(Source : G_Source;
Func : G_Source_Func;
Data : Data_Type;
Notify : Destroy_Notify := null);
-- Sets the callback function for a source. The callback for a source is
-- called from the source's dispatch function.
--
-- The exact type of func depends on the type of source; ie. you should
-- not count on func being called with data as its first parameter.
--
-- Typically, you won't use this function. Instead use functions
-- specific to the type of source you are using.
private
procedure Free_Data (D : System.Address);
pragma Convention (C, Free_Data);
function General_Cb (D : System.Address) return Gint;
pragma Convention (C, General_Cb);
end Generic_Sources;
private
No_Source_Id : constant G_Source_Id := 0;
type G_Source_Type is new System.Address;
Null_Source_Type : constant G_Source_Type :=
G_Source_Type (System.Null_Address);
pragma Import (C, Main_Context_New, "g_main_context_new");
pragma Import (C, Main_Context_Ref, "g_main_context_ref");
pragma Import (C, Main_Context_Unref, "g_main_context_unref");
pragma Import (C, Main_Context_Default, "g_main_context_default");
pragma Import (C, Wakeup, "g_main_context_wakeup");
pragma Import (C, Release, "g_main_context_release");
pragma Import (C, Dispatch, "g_main_context_dispatch");
pragma Import (C, Source_Ref, "g_source_ref");
pragma Import (C, Source_Unref, "g_source_unref");
pragma Import (C, Attach, "g_source_attach");
pragma Import (C, Source_Destroy, "g_source_destroy");
pragma Import (C, Set_Priority, "g_source_set_priority");
pragma Import (C, Get_Priority, "g_source_get_priority");
pragma Import (C, Get_Id, "g_source_get_id");
pragma Import (C, Get_Context, "g_source_get_context");
pragma Import (C, Idle_Source_New, "g_idle_source_new");
pragma Import (C, Timeout_Source_New, "g_timeout_source_new");
pragma Import (C, Depth, "g_main_depth");
pragma Import (C, G_Source_Type_New, "ada_allocate_g_source_funcs");
pragma Import (C, Source_New, "ada_g_source_new");
pragma Import (C, Get_User_Data, "ada_g_source_get_user_data");
-- No binding: g_main_context_find_source_by_user_data
-- No binding: g_main_context_find_source_by_funcs_user_data
-- No binding: g_idle_remove_by_data
-- No binding: g_source_remove_by_funcs_user_data
-- No binding: g_source_remove_by_user_data
-- No binding: g_source_get_current_time
-- No binding: g_source_connect_closure
-- No binding: g_source_set_callback_indirect
-- No binding: g_get_current_time
-- Bounds through ada_g_source_new
-- No binding: g_source_new
-- The following functions haven't been examined closely. Most of them
-- deal with very low-level details, for which Ada generally has better
-- equivalents anyway.
-- No binding: g_child_watch_add
-- No binding: g_child_watch_add_full
-- No binding: g_child_watch_source_new
-- No binding: g_main_context_add_poll
-- No binding: g_main_context_check
-- No binding: g_main_context_get_poll_func
-- No binding: g_main_context_iteration
-- No binding: g_main_context_pending
-- No binding: g_main_context_prepare
-- No binding: g_main_context_query
-- No binding: g_main_context_remove_poll
-- No binding: g_main_context_set_poll_func
-- No binding: g_main_context_wait
-- No binding: g_main_loop_get_context
-- No binding: g_main_loop_is_running
-- No binding: g_main_loop_new
-- No binding: g_main_loop_quit
-- No binding: g_main_loop_ref
-- No binding: g_main_loop_run
-- No binding: g_main_loop_unref
-- No binding: g_source_add_poll
-- No binding: g_source_remove_poll
end Glib.Main;
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