13
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livetrax/libs/tk/ytk/gtkrange.c
Robin Gareus ad51c7c2ba
Localize stripped down gtk2
This is intended mainly for GNU/Linux distros who will remove
GTK2 support in the near future.
2024-01-06 21:52:48 +01:00

4049 lines
121 KiB
C

/* GTK - The GIMP Toolkit
* Copyright (C) 1995-1997 Peter Mattis, Spencer Kimball and Josh MacDonald
* Copyright (C) 2001 Red Hat, Inc.
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser 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
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser 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.
*/
/*
* Modified by the GTK+ Team and others 1997-2004. See the AUTHORS
* file for a list of people on the GTK+ Team. See the ChangeLog
* files for a list of changes. These files are distributed with
* GTK+ at ftp://ftp.gtk.org/pub/gtk/.
*/
#include "config.h"
#include <stdio.h>
#include <math.h>
#undef GTK_DISABLE_DEPRECATED
#include <gdk/gdkkeysyms.h>
#include "gtkmain.h"
#include "gtkmarshalers.h"
#include "gtkorientable.h"
#include "gtkrange.h"
#include "gtkscale.h"
#include "gtkscrollbar.h"
#include "gtkprivate.h"
#include "gtkintl.h"
#include "gtkalias.h"
#define SCROLL_DELAY_FACTOR 5 /* Scroll repeat multiplier */
#define UPDATE_DELAY 300 /* Delay for queued update */
enum {
PROP_0,
PROP_ORIENTATION,
PROP_UPDATE_POLICY,
PROP_ADJUSTMENT,
PROP_INVERTED,
PROP_LOWER_STEPPER_SENSITIVITY,
PROP_UPPER_STEPPER_SENSITIVITY,
PROP_SHOW_FILL_LEVEL,
PROP_RESTRICT_TO_FILL_LEVEL,
PROP_FILL_LEVEL,
PROP_ROUND_DIGITS
};
enum {
VALUE_CHANGED,
ADJUST_BOUNDS,
MOVE_SLIDER,
CHANGE_VALUE,
LAST_SIGNAL
};
typedef enum {
MOUSE_OUTSIDE,
MOUSE_STEPPER_A,
MOUSE_STEPPER_B,
MOUSE_STEPPER_C,
MOUSE_STEPPER_D,
MOUSE_TROUGH,
MOUSE_SLIDER,
MOUSE_WIDGET /* inside widget but not in any of the above GUI elements */
} MouseLocation;
typedef enum {
STEPPER_A,
STEPPER_B,
STEPPER_C,
STEPPER_D
} Stepper;
#define GTK_RANGE_GET_PRIVATE(obj) (G_TYPE_INSTANCE_GET_PRIVATE ((obj), GTK_TYPE_RANGE, GtkRangeLayout))
struct _GtkRangeLayout
{
/* These are in widget->window coordinates */
GdkRectangle stepper_a;
GdkRectangle stepper_b;
GdkRectangle stepper_c;
GdkRectangle stepper_d;
/* The trough rectangle is the area the thumb can slide in, not the
* entire range_rect
*/
GdkRectangle trough;
GdkRectangle slider;
/* Layout-related state */
MouseLocation mouse_location;
/* last mouse coords we got, or -1 if mouse is outside the range */
gint mouse_x;
gint mouse_y;
/* "grabbed" mouse location, OUTSIDE for no grab */
MouseLocation grab_location;
guint grab_button : 8; /* 0 if none */
/* Stepper sensitivity */
guint lower_sensitive : 1;
guint upper_sensitive : 1;
/* Fill level */
guint show_fill_level : 1;
guint restrict_to_fill_level : 1;
GtkSensitivityType lower_sensitivity;
GtkSensitivityType upper_sensitivity;
guint repaint_id;
gdouble fill_level;
GQuark slider_detail_quark;
GQuark stepper_detail_quark[4];
gdouble *marks;
gint *mark_pos;
gint n_marks;
gboolean recalc_marks;
};
static void gtk_range_set_property (GObject *object,
guint prop_id,
const GValue *value,
GParamSpec *pspec);
static void gtk_range_get_property (GObject *object,
guint prop_id,
GValue *value,
GParamSpec *pspec);
static void gtk_range_destroy (GtkObject *object);
static void gtk_range_size_request (GtkWidget *widget,
GtkRequisition *requisition);
static void gtk_range_size_allocate (GtkWidget *widget,
GtkAllocation *allocation);
static void gtk_range_realize (GtkWidget *widget);
static void gtk_range_unrealize (GtkWidget *widget);
static void gtk_range_map (GtkWidget *widget);
static void gtk_range_unmap (GtkWidget *widget);
static gboolean gtk_range_expose (GtkWidget *widget,
GdkEventExpose *event);
static gboolean gtk_range_button_press (GtkWidget *widget,
GdkEventButton *event);
static gboolean gtk_range_button_release (GtkWidget *widget,
GdkEventButton *event);
static gboolean gtk_range_motion_notify (GtkWidget *widget,
GdkEventMotion *event);
static gboolean gtk_range_enter_notify (GtkWidget *widget,
GdkEventCrossing *event);
static gboolean gtk_range_leave_notify (GtkWidget *widget,
GdkEventCrossing *event);
static gboolean gtk_range_grab_broken (GtkWidget *widget,
GdkEventGrabBroken *event);
static void gtk_range_grab_notify (GtkWidget *widget,
gboolean was_grabbed);
static void gtk_range_state_changed (GtkWidget *widget,
GtkStateType previous_state);
static gboolean gtk_range_scroll_event (GtkWidget *widget,
GdkEventScroll *event);
static void gtk_range_style_set (GtkWidget *widget,
GtkStyle *previous_style);
static void update_slider_position (GtkRange *range,
gint mouse_x,
gint mouse_y);
static void stop_scrolling (GtkRange *range);
/* Range methods */
static void gtk_range_move_slider (GtkRange *range,
GtkScrollType scroll);
/* Internals */
static gboolean gtk_range_scroll (GtkRange *range,
GtkScrollType scroll);
static gboolean gtk_range_update_mouse_location (GtkRange *range);
static void gtk_range_calc_layout (GtkRange *range,
gdouble adjustment_value);
static void gtk_range_calc_marks (GtkRange *range);
static void gtk_range_get_props (GtkRange *range,
gint *slider_width,
gint *stepper_size,
gint *focus_width,
gint *trough_border,
gint *stepper_spacing,
gboolean *trough_under_steppers,
gint *arrow_displacement_x,
gint *arrow_displacement_y);
static void gtk_range_calc_request (GtkRange *range,
gint slider_width,
gint stepper_size,
gint focus_width,
gint trough_border,
gint stepper_spacing,
GdkRectangle *range_rect,
GtkBorder *border,
gint *n_steppers_p,
gboolean *has_steppers_ab,
gboolean *has_steppers_cd,
gint *slider_length_p);
static void gtk_range_adjustment_value_changed (GtkAdjustment *adjustment,
gpointer data);
static void gtk_range_adjustment_changed (GtkAdjustment *adjustment,
gpointer data);
static void gtk_range_add_step_timer (GtkRange *range,
GtkScrollType step);
static void gtk_range_remove_step_timer (GtkRange *range);
static void gtk_range_reset_update_timer (GtkRange *range);
static void gtk_range_remove_update_timer (GtkRange *range);
static GdkRectangle* get_area (GtkRange *range,
MouseLocation location);
static gboolean gtk_range_real_change_value (GtkRange *range,
GtkScrollType scroll,
gdouble value);
static void gtk_range_update_value (GtkRange *range);
static gboolean gtk_range_key_press (GtkWidget *range,
GdkEventKey *event);
G_DEFINE_ABSTRACT_TYPE_WITH_CODE (GtkRange, gtk_range, GTK_TYPE_WIDGET,
G_IMPLEMENT_INTERFACE (GTK_TYPE_ORIENTABLE,
NULL))
static guint signals[LAST_SIGNAL];
static void
gtk_range_class_init (GtkRangeClass *class)
{
GObjectClass *gobject_class;
GtkObjectClass *object_class;
GtkWidgetClass *widget_class;
gobject_class = G_OBJECT_CLASS (class);
object_class = (GtkObjectClass*) class;
widget_class = (GtkWidgetClass*) class;
gobject_class->set_property = gtk_range_set_property;
gobject_class->get_property = gtk_range_get_property;
object_class->destroy = gtk_range_destroy;
widget_class->size_request = gtk_range_size_request;
widget_class->size_allocate = gtk_range_size_allocate;
widget_class->realize = gtk_range_realize;
widget_class->unrealize = gtk_range_unrealize;
widget_class->map = gtk_range_map;
widget_class->unmap = gtk_range_unmap;
widget_class->expose_event = gtk_range_expose;
widget_class->button_press_event = gtk_range_button_press;
widget_class->button_release_event = gtk_range_button_release;
widget_class->motion_notify_event = gtk_range_motion_notify;
widget_class->scroll_event = gtk_range_scroll_event;
widget_class->enter_notify_event = gtk_range_enter_notify;
widget_class->leave_notify_event = gtk_range_leave_notify;
widget_class->grab_broken_event = gtk_range_grab_broken;
widget_class->grab_notify = gtk_range_grab_notify;
widget_class->state_changed = gtk_range_state_changed;
widget_class->style_set = gtk_range_style_set;
widget_class->key_press_event = gtk_range_key_press;
class->move_slider = gtk_range_move_slider;
class->change_value = gtk_range_real_change_value;
class->slider_detail = "slider";
class->stepper_detail = "stepper";
/**
* GtkRange::value-changed:
* @range: the #GtkRange
*
* Emitted when the range value changes.
*/
signals[VALUE_CHANGED] =
g_signal_new (I_("value-changed"),
G_TYPE_FROM_CLASS (gobject_class),
G_SIGNAL_RUN_LAST,
G_STRUCT_OFFSET (GtkRangeClass, value_changed),
NULL, NULL,
_gtk_marshal_VOID__VOID,
G_TYPE_NONE, 0);
signals[ADJUST_BOUNDS] =
g_signal_new (I_("adjust-bounds"),
G_TYPE_FROM_CLASS (gobject_class),
G_SIGNAL_RUN_LAST,
G_STRUCT_OFFSET (GtkRangeClass, adjust_bounds),
NULL, NULL,
_gtk_marshal_VOID__DOUBLE,
G_TYPE_NONE, 1,
G_TYPE_DOUBLE);
/**
* GtkRange::move-slider:
* @range: the #GtkRange
* @step: how to move the slider
*
* Virtual function that moves the slider. Used for keybindings.
*/
signals[MOVE_SLIDER] =
g_signal_new (I_("move-slider"),
G_TYPE_FROM_CLASS (gobject_class),
G_SIGNAL_RUN_LAST | G_SIGNAL_ACTION,
G_STRUCT_OFFSET (GtkRangeClass, move_slider),
NULL, NULL,
_gtk_marshal_VOID__ENUM,
G_TYPE_NONE, 1,
GTK_TYPE_SCROLL_TYPE);
/**
* GtkRange::change-value:
* @range: the range that received the signal
* @scroll: the type of scroll action that was performed
* @value: the new value resulting from the scroll action
* @returns: %TRUE to prevent other handlers from being invoked for the
* signal, %FALSE to propagate the signal further
*
* The ::change-value signal is emitted when a scroll action is
* performed on a range. It allows an application to determine the
* type of scroll event that occurred and the resultant new value.
* The application can handle the event itself and return %TRUE to
* prevent further processing. Or, by returning %FALSE, it can pass
* the event to other handlers until the default GTK+ handler is
* reached.
*
* The value parameter is unrounded. An application that overrides
* the ::change-value signal is responsible for clamping the value to
* the desired number of decimal digits; the default GTK+ handler
* clamps the value based on #GtkRange:round_digits.
*
* It is not possible to use delayed update policies in an overridden
* ::change-value handler.
*
* Since: 2.6
*/
signals[CHANGE_VALUE] =
g_signal_new (I_("change-value"),
G_TYPE_FROM_CLASS (gobject_class),
G_SIGNAL_RUN_LAST,
G_STRUCT_OFFSET (GtkRangeClass, change_value),
_gtk_boolean_handled_accumulator, NULL,
_gtk_marshal_BOOLEAN__ENUM_DOUBLE,
G_TYPE_BOOLEAN, 2,
GTK_TYPE_SCROLL_TYPE,
G_TYPE_DOUBLE);
g_object_class_override_property (gobject_class,
PROP_ORIENTATION,
"orientation");
g_object_class_install_property (gobject_class,
PROP_UPDATE_POLICY,
g_param_spec_enum ("update-policy",
P_("Update policy"),
P_("How the range should be updated on the screen"),
GTK_TYPE_UPDATE_TYPE,
GTK_UPDATE_CONTINUOUS,
GTK_PARAM_READWRITE));
g_object_class_install_property (gobject_class,
PROP_ADJUSTMENT,
g_param_spec_object ("adjustment",
P_("Adjustment"),
P_("The GtkAdjustment that contains the current value of this range object"),
GTK_TYPE_ADJUSTMENT,
GTK_PARAM_READWRITE | G_PARAM_CONSTRUCT));
g_object_class_install_property (gobject_class,
PROP_INVERTED,
g_param_spec_boolean ("inverted",
P_("Inverted"),
P_("Invert direction slider moves to increase range value"),
FALSE,
GTK_PARAM_READWRITE));
g_object_class_install_property (gobject_class,
PROP_LOWER_STEPPER_SENSITIVITY,
g_param_spec_enum ("lower-stepper-sensitivity",
P_("Lower stepper sensitivity"),
P_("The sensitivity policy for the stepper that points to the adjustment's lower side"),
GTK_TYPE_SENSITIVITY_TYPE,
GTK_SENSITIVITY_AUTO,
GTK_PARAM_READWRITE));
g_object_class_install_property (gobject_class,
PROP_UPPER_STEPPER_SENSITIVITY,
g_param_spec_enum ("upper-stepper-sensitivity",
P_("Upper stepper sensitivity"),
P_("The sensitivity policy for the stepper that points to the adjustment's upper side"),
GTK_TYPE_SENSITIVITY_TYPE,
GTK_SENSITIVITY_AUTO,
GTK_PARAM_READWRITE));
/**
* GtkRange:show-fill-level:
*
* The show-fill-level property controls whether fill level indicator
* graphics are displayed on the trough. See
* gtk_range_set_show_fill_level().
*
* Since: 2.12
**/
g_object_class_install_property (gobject_class,
PROP_SHOW_FILL_LEVEL,
g_param_spec_boolean ("show-fill-level",
P_("Show Fill Level"),
P_("Whether to display a fill level indicator graphics on trough."),
FALSE,
GTK_PARAM_READWRITE));
/**
* GtkRange:restrict-to-fill-level:
*
* The restrict-to-fill-level property controls whether slider
* movement is restricted to an upper boundary set by the
* fill level. See gtk_range_set_restrict_to_fill_level().
*
* Since: 2.12
**/
g_object_class_install_property (gobject_class,
PROP_RESTRICT_TO_FILL_LEVEL,
g_param_spec_boolean ("restrict-to-fill-level",
P_("Restrict to Fill Level"),
P_("Whether to restrict the upper boundary to the fill level."),
TRUE,
GTK_PARAM_READWRITE));
/**
* GtkRange:fill-level:
*
* The fill level (e.g. prebuffering of a network stream).
* See gtk_range_set_fill_level().
*
* Since: 2.12
**/
g_object_class_install_property (gobject_class,
PROP_FILL_LEVEL,
g_param_spec_double ("fill-level",
P_("Fill Level"),
P_("The fill level."),
-G_MAXDOUBLE,
G_MAXDOUBLE,
G_MAXDOUBLE,
GTK_PARAM_READWRITE));
/**
* GtkRange:round-digits:
*
* The number of digits to round the value to when
* it changes, or -1. See #GtkRange::change-value.
*
* Since: 2.24
*/
g_object_class_install_property (gobject_class,
PROP_ROUND_DIGITS,
g_param_spec_int ("round-digits",
P_("Round Digits"),
P_("The number of digits to round the value to."),
-1,
G_MAXINT,
-1,
GTK_PARAM_READWRITE));
gtk_widget_class_install_style_property (widget_class,
g_param_spec_int ("slider-width",
P_("Slider Width"),
P_("Width of scrollbar or scale thumb"),
0,
G_MAXINT,
14,
GTK_PARAM_READABLE));
gtk_widget_class_install_style_property (widget_class,
g_param_spec_int ("trough-border",
P_("Trough Border"),
P_("Spacing between thumb/steppers and outer trough bevel"),
0,
G_MAXINT,
1,
GTK_PARAM_READABLE));
gtk_widget_class_install_style_property (widget_class,
g_param_spec_int ("stepper-size",
P_("Stepper Size"),
P_("Length of step buttons at ends"),
0,
G_MAXINT,
14,
GTK_PARAM_READABLE));
/**
* GtkRange:stepper-spacing:
*
* The spacing between the stepper buttons and thumb. Note that
* setting this value to anything > 0 will automatically set the
* trough-under-steppers style property to %TRUE as well. Also,
* stepper-spacing won't have any effect if there are no steppers.
*/
gtk_widget_class_install_style_property (widget_class,
g_param_spec_int ("stepper-spacing",
P_("Stepper Spacing"),
P_("Spacing between step buttons and thumb"),
0,
G_MAXINT,
0,
GTK_PARAM_READABLE));
gtk_widget_class_install_style_property (widget_class,
g_param_spec_int ("arrow-displacement-x",
P_("Arrow X Displacement"),
P_("How far in the x direction to move the arrow when the button is depressed"),
G_MININT,
G_MAXINT,
0,
GTK_PARAM_READABLE));
gtk_widget_class_install_style_property (widget_class,
g_param_spec_int ("arrow-displacement-y",
P_("Arrow Y Displacement"),
P_("How far in the y direction to move the arrow when the button is depressed"),
G_MININT,
G_MAXINT,
0,
GTK_PARAM_READABLE));
/**
* GtkRange:activate-slider:
*
* When %TRUE, sliders will be drawn active and with shadow in
* while they are dragged.
*
* Deprecated: 2.22: This style property will be removed in GTK+ 3
*/
gtk_widget_class_install_style_property (widget_class,
g_param_spec_boolean ("activate-slider",
P_("Draw slider ACTIVE during drag"),
P_("With this option set to TRUE, sliders will be drawn ACTIVE and with shadow IN while they are dragged"),
FALSE,
GTK_PARAM_READABLE));
/**
* GtkRange:trough-side-details:
*
* When %TRUE, the parts of the trough on the two sides of the
* slider are drawn with different details.
*
* Since: 2.10
*
* Deprecated: 2.22: This style property will be removed in GTK+ 3
*/
gtk_widget_class_install_style_property (widget_class,
g_param_spec_boolean ("trough-side-details",
P_("Trough Side Details"),
P_("When TRUE, the parts of the trough on the two sides of the slider are drawn with different details"),
FALSE,
GTK_PARAM_READABLE));
/**
* GtkRange:trough-under-steppers:
*
* Whether to draw the trough across the full length of the range or
* to exclude the steppers and their spacing. Note that setting the
* #GtkRange:stepper-spacing style property to any value > 0 will
* automatically enable trough-under-steppers too.
*
* Since: 2.10
*/
gtk_widget_class_install_style_property (widget_class,
g_param_spec_boolean ("trough-under-steppers",
P_("Trough Under Steppers"),
P_("Whether to draw trough for full length of range or exclude the steppers and spacing"),
TRUE,
GTK_PARAM_READABLE));
/**
* GtkRange:arrow-scaling:
*
* The arrow size proportion relative to the scroll button size.
*
* Since: 2.14
*/
gtk_widget_class_install_style_property (widget_class,
g_param_spec_float ("arrow-scaling",
P_("Arrow scaling"),
P_("Arrow scaling with regard to scroll button size"),
0.0, 1.0, 0.5,
GTK_PARAM_READABLE));
/**
* GtkRange:stepper-position-details:
*
* When %TRUE, the detail string for rendering the steppers will be
* suffixed with information about the stepper position.
*
* Since: 2.22
*
* Deprecated: 2.22: This style property will be removed in GTK+ 3
*/
gtk_widget_class_install_style_property (widget_class,
g_param_spec_boolean ("stepper-position-details",
P_("Stepper Position Details"),
P_("When TRUE, the detail string for rendering the steppers is suffixed with position information"),
FALSE,
GTK_PARAM_READABLE));
g_type_class_add_private (class, sizeof (GtkRangeLayout));
}
static void
gtk_range_set_property (GObject *object,
guint prop_id,
const GValue *value,
GParamSpec *pspec)
{
GtkRange *range = GTK_RANGE (object);
switch (prop_id)
{
case PROP_ORIENTATION:
range->orientation = g_value_get_enum (value);
range->layout->slider_detail_quark = 0;
range->layout->stepper_detail_quark[0] = 0;
range->layout->stepper_detail_quark[1] = 0;
range->layout->stepper_detail_quark[2] = 0;
range->layout->stepper_detail_quark[3] = 0;
gtk_widget_queue_resize (GTK_WIDGET (range));
break;
case PROP_UPDATE_POLICY:
gtk_range_set_update_policy (range, g_value_get_enum (value));
break;
case PROP_ADJUSTMENT:
gtk_range_set_adjustment (range, g_value_get_object (value));
break;
case PROP_INVERTED:
gtk_range_set_inverted (range, g_value_get_boolean (value));
break;
case PROP_LOWER_STEPPER_SENSITIVITY:
gtk_range_set_lower_stepper_sensitivity (range, g_value_get_enum (value));
break;
case PROP_UPPER_STEPPER_SENSITIVITY:
gtk_range_set_upper_stepper_sensitivity (range, g_value_get_enum (value));
break;
case PROP_SHOW_FILL_LEVEL:
gtk_range_set_show_fill_level (range, g_value_get_boolean (value));
break;
case PROP_RESTRICT_TO_FILL_LEVEL:
gtk_range_set_restrict_to_fill_level (range, g_value_get_boolean (value));
break;
case PROP_FILL_LEVEL:
gtk_range_set_fill_level (range, g_value_get_double (value));
break;
case PROP_ROUND_DIGITS:
gtk_range_set_round_digits (range, g_value_get_int (value));
break;
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec);
break;
}
}
static void
gtk_range_get_property (GObject *object,
guint prop_id,
GValue *value,
GParamSpec *pspec)
{
GtkRange *range = GTK_RANGE (object);
switch (prop_id)
{
case PROP_ORIENTATION:
g_value_set_enum (value, range->orientation);
break;
case PROP_UPDATE_POLICY:
g_value_set_enum (value, range->update_policy);
break;
case PROP_ADJUSTMENT:
g_value_set_object (value, range->adjustment);
break;
case PROP_INVERTED:
g_value_set_boolean (value, range->inverted);
break;
case PROP_LOWER_STEPPER_SENSITIVITY:
g_value_set_enum (value, gtk_range_get_lower_stepper_sensitivity (range));
break;
case PROP_UPPER_STEPPER_SENSITIVITY:
g_value_set_enum (value, gtk_range_get_upper_stepper_sensitivity (range));
break;
case PROP_SHOW_FILL_LEVEL:
g_value_set_boolean (value, gtk_range_get_show_fill_level (range));
break;
case PROP_RESTRICT_TO_FILL_LEVEL:
g_value_set_boolean (value, gtk_range_get_restrict_to_fill_level (range));
break;
case PROP_FILL_LEVEL:
g_value_set_double (value, gtk_range_get_fill_level (range));
break;
case PROP_ROUND_DIGITS:
g_value_set_int (value, gtk_range_get_round_digits (range));
break;
default:
G_OBJECT_WARN_INVALID_PROPERTY_ID (object, prop_id, pspec);
break;
}
}
static void
gtk_range_init (GtkRange *range)
{
gtk_widget_set_has_window (GTK_WIDGET (range), FALSE);
range->orientation = GTK_ORIENTATION_HORIZONTAL;
range->adjustment = NULL;
range->update_policy = GTK_UPDATE_CONTINUOUS;
range->inverted = FALSE;
range->flippable = FALSE;
range->min_slider_size = 1;
range->has_stepper_a = FALSE;
range->has_stepper_b = FALSE;
range->has_stepper_c = FALSE;
range->has_stepper_d = FALSE;
range->need_recalc = TRUE;
range->round_digits = -1;
range->layout = GTK_RANGE_GET_PRIVATE (range);
range->layout->mouse_location = MOUSE_OUTSIDE;
range->layout->mouse_x = -1;
range->layout->mouse_y = -1;
range->layout->grab_location = MOUSE_OUTSIDE;
range->layout->grab_button = 0;
range->layout->lower_sensitivity = GTK_SENSITIVITY_AUTO;
range->layout->upper_sensitivity = GTK_SENSITIVITY_AUTO;
range->layout->lower_sensitive = TRUE;
range->layout->upper_sensitive = TRUE;
range->layout->show_fill_level = FALSE;
range->layout->restrict_to_fill_level = TRUE;
range->layout->fill_level = G_MAXDOUBLE;
range->timer = NULL;
}
/**
* gtk_range_get_adjustment:
* @range: a #GtkRange
*
* Get the #GtkAdjustment which is the "model" object for #GtkRange.
* See gtk_range_set_adjustment() for details.
* The return value does not have a reference added, so should not
* be unreferenced.
*
* Return value: (transfer none): a #GtkAdjustment
**/
GtkAdjustment*
gtk_range_get_adjustment (GtkRange *range)
{
g_return_val_if_fail (GTK_IS_RANGE (range), NULL);
if (!range->adjustment)
gtk_range_set_adjustment (range, NULL);
return range->adjustment;
}
/**
* gtk_range_set_update_policy:
* @range: a #GtkRange
* @policy: update policy
*
* Sets the update policy for the range. #GTK_UPDATE_CONTINUOUS means that
* anytime the range slider is moved, the range value will change and the
* value_changed signal will be emitted. #GTK_UPDATE_DELAYED means that
* the value will be updated after a brief timeout where no slider motion
* occurs, so updates are spaced by a short time rather than
* continuous. #GTK_UPDATE_DISCONTINUOUS means that the value will only
* be updated when the user releases the button and ends the slider
* drag operation.
*
* Deprecated: 2.24: There is no replacement. If you require delayed
* updates, you need to code it yourself.
**/
void
gtk_range_set_update_policy (GtkRange *range,
GtkUpdateType policy)
{
g_return_if_fail (GTK_IS_RANGE (range));
if (range->update_policy != policy)
{
range->update_policy = policy;
g_object_notify (G_OBJECT (range), "update-policy");
}
}
/**
* gtk_range_get_update_policy:
* @range: a #GtkRange
*
* Gets the update policy of @range. See gtk_range_set_update_policy().
*
* Return value: the current update policy
*
* Deprecated: 2.24: There is no replacement. If you require delayed
* updates, you need to code it yourself.
**/
GtkUpdateType
gtk_range_get_update_policy (GtkRange *range)
{
g_return_val_if_fail (GTK_IS_RANGE (range), GTK_UPDATE_CONTINUOUS);
return range->update_policy;
}
/**
* gtk_range_set_adjustment:
* @range: a #GtkRange
* @adjustment: a #GtkAdjustment
*
* Sets the adjustment to be used as the "model" object for this range
* widget. The adjustment indicates the current range value, the
* minimum and maximum range values, the step/page increments used
* for keybindings and scrolling, and the page size. The page size
* is normally 0 for #GtkScale and nonzero for #GtkScrollbar, and
* indicates the size of the visible area of the widget being scrolled.
* The page size affects the size of the scrollbar slider.
**/
void
gtk_range_set_adjustment (GtkRange *range,
GtkAdjustment *adjustment)
{
g_return_if_fail (GTK_IS_RANGE (range));
if (!adjustment)
adjustment = (GtkAdjustment*) gtk_adjustment_new (0.0, 0.0, 0.0, 0.0, 0.0, 0.0);
else
g_return_if_fail (GTK_IS_ADJUSTMENT (adjustment));
if (range->adjustment != adjustment)
{
if (range->adjustment)
{
g_signal_handlers_disconnect_by_func (range->adjustment,
gtk_range_adjustment_changed,
range);
g_signal_handlers_disconnect_by_func (range->adjustment,
gtk_range_adjustment_value_changed,
range);
g_object_unref (range->adjustment);
}
range->adjustment = adjustment;
g_object_ref_sink (adjustment);
g_signal_connect (adjustment, "changed",
G_CALLBACK (gtk_range_adjustment_changed),
range);
g_signal_connect (adjustment, "value-changed",
G_CALLBACK (gtk_range_adjustment_value_changed),
range);
gtk_range_adjustment_changed (adjustment, range);
g_object_notify (G_OBJECT (range), "adjustment");
}
}
/**
* gtk_range_set_inverted:
* @range: a #GtkRange
* @setting: %TRUE to invert the range
*
* Ranges normally move from lower to higher values as the
* slider moves from top to bottom or left to right. Inverted
* ranges have higher values at the top or on the right rather than
* on the bottom or left.
**/
void
gtk_range_set_inverted (GtkRange *range,
gboolean setting)
{
g_return_if_fail (GTK_IS_RANGE (range));
setting = setting != FALSE;
if (setting != range->inverted)
{
range->inverted = setting;
g_object_notify (G_OBJECT (range), "inverted");
gtk_widget_queue_resize (GTK_WIDGET (range));
}
}
/**
* gtk_range_get_inverted:
* @range: a #GtkRange
*
* Gets the value set by gtk_range_set_inverted().
*
* Return value: %TRUE if the range is inverted
**/
gboolean
gtk_range_get_inverted (GtkRange *range)
{
g_return_val_if_fail (GTK_IS_RANGE (range), FALSE);
return range->inverted;
}
/**
* gtk_range_set_flippable:
* @range: a #GtkRange
* @flippable: %TRUE to make the range flippable
*
* If a range is flippable, it will switch its direction if it is
* horizontal and its direction is %GTK_TEXT_DIR_RTL.
*
* See gtk_widget_get_direction().
*
* Since: 2.18
**/
void
gtk_range_set_flippable (GtkRange *range,
gboolean flippable)
{
g_return_if_fail (GTK_IS_RANGE (range));
flippable = flippable ? TRUE : FALSE;
if (flippable != range->flippable)
{
range->flippable = flippable;
gtk_widget_queue_draw (GTK_WIDGET (range));
}
}
/**
* gtk_range_get_flippable:
* @range: a #GtkRange
*
* Gets the value set by gtk_range_set_flippable().
*
* Return value: %TRUE if the range is flippable
*
* Since: 2.18
**/
gboolean
gtk_range_get_flippable (GtkRange *range)
{
g_return_val_if_fail (GTK_IS_RANGE (range), FALSE);
return range->flippable;
}
/**
* gtk_range_set_slider_size_fixed:
* @range: a #GtkRange
* @size_fixed: %TRUE to make the slider size constant
*
* Sets whether the range's slider has a fixed size, or a size that
* depends on it's adjustment's page size.
*
* This function is useful mainly for #GtkRange subclasses.
*
* Since: 2.20
**/
void
gtk_range_set_slider_size_fixed (GtkRange *range,
gboolean size_fixed)
{
g_return_if_fail (GTK_IS_RANGE (range));
if (size_fixed != range->slider_size_fixed)
{
range->slider_size_fixed = size_fixed ? TRUE : FALSE;
range->need_recalc = TRUE;
gtk_range_calc_layout (range, range->adjustment->value);
gtk_widget_queue_draw (GTK_WIDGET (range));
}
}
/**
* gtk_range_get_slider_size_fixed:
* @range: a #GtkRange
*
* This function is useful mainly for #GtkRange subclasses.
*
* See gtk_range_set_slider_size_fixed().
*
* Return value: whether the range's slider has a fixed size.
*
* Since: 2.20
**/
gboolean
gtk_range_get_slider_size_fixed (GtkRange *range)
{
g_return_val_if_fail (GTK_IS_RANGE (range), FALSE);
return range->slider_size_fixed;
}
/**
* gtk_range_set_min_slider_size:
* @range: a #GtkRange
* @min_size: The slider's minimum size
*
* Sets the minimum size of the range's slider.
*
* This function is useful mainly for #GtkRange subclasses.
*
* Since: 2.20
**/
void
gtk_range_set_min_slider_size (GtkRange *range,
gboolean min_size)
{
g_return_if_fail (GTK_IS_RANGE (range));
g_return_if_fail (min_size > 0);
if (min_size != range->min_slider_size)
{
range->min_slider_size = min_size;
range->need_recalc = TRUE;
gtk_range_calc_layout (range, range->adjustment->value);
gtk_widget_queue_draw (GTK_WIDGET (range));
}
}
/**
* gtk_range_get_min_slider_size:
* @range: a #GtkRange
*
* This function is useful mainly for #GtkRange subclasses.
*
* See gtk_range_set_min_slider_size().
*
* Return value: The minimum size of the range's slider.
*
* Since: 2.20
**/
gint
gtk_range_get_min_slider_size (GtkRange *range)
{
g_return_val_if_fail (GTK_IS_RANGE (range), FALSE);
return range->min_slider_size;
}
/**
* gtk_range_get_range_rect:
* @range: a #GtkRange
* @range_rect: (out): return location for the range rectangle
*
* This function returns the area that contains the range's trough
* and its steppers, in widget->window coordinates.
*
* This function is useful mainly for #GtkRange subclasses.
*
* Since: 2.20
**/
void
gtk_range_get_range_rect (GtkRange *range,
GdkRectangle *range_rect)
{
g_return_if_fail (GTK_IS_RANGE (range));
g_return_if_fail (range_rect != NULL);
gtk_range_calc_layout (range, range->adjustment->value);
*range_rect = range->range_rect;
}
/**
* gtk_range_get_slider_range:
* @range: a #GtkRange
* @slider_start: (out) (allow-none): return location for the slider's
* start, or %NULL
* @slider_end: (out) (allow-none): return location for the slider's
* end, or %NULL
*
* This function returns sliders range along the long dimension,
* in widget->window coordinates.
*
* This function is useful mainly for #GtkRange subclasses.
*
* Since: 2.20
**/
void
gtk_range_get_slider_range (GtkRange *range,
gint *slider_start,
gint *slider_end)
{
g_return_if_fail (GTK_IS_RANGE (range));
gtk_range_calc_layout (range, range->adjustment->value);
if (slider_start)
*slider_start = range->slider_start;
if (slider_end)
*slider_end = range->slider_end;
}
/**
* gtk_range_set_lower_stepper_sensitivity:
* @range: a #GtkRange
* @sensitivity: the lower stepper's sensitivity policy.
*
* Sets the sensitivity policy for the stepper that points to the
* 'lower' end of the GtkRange's adjustment.
*
* Since: 2.10
**/
void
gtk_range_set_lower_stepper_sensitivity (GtkRange *range,
GtkSensitivityType sensitivity)
{
g_return_if_fail (GTK_IS_RANGE (range));
if (range->layout->lower_sensitivity != sensitivity)
{
range->layout->lower_sensitivity = sensitivity;
range->need_recalc = TRUE;
gtk_range_calc_layout (range, range->adjustment->value);
gtk_widget_queue_draw (GTK_WIDGET (range));
g_object_notify (G_OBJECT (range), "lower-stepper-sensitivity");
}
}
/**
* gtk_range_get_lower_stepper_sensitivity:
* @range: a #GtkRange
*
* Gets the sensitivity policy for the stepper that points to the
* 'lower' end of the GtkRange's adjustment.
*
* Return value: The lower stepper's sensitivity policy.
*
* Since: 2.10
**/
GtkSensitivityType
gtk_range_get_lower_stepper_sensitivity (GtkRange *range)
{
g_return_val_if_fail (GTK_IS_RANGE (range), GTK_SENSITIVITY_AUTO);
return range->layout->lower_sensitivity;
}
/**
* gtk_range_set_upper_stepper_sensitivity:
* @range: a #GtkRange
* @sensitivity: the upper stepper's sensitivity policy.
*
* Sets the sensitivity policy for the stepper that points to the
* 'upper' end of the GtkRange's adjustment.
*
* Since: 2.10
**/
void
gtk_range_set_upper_stepper_sensitivity (GtkRange *range,
GtkSensitivityType sensitivity)
{
g_return_if_fail (GTK_IS_RANGE (range));
if (range->layout->upper_sensitivity != sensitivity)
{
range->layout->upper_sensitivity = sensitivity;
range->need_recalc = TRUE;
gtk_range_calc_layout (range, range->adjustment->value);
gtk_widget_queue_draw (GTK_WIDGET (range));
g_object_notify (G_OBJECT (range), "upper-stepper-sensitivity");
}
}
/**
* gtk_range_get_upper_stepper_sensitivity:
* @range: a #GtkRange
*
* Gets the sensitivity policy for the stepper that points to the
* 'upper' end of the GtkRange's adjustment.
*
* Return value: The upper stepper's sensitivity policy.
*
* Since: 2.10
**/
GtkSensitivityType
gtk_range_get_upper_stepper_sensitivity (GtkRange *range)
{
g_return_val_if_fail (GTK_IS_RANGE (range), GTK_SENSITIVITY_AUTO);
return range->layout->upper_sensitivity;
}
/**
* gtk_range_set_increments:
* @range: a #GtkRange
* @step: step size
* @page: page size
*
* Sets the step and page sizes for the range.
* The step size is used when the user clicks the #GtkScrollbar
* arrows or moves #GtkScale via arrow keys. The page size
* is used for example when moving via Page Up or Page Down keys.
**/
void
gtk_range_set_increments (GtkRange *range,
gdouble step,
gdouble page)
{
g_return_if_fail (GTK_IS_RANGE (range));
range->adjustment->step_increment = step;
range->adjustment->page_increment = page;
gtk_adjustment_changed (range->adjustment);
}
/**
* gtk_range_set_range:
* @range: a #GtkRange
* @min: minimum range value
* @max: maximum range value
*
* Sets the allowable values in the #GtkRange, and clamps the range
* value to be between @min and @max. (If the range has a non-zero
* page size, it is clamped between @min and @max - page-size.)
**/
void
gtk_range_set_range (GtkRange *range,
gdouble min,
gdouble max)
{
gdouble value;
g_return_if_fail (GTK_IS_RANGE (range));
g_return_if_fail (min < max);
range->adjustment->lower = min;
range->adjustment->upper = max;
value = range->adjustment->value;
if (range->layout->restrict_to_fill_level)
value = MIN (value, MAX (range->adjustment->lower,
range->layout->fill_level));
value = CLAMP (value, range->adjustment->lower,
(range->adjustment->upper - range->adjustment->page_size));
gtk_adjustment_set_value (range->adjustment, value);
gtk_adjustment_changed (range->adjustment);
}
/**
* gtk_range_set_value:
* @range: a #GtkRange
* @value: new value of the range
*
* Sets the current value of the range; if the value is outside the
* minimum or maximum range values, it will be clamped to fit inside
* them. The range emits the #GtkRange::value-changed signal if the
* value changes.
**/
void
gtk_range_set_value (GtkRange *range,
gdouble value)
{
g_return_if_fail (GTK_IS_RANGE (range));
if (range->layout->restrict_to_fill_level)
value = MIN (value, MAX (range->adjustment->lower,
range->layout->fill_level));
value = CLAMP (value, range->adjustment->lower,
(range->adjustment->upper - range->adjustment->page_size));
gtk_adjustment_set_value (range->adjustment, value);
}
/**
* gtk_range_get_value:
* @range: a #GtkRange
*
* Gets the current value of the range.
*
* Return value: current value of the range.
**/
gdouble
gtk_range_get_value (GtkRange *range)
{
g_return_val_if_fail (GTK_IS_RANGE (range), 0.0);
return range->adjustment->value;
}
/**
* gtk_range_set_show_fill_level:
* @range: A #GtkRange
* @show_fill_level: Whether a fill level indicator graphics is shown.
*
* Sets whether a graphical fill level is show on the trough. See
* gtk_range_set_fill_level() for a general description of the fill
* level concept.
*
* Since: 2.12
**/
void
gtk_range_set_show_fill_level (GtkRange *range,
gboolean show_fill_level)
{
g_return_if_fail (GTK_IS_RANGE (range));
show_fill_level = show_fill_level ? TRUE : FALSE;
if (show_fill_level != range->layout->show_fill_level)
{
range->layout->show_fill_level = show_fill_level;
g_object_notify (G_OBJECT (range), "show-fill-level");
gtk_widget_queue_draw (GTK_WIDGET (range));
}
}
/**
* gtk_range_get_show_fill_level:
* @range: A #GtkRange
*
* Gets whether the range displays the fill level graphically.
*
* Return value: %TRUE if @range shows the fill level.
*
* Since: 2.12
**/
gboolean
gtk_range_get_show_fill_level (GtkRange *range)
{
g_return_val_if_fail (GTK_IS_RANGE (range), FALSE);
return range->layout->show_fill_level;
}
/**
* gtk_range_set_restrict_to_fill_level:
* @range: A #GtkRange
* @restrict_to_fill_level: Whether the fill level restricts slider movement.
*
* Sets whether the slider is restricted to the fill level. See
* gtk_range_set_fill_level() for a general description of the fill
* level concept.
*
* Since: 2.12
**/
void
gtk_range_set_restrict_to_fill_level (GtkRange *range,
gboolean restrict_to_fill_level)
{
g_return_if_fail (GTK_IS_RANGE (range));
restrict_to_fill_level = restrict_to_fill_level ? TRUE : FALSE;
if (restrict_to_fill_level != range->layout->restrict_to_fill_level)
{
range->layout->restrict_to_fill_level = restrict_to_fill_level;
g_object_notify (G_OBJECT (range), "restrict-to-fill-level");
gtk_range_set_value (range, gtk_range_get_value (range));
}
}
/**
* gtk_range_get_restrict_to_fill_level:
* @range: A #GtkRange
*
* Gets whether the range is restricted to the fill level.
*
* Return value: %TRUE if @range is restricted to the fill level.
*
* Since: 2.12
**/
gboolean
gtk_range_get_restrict_to_fill_level (GtkRange *range)
{
g_return_val_if_fail (GTK_IS_RANGE (range), FALSE);
return range->layout->restrict_to_fill_level;
}
/**
* gtk_range_set_fill_level:
* @range: a #GtkRange
* @fill_level: the new position of the fill level indicator
*
* Set the new position of the fill level indicator.
*
* The "fill level" is probably best described by its most prominent
* use case, which is an indicator for the amount of pre-buffering in
* a streaming media player. In that use case, the value of the range
* would indicate the current play position, and the fill level would
* be the position up to which the file/stream has been downloaded.
*
* This amount of prebuffering can be displayed on the range's trough
* and is themeable separately from the trough. To enable fill level
* display, use gtk_range_set_show_fill_level(). The range defaults
* to not showing the fill level.
*
* Additionally, it's possible to restrict the range's slider position
* to values which are smaller than the fill level. This is controller
* by gtk_range_set_restrict_to_fill_level() and is by default
* enabled.
*
* Since: 2.12
**/
void
gtk_range_set_fill_level (GtkRange *range,
gdouble fill_level)
{
g_return_if_fail (GTK_IS_RANGE (range));
if (fill_level != range->layout->fill_level)
{
range->layout->fill_level = fill_level;
g_object_notify (G_OBJECT (range), "fill-level");
if (range->layout->show_fill_level)
gtk_widget_queue_draw (GTK_WIDGET (range));
if (range->layout->restrict_to_fill_level)
gtk_range_set_value (range, gtk_range_get_value (range));
}
}
/**
* gtk_range_get_fill_level:
* @range: A #GtkRange
*
* Gets the current position of the fill level indicator.
*
* Return value: The current fill level
*
* Since: 2.12
**/
gdouble
gtk_range_get_fill_level (GtkRange *range)
{
g_return_val_if_fail (GTK_IS_RANGE (range), 0.0);
return range->layout->fill_level;
}
static gboolean
should_invert (GtkRange *range)
{
if (range->orientation == GTK_ORIENTATION_HORIZONTAL)
return
(range->inverted && !range->flippable) ||
(range->inverted && range->flippable && gtk_widget_get_direction (GTK_WIDGET (range)) == GTK_TEXT_DIR_LTR) ||
(!range->inverted && range->flippable && gtk_widget_get_direction (GTK_WIDGET (range)) == GTK_TEXT_DIR_RTL);
else
return range->inverted;
}
static void
gtk_range_destroy (GtkObject *object)
{
GtkRange *range = GTK_RANGE (object);
gtk_range_remove_step_timer (range);
gtk_range_remove_update_timer (range);
if (range->layout->repaint_id)
g_source_remove (range->layout->repaint_id);
range->layout->repaint_id = 0;
if (range->adjustment)
{
g_signal_handlers_disconnect_by_func (range->adjustment,
gtk_range_adjustment_changed,
range);
g_signal_handlers_disconnect_by_func (range->adjustment,
gtk_range_adjustment_value_changed,
range);
g_object_unref (range->adjustment);
range->adjustment = NULL;
}
if (range->layout->n_marks)
{
g_free (range->layout->marks);
range->layout->marks = NULL;
g_free (range->layout->mark_pos);
range->layout->mark_pos = NULL;
range->layout->n_marks = 0;
}
GTK_OBJECT_CLASS (gtk_range_parent_class)->destroy (object);
}
static void
gtk_range_size_request (GtkWidget *widget,
GtkRequisition *requisition)
{
GtkRange *range;
gint slider_width, stepper_size, focus_width, trough_border, stepper_spacing;
GdkRectangle range_rect;
GtkBorder border;
range = GTK_RANGE (widget);
gtk_range_get_props (range,
&slider_width, &stepper_size,
&focus_width, &trough_border,
&stepper_spacing, NULL,
NULL, NULL);
gtk_range_calc_request (range,
slider_width, stepper_size,
focus_width, trough_border, stepper_spacing,
&range_rect, &border, NULL, NULL, NULL, NULL);
requisition->width = range_rect.width + border.left + border.right;
requisition->height = range_rect.height + border.top + border.bottom;
}
static void
gtk_range_size_allocate (GtkWidget *widget,
GtkAllocation *allocation)
{
GtkRange *range;
range = GTK_RANGE (widget);
widget->allocation = *allocation;
range->layout->recalc_marks = TRUE;
range->need_recalc = TRUE;
gtk_range_calc_layout (range, range->adjustment->value);
if (gtk_widget_get_realized (widget))
gdk_window_move_resize (range->event_window,
widget->allocation.x,
widget->allocation.y,
widget->allocation.width,
widget->allocation.height);
}
static void
gtk_range_realize (GtkWidget *widget)
{
GtkRange *range;
GdkWindowAttr attributes;
gint attributes_mask;
range = GTK_RANGE (widget);
gtk_range_calc_layout (range, range->adjustment->value);
gtk_widget_set_realized (widget, TRUE);
widget->window = gtk_widget_get_parent_window (widget);
g_object_ref (widget->window);
attributes.window_type = GDK_WINDOW_CHILD;
attributes.x = widget->allocation.x;
attributes.y = widget->allocation.y;
attributes.width = widget->allocation.width;
attributes.height = widget->allocation.height;
attributes.wclass = GDK_INPUT_ONLY;
attributes.event_mask = gtk_widget_get_events (widget);
attributes.event_mask |= (GDK_BUTTON_PRESS_MASK |
GDK_BUTTON_RELEASE_MASK |
GDK_ENTER_NOTIFY_MASK |
GDK_LEAVE_NOTIFY_MASK |
GDK_POINTER_MOTION_MASK |
GDK_POINTER_MOTION_HINT_MASK);
attributes_mask = GDK_WA_X | GDK_WA_Y;
range->event_window = gdk_window_new (gtk_widget_get_parent_window (widget),
&attributes, attributes_mask);
gdk_window_set_user_data (range->event_window, range);
widget->style = gtk_style_attach (widget->style, widget->window);
}
static void
gtk_range_unrealize (GtkWidget *widget)
{
GtkRange *range = GTK_RANGE (widget);
gtk_range_remove_step_timer (range);
gtk_range_remove_update_timer (range);
gdk_window_set_user_data (range->event_window, NULL);
gdk_window_destroy (range->event_window);
range->event_window = NULL;
GTK_WIDGET_CLASS (gtk_range_parent_class)->unrealize (widget);
}
static void
gtk_range_map (GtkWidget *widget)
{
GtkRange *range = GTK_RANGE (widget);
gdk_window_show (range->event_window);
GTK_WIDGET_CLASS (gtk_range_parent_class)->map (widget);
}
static void
gtk_range_unmap (GtkWidget *widget)
{
GtkRange *range = GTK_RANGE (widget);
stop_scrolling (range);
gdk_window_hide (range->event_window);
GTK_WIDGET_CLASS (gtk_range_parent_class)->unmap (widget);
}
static const gchar *
gtk_range_get_slider_detail (GtkRange *range)
{
const gchar *slider_detail;
if (range->layout->slider_detail_quark)
return g_quark_to_string (range->layout->slider_detail_quark);
slider_detail = GTK_RANGE_GET_CLASS (range)->slider_detail;
if (slider_detail && slider_detail[0] == 'X')
{
gchar *detail = g_strdup (slider_detail);
detail[0] = range->orientation == GTK_ORIENTATION_HORIZONTAL ? 'h' : 'v';
range->layout->slider_detail_quark = g_quark_from_string (detail);
g_free (detail);
return g_quark_to_string (range->layout->slider_detail_quark);
}
return slider_detail;
}
static const gchar *
gtk_range_get_stepper_detail (GtkRange *range,
Stepper stepper)
{
const gchar *stepper_detail;
gboolean need_orientation;
gboolean need_position;
if (range->layout->stepper_detail_quark[stepper])
return g_quark_to_string (range->layout->stepper_detail_quark[stepper]);
stepper_detail = GTK_RANGE_GET_CLASS (range)->stepper_detail;
need_orientation = stepper_detail && stepper_detail[0] == 'X';
gtk_widget_style_get (GTK_WIDGET (range),
"stepper-position-details", &need_position,
NULL);
if (need_orientation || need_position)
{
gchar *detail;
const gchar *position = NULL;
if (need_position)
{
switch (stepper)
{
case STEPPER_A:
position = "_start";
break;
case STEPPER_B:
if (range->has_stepper_a)
position = "_middle";
else
position = "_start";
break;
case STEPPER_C:
if (range->has_stepper_d)
position = "_middle";
else
position = "_end";
break;
case STEPPER_D:
position = "_end";
break;
default:
g_assert_not_reached ();
}
}
detail = g_strconcat (stepper_detail, position, NULL);
if (need_orientation)
detail[0] = range->orientation == GTK_ORIENTATION_HORIZONTAL ? 'h' : 'v';
range->layout->stepper_detail_quark[stepper] = g_quark_from_string (detail);
g_free (detail);
return g_quark_to_string (range->layout->stepper_detail_quark[stepper]);
}
return stepper_detail;
}
static void
draw_stepper (GtkRange *range,
Stepper stepper,
GtkArrowType arrow_type,
gboolean clicked,
gboolean prelighted,
GdkRectangle *area)
{
GtkStateType state_type;
GtkShadowType shadow_type;
GdkRectangle intersection;
GtkWidget *widget = GTK_WIDGET (range);
gfloat arrow_scaling;
GdkRectangle *rect;
gint arrow_x;
gint arrow_y;
gint arrow_width;
gint arrow_height;
gboolean arrow_sensitive = TRUE;
switch (stepper)
{
case STEPPER_A:
rect = &range->layout->stepper_a;
break;
case STEPPER_B:
rect = &range->layout->stepper_b;
break;
case STEPPER_C:
rect = &range->layout->stepper_c;
break;
case STEPPER_D:
rect = &range->layout->stepper_d;
break;
default:
g_assert_not_reached ();
};
/* More to get the right clip region than for efficiency */
if (!gdk_rectangle_intersect (area, rect, &intersection))
return;
intersection.x += widget->allocation.x;
intersection.y += widget->allocation.y;
if ((!range->inverted && (arrow_type == GTK_ARROW_DOWN ||
arrow_type == GTK_ARROW_RIGHT)) ||
(range->inverted && (arrow_type == GTK_ARROW_UP ||
arrow_type == GTK_ARROW_LEFT)))
{
arrow_sensitive = range->layout->upper_sensitive;
}
else
{
arrow_sensitive = range->layout->lower_sensitive;
}
if (!gtk_widget_is_sensitive (GTK_WIDGET (range)) || !arrow_sensitive)
state_type = GTK_STATE_INSENSITIVE;
else if (clicked)
state_type = GTK_STATE_ACTIVE;
else if (prelighted)
state_type = GTK_STATE_PRELIGHT;
else
state_type = GTK_STATE_NORMAL;
if (clicked && arrow_sensitive)
shadow_type = GTK_SHADOW_IN;
else
shadow_type = GTK_SHADOW_OUT;
gtk_paint_box (widget->style,
widget->window,
state_type, shadow_type,
&intersection, widget,
gtk_range_get_stepper_detail (range, stepper),
widget->allocation.x + rect->x,
widget->allocation.y + rect->y,
rect->width,
rect->height);
gtk_widget_style_get (widget, "arrow-scaling", &arrow_scaling, NULL);
arrow_width = rect->width * arrow_scaling;
arrow_height = rect->height * arrow_scaling;
arrow_x = widget->allocation.x + rect->x + (rect->width - arrow_width) / 2;
arrow_y = widget->allocation.y + rect->y + (rect->height - arrow_height) / 2;
if (clicked && arrow_sensitive)
{
gint arrow_displacement_x;
gint arrow_displacement_y;
gtk_range_get_props (GTK_RANGE (widget),
NULL, NULL, NULL, NULL, NULL, NULL,
&arrow_displacement_x, &arrow_displacement_y);
arrow_x += arrow_displacement_x;
arrow_y += arrow_displacement_y;
}
gtk_paint_arrow (widget->style,
widget->window,
state_type, shadow_type,
&intersection, widget,
gtk_range_get_stepper_detail (range, stepper),
arrow_type,
TRUE,
arrow_x, arrow_y, arrow_width, arrow_height);
}
static gboolean
gtk_range_expose (GtkWidget *widget,
GdkEventExpose *event)
{
GtkRange *range = GTK_RANGE (widget);
gboolean sensitive;
GtkStateType state;
GtkShadowType shadow_type;
GdkRectangle expose_area; /* Relative to widget->allocation */
GdkRectangle area;
gint focus_line_width = 0;
gint focus_padding = 0;
gboolean touchscreen;
g_object_get (gtk_widget_get_settings (widget),
"gtk-touchscreen-mode", &touchscreen,
NULL);
if (gtk_widget_get_can_focus (GTK_WIDGET (range)))
gtk_widget_style_get (GTK_WIDGET (range),
"focus-line-width", &focus_line_width,
"focus-padding", &focus_padding,
NULL);
/* we're now exposing, so there's no need to force early repaints */
if (range->layout->repaint_id)
g_source_remove (range->layout->repaint_id);
range->layout->repaint_id = 0;
expose_area = event->area;
expose_area.x -= widget->allocation.x;
expose_area.y -= widget->allocation.y;
gtk_range_calc_marks (range);
gtk_range_calc_layout (range, range->adjustment->value);
sensitive = gtk_widget_is_sensitive (widget);
/* Just to be confusing, we draw the trough for the whole
* range rectangle, not the trough rectangle (the trough
* rectangle is just for hit detection)
*/
/* The gdk_rectangle_intersect is more to get the right
* clip region (limited to range_rect) than for efficiency
*/
if (gdk_rectangle_intersect (&expose_area, &range->range_rect,
&area))
{
gint x = (widget->allocation.x + range->range_rect.x +
focus_line_width + focus_padding);
gint y = (widget->allocation.y + range->range_rect.y +
focus_line_width + focus_padding);
gint width = (range->range_rect.width -
2 * (focus_line_width + focus_padding));
gint height = (range->range_rect.height -
2 * (focus_line_width + focus_padding));
gboolean trough_side_details;
gboolean trough_under_steppers;
gint stepper_size;
gint stepper_spacing;
area.x += widget->allocation.x;
area.y += widget->allocation.y;
gtk_widget_style_get (GTK_WIDGET (range),
"trough-side-details", &trough_side_details,
"trough-under-steppers", &trough_under_steppers,
"stepper-size", &stepper_size,
"stepper-spacing", &stepper_spacing,
NULL);
if (stepper_spacing > 0)
trough_under_steppers = FALSE;
if (! trough_under_steppers)
{
gint offset = 0;
gint shorter = 0;
if (range->has_stepper_a)
offset += stepper_size;
if (range->has_stepper_b)
offset += stepper_size;
shorter += offset;
if (range->has_stepper_c)
shorter += stepper_size;
if (range->has_stepper_d)
shorter += stepper_size;
if (range->has_stepper_a || range->has_stepper_b)
{
offset += stepper_spacing;
shorter += stepper_spacing;
}
if (range->has_stepper_c || range->has_stepper_d)
{
shorter += stepper_spacing;
}
if (range->orientation == GTK_ORIENTATION_HORIZONTAL)
{
x += offset;
width -= shorter;
}
else
{
y += offset;
height -= shorter;
}
}
if (! trough_side_details)
{
gtk_paint_box (widget->style,
widget->window,
sensitive ? GTK_STATE_ACTIVE : GTK_STATE_INSENSITIVE,
GTK_SHADOW_IN,
&area, GTK_WIDGET(range), "trough",
x, y,
width, height);
}
else
{
gint trough_change_pos_x = width;
gint trough_change_pos_y = height;
if (range->orientation == GTK_ORIENTATION_HORIZONTAL)
trough_change_pos_x = (range->layout->slider.x +
range->layout->slider.width / 2 -
(x - widget->allocation.x));
else
trough_change_pos_y = (range->layout->slider.y +
range->layout->slider.height / 2 -
(y - widget->allocation.y));
gtk_paint_box (widget->style,
widget->window,
sensitive ? GTK_STATE_ACTIVE : GTK_STATE_INSENSITIVE,
GTK_SHADOW_IN,
&area, GTK_WIDGET (range),
should_invert (range) ? "trough-upper" : "trough-lower",
x, y,
trough_change_pos_x, trough_change_pos_y);
if (range->orientation == GTK_ORIENTATION_HORIZONTAL)
trough_change_pos_y = 0;
else
trough_change_pos_x = 0;
gtk_paint_box (widget->style,
widget->window,
sensitive ? GTK_STATE_ACTIVE : GTK_STATE_INSENSITIVE,
GTK_SHADOW_IN,
&area, GTK_WIDGET (range),
should_invert (range) ? "trough-lower" : "trough-upper",
x + trough_change_pos_x, y + trough_change_pos_y,
width - trough_change_pos_x,
height - trough_change_pos_y);
}
if (range->layout->show_fill_level &&
range->adjustment->upper - range->adjustment->page_size -
range->adjustment->lower != 0)
{
gdouble fill_level = range->layout->fill_level;
gint fill_x = x;
gint fill_y = y;
gint fill_width = width;
gint fill_height = height;
gchar *fill_detail;
fill_level = CLAMP (fill_level, range->adjustment->lower,
range->adjustment->upper -
range->adjustment->page_size);
if (range->orientation == GTK_ORIENTATION_HORIZONTAL)
{
fill_x = widget->allocation.x + range->layout->trough.x;
fill_width = (range->layout->slider.width +
(fill_level - range->adjustment->lower) /
(range->adjustment->upper -
range->adjustment->lower -
range->adjustment->page_size) *
(range->layout->trough.width -
range->layout->slider.width));
if (should_invert (range))
fill_x += range->layout->trough.width - fill_width;
}
else
{
fill_y = widget->allocation.y + range->layout->trough.y;
fill_height = (range->layout->slider.height +
(fill_level - range->adjustment->lower) /
(range->adjustment->upper -
range->adjustment->lower -
range->adjustment->page_size) *
(range->layout->trough.height -
range->layout->slider.height));
if (should_invert (range))
fill_y += range->layout->trough.height - fill_height;
}
if (fill_level < range->adjustment->upper - range->adjustment->page_size)
fill_detail = "trough-fill-level-full";
else
fill_detail = "trough-fill-level";
gtk_paint_box (widget->style,
widget->window,
sensitive ? GTK_STATE_ACTIVE : GTK_STATE_INSENSITIVE,
GTK_SHADOW_OUT,
&area, GTK_WIDGET (range), fill_detail,
fill_x, fill_y,
fill_width, fill_height);
}
if (sensitive && gtk_widget_has_focus (widget))
gtk_paint_focus (widget->style, widget->window, gtk_widget_get_state (widget),
&area, widget, "trough",
widget->allocation.x + range->range_rect.x,
widget->allocation.y + range->range_rect.y,
range->range_rect.width,
range->range_rect.height);
}
shadow_type = GTK_SHADOW_OUT;
if (!sensitive)
state = GTK_STATE_INSENSITIVE;
else if (!touchscreen && range->layout->mouse_location == MOUSE_SLIDER)
state = GTK_STATE_PRELIGHT;
else
state = GTK_STATE_NORMAL;
if (range->layout->grab_location == MOUSE_SLIDER)
{
gboolean activate_slider;
gtk_widget_style_get (widget, "activate-slider", &activate_slider, NULL);
if (activate_slider)
{
state = GTK_STATE_ACTIVE;
shadow_type = GTK_SHADOW_IN;
}
}
if (gdk_rectangle_intersect (&expose_area,
&range->layout->slider,
&area))
{
area.x += widget->allocation.x;
area.y += widget->allocation.y;
gtk_paint_slider (widget->style,
widget->window,
state,
shadow_type,
&area,
widget,
gtk_range_get_slider_detail (range),
widget->allocation.x + range->layout->slider.x,
widget->allocation.y + range->layout->slider.y,
range->layout->slider.width,
range->layout->slider.height,
range->orientation);
}
if (range->has_stepper_a)
draw_stepper (range, STEPPER_A,
range->orientation == GTK_ORIENTATION_VERTICAL ? GTK_ARROW_UP : GTK_ARROW_LEFT,
range->layout->grab_location == MOUSE_STEPPER_A,
!touchscreen && range->layout->mouse_location == MOUSE_STEPPER_A,
&expose_area);
if (range->has_stepper_b)
draw_stepper (range, STEPPER_B,
range->orientation == GTK_ORIENTATION_VERTICAL ? GTK_ARROW_DOWN : GTK_ARROW_RIGHT,
range->layout->grab_location == MOUSE_STEPPER_B,
!touchscreen && range->layout->mouse_location == MOUSE_STEPPER_B,
&expose_area);
if (range->has_stepper_c)
draw_stepper (range, STEPPER_C,
range->orientation == GTK_ORIENTATION_VERTICAL ? GTK_ARROW_UP : GTK_ARROW_LEFT,
range->layout->grab_location == MOUSE_STEPPER_C,
!touchscreen && range->layout->mouse_location == MOUSE_STEPPER_C,
&expose_area);
if (range->has_stepper_d)
draw_stepper (range, STEPPER_D,
range->orientation == GTK_ORIENTATION_VERTICAL ? GTK_ARROW_DOWN : GTK_ARROW_RIGHT,
range->layout->grab_location == MOUSE_STEPPER_D,
!touchscreen && range->layout->mouse_location == MOUSE_STEPPER_D,
&expose_area);
return FALSE;
}
static void
range_grab_add (GtkRange *range,
MouseLocation location,
gint button)
{
/* we don't actually gtk_grab, since a button is down */
gtk_grab_add (GTK_WIDGET (range));
range->layout->grab_location = location;
range->layout->grab_button = button;
if (gtk_range_update_mouse_location (range))
gtk_widget_queue_draw (GTK_WIDGET (range));
}
static void
range_grab_remove (GtkRange *range)
{
MouseLocation location;
gtk_grab_remove (GTK_WIDGET (range));
location = range->layout->grab_location;
range->layout->grab_location = MOUSE_OUTSIDE;
range->layout->grab_button = 0;
if (gtk_range_update_mouse_location (range) ||
location != MOUSE_OUTSIDE)
gtk_widget_queue_draw (GTK_WIDGET (range));
}
static GtkScrollType
range_get_scroll_for_grab (GtkRange *range)
{
gboolean invert;
invert = should_invert (range);
switch (range->layout->grab_location)
{
/* Backward stepper */
case MOUSE_STEPPER_A:
case MOUSE_STEPPER_C:
switch (range->layout->grab_button)
{
case 1:
return invert ? GTK_SCROLL_STEP_FORWARD : GTK_SCROLL_STEP_BACKWARD;
break;
case 2:
return invert ? GTK_SCROLL_PAGE_FORWARD : GTK_SCROLL_PAGE_BACKWARD;
break;
case 3:
return invert ? GTK_SCROLL_END : GTK_SCROLL_START;
break;
}
break;
/* Forward stepper */
case MOUSE_STEPPER_B:
case MOUSE_STEPPER_D:
switch (range->layout->grab_button)
{
case 1:
return invert ? GTK_SCROLL_STEP_BACKWARD : GTK_SCROLL_STEP_FORWARD;
break;
case 2:
return invert ? GTK_SCROLL_PAGE_BACKWARD : GTK_SCROLL_PAGE_FORWARD;
break;
case 3:
return invert ? GTK_SCROLL_START : GTK_SCROLL_END;
break;
}
break;
/* In the trough */
case MOUSE_TROUGH:
{
if (range->trough_click_forward)
return GTK_SCROLL_PAGE_FORWARD;
else
return GTK_SCROLL_PAGE_BACKWARD;
}
break;
case MOUSE_OUTSIDE:
case MOUSE_SLIDER:
case MOUSE_WIDGET:
break;
}
return GTK_SCROLL_NONE;
}
static gdouble
coord_to_value (GtkRange *range,
gint coord)
{
gdouble frac;
gdouble value;
gint trough_length;
gint trough_start;
gint slider_length;
gint trough_border;
gint trough_under_steppers;
if (range->orientation == GTK_ORIENTATION_VERTICAL)
{
trough_length = range->layout->trough.height;
trough_start = range->layout->trough.y;
slider_length = range->layout->slider.height;
}
else
{
trough_length = range->layout->trough.width;
trough_start = range->layout->trough.x;
slider_length = range->layout->slider.width;
}
gtk_range_get_props (range, NULL, NULL, NULL, &trough_border, NULL,
&trough_under_steppers, NULL, NULL);
if (! trough_under_steppers)
{
trough_start += trough_border;
trough_length -= 2 * trough_border;
}
if (trough_length == slider_length)
frac = 1.0;
else
frac = (MAX (0, coord - trough_start) /
(gdouble) (trough_length - slider_length));
if (should_invert (range))
frac = 1.0 - frac;
value = range->adjustment->lower + frac * (range->adjustment->upper -
range->adjustment->lower -
range->adjustment->page_size);
return value;
}
static gboolean
gtk_range_key_press (GtkWidget *widget,
GdkEventKey *event)
{
GtkRange *range = GTK_RANGE (widget);
if (event->keyval == GDK_Escape &&
range->layout->grab_location != MOUSE_OUTSIDE)
{
stop_scrolling (range);
update_slider_position (range,
range->slide_initial_coordinate,
range->slide_initial_coordinate);
return TRUE;
}
return GTK_WIDGET_CLASS (gtk_range_parent_class)->key_press_event (widget, event);
}
static gint
gtk_range_button_press (GtkWidget *widget,
GdkEventButton *event)
{
GtkRange *range = GTK_RANGE (widget);
gboolean primary_warps;
gint page_increment_button, warp_button;
if (!gtk_widget_has_focus (widget))
gtk_widget_grab_focus (widget);
/* ignore presses when we're already doing something else. */
if (range->layout->grab_location != MOUSE_OUTSIDE)
return FALSE;
range->layout->mouse_x = event->x;
range->layout->mouse_y = event->y;
if (gtk_range_update_mouse_location (range))
gtk_widget_queue_draw (widget);
g_object_get (gtk_widget_get_settings (widget),
"gtk-primary-button-warps-slider", &primary_warps,
NULL);
if (primary_warps)
{
warp_button = 1;
page_increment_button = 3;
}
else
{
warp_button = 2;
page_increment_button = 1;
}
if (range->layout->mouse_location == MOUSE_TROUGH &&
event->button == page_increment_button)
{
/* this button steps by page increment, as with button 2 on a stepper
*/
GtkScrollType scroll;
gdouble click_value;
click_value = coord_to_value (range,
range->orientation == GTK_ORIENTATION_VERTICAL ?
event->y : event->x);
range->trough_click_forward = click_value > range->adjustment->value;
range_grab_add (range, MOUSE_TROUGH, event->button);
scroll = range_get_scroll_for_grab (range);
gtk_range_add_step_timer (range, scroll);
return TRUE;
}
else if ((range->layout->mouse_location == MOUSE_STEPPER_A ||
range->layout->mouse_location == MOUSE_STEPPER_B ||
range->layout->mouse_location == MOUSE_STEPPER_C ||
range->layout->mouse_location == MOUSE_STEPPER_D) &&
(event->button == 1 || event->button == 2 || event->button == 3))
{
GdkRectangle *stepper_area;
GtkScrollType scroll;
range_grab_add (range, range->layout->mouse_location, event->button);
stepper_area = get_area (range, range->layout->mouse_location);
gtk_widget_queue_draw_area (widget,
widget->allocation.x + stepper_area->x,
widget->allocation.y + stepper_area->y,
stepper_area->width,
stepper_area->height);
scroll = range_get_scroll_for_grab (range);
if (scroll != GTK_SCROLL_NONE)
gtk_range_add_step_timer (range, scroll);
return TRUE;
}
else if ((range->layout->mouse_location == MOUSE_TROUGH &&
event->button == warp_button) ||
range->layout->mouse_location == MOUSE_SLIDER)
{
gboolean need_value_update = FALSE;
gboolean activate_slider;
/* Any button can be used to drag the slider, but you can start
* dragging the slider with a trough click using the warp button;
* we warp the slider to mouse position, then begin the slider drag.
*/
if (range->layout->mouse_location != MOUSE_SLIDER)
{
gdouble slider_low_value, slider_high_value, new_value;
slider_high_value =
coord_to_value (range,
range->orientation == GTK_ORIENTATION_VERTICAL ?
event->y : event->x);
slider_low_value =
coord_to_value (range,
range->orientation == GTK_ORIENTATION_VERTICAL ?
event->y - range->layout->slider.height :
event->x - range->layout->slider.width);
/* compute new value for warped slider */
new_value = slider_low_value + (slider_high_value - slider_low_value) / 2;
/* recalc slider, so we can set slide_initial_slider_position
* properly
*/
range->need_recalc = TRUE;
gtk_range_calc_layout (range, new_value);
/* defer adjustment updates to update_slider_position() in order
* to keep pixel quantisation
*/
need_value_update = TRUE;
}
if (range->orientation == GTK_ORIENTATION_VERTICAL)
{
range->slide_initial_slider_position = range->layout->slider.y;
range->slide_initial_coordinate = event->y;
}
else
{
range->slide_initial_slider_position = range->layout->slider.x;
range->slide_initial_coordinate = event->x;
}
range_grab_add (range, MOUSE_SLIDER, event->button);
gtk_widget_style_get (widget, "activate-slider", &activate_slider, NULL);
/* force a redraw, if the active slider is drawn differently to the
* prelight one
*/
if (activate_slider)
gtk_widget_queue_draw (widget);
if (need_value_update)
update_slider_position (range, event->x, event->y);
return TRUE;
}
return FALSE;
}
/* During a slide, move the slider as required given new mouse position */
static void
update_slider_position (GtkRange *range,
gint mouse_x,
gint mouse_y)
{
gint delta;
gint c;
gdouble new_value;
gboolean handled;
gdouble next_value;
gdouble mark_value;
gdouble mark_delta;
gint i;
if (range->orientation == GTK_ORIENTATION_VERTICAL)
delta = mouse_y - range->slide_initial_coordinate;
else
delta = mouse_x - range->slide_initial_coordinate;
c = range->slide_initial_slider_position + delta;
new_value = coord_to_value (range, c);
next_value = coord_to_value (range, c + 1);
mark_delta = fabs (next_value - new_value);
for (i = 0; i < range->layout->n_marks; i++)
{
mark_value = range->layout->marks[i];
if (fabs (range->adjustment->value - mark_value) < 3 * mark_delta)
{
if (fabs (new_value - mark_value) < (range->slider_end - range->slider_start) * 0.5 * mark_delta)
{
new_value = mark_value;
break;
}
}
}
g_signal_emit (range, signals[CHANGE_VALUE], 0, GTK_SCROLL_JUMP, new_value,
&handled);
}
static void
stop_scrolling (GtkRange *range)
{
range_grab_remove (range);
gtk_range_remove_step_timer (range);
/* Flush any pending discontinuous/delayed updates */
gtk_range_update_value (range);
}
static gboolean
gtk_range_grab_broken (GtkWidget *widget,
GdkEventGrabBroken *event)
{
GtkRange *range = GTK_RANGE (widget);
if (range->layout->grab_location != MOUSE_OUTSIDE)
{
if (range->layout->grab_location == MOUSE_SLIDER)
update_slider_position (range, range->layout->mouse_x, range->layout->mouse_y);
stop_scrolling (range);
return TRUE;
}
return FALSE;
}
static gint
gtk_range_button_release (GtkWidget *widget,
GdkEventButton *event)
{
GtkRange *range = GTK_RANGE (widget);
if (event->window == range->event_window)
{
range->layout->mouse_x = event->x;
range->layout->mouse_y = event->y;
}
else
{
gdk_window_get_pointer (range->event_window,
&range->layout->mouse_x,
&range->layout->mouse_y,
NULL);
}
if (range->layout->grab_button == event->button)
{
if (range->layout->grab_location == MOUSE_SLIDER)
update_slider_position (range, range->layout->mouse_x, range->layout->mouse_y);
stop_scrolling (range);
return TRUE;
}
return FALSE;
}
/**
* _gtk_range_get_wheel_delta:
* @range: a #GtkRange
* @event: A #GdkEventScroll
*
* Returns a good step value for the mouse wheel.
*
* Return value: A good step value for the mouse wheel.
*
* Since: 2.4
**/
gdouble
_gtk_range_get_wheel_delta (GtkRange *range,
GdkEventScroll *event)
{
GtkAdjustment *adj = range->adjustment;
gdouble dx, dy;
gdouble delta;
if (gdk_event_get_scroll_deltas ((GdkEvent *) event, &dx, &dy))
{
GtkAllocation allocation;
gtk_widget_get_allocation (GTK_WIDGET (range), &allocation);
if (gtk_orientable_get_orientation (GTK_ORIENTABLE (range)) == GTK_ORIENTATION_HORIZONTAL)
{
if (GTK_IS_SCROLLBAR (range) && adj->page_size > 0)
delta = dx * adj->page_size / allocation.width;
else
delta = dx * (adj->upper - adj->lower) / allocation.width;
}
else
{
if (GTK_IS_SCROLLBAR (range) && adj->page_size > 0)
delta = dy * adj->page_size / allocation.height;
else
delta = dy * (adj->upper - adj->lower) / allocation.height;
}
}
else
{
if (GTK_IS_SCROLLBAR (range))
delta = pow (adj->page_size, 2.0 / 3.0);
else
delta = adj->step_increment * 2;
if (event->direction == GDK_SCROLL_UP ||
event->direction == GDK_SCROLL_LEFT)
delta = - delta;
}
if (range->inverted)
delta = - delta;
return delta;
}
static gboolean
gtk_range_scroll_event (GtkWidget *widget,
GdkEventScroll *event)
{
GtkRange *range = GTK_RANGE (widget);
if (gtk_widget_get_realized (widget))
{
GtkAdjustment *adj = GTK_RANGE (range)->adjustment;
gdouble delta;
gboolean handled;
delta = _gtk_range_get_wheel_delta (range, event);
g_signal_emit (range, signals[CHANGE_VALUE], 0,
GTK_SCROLL_JUMP, adj->value + delta,
&handled);
/* Policy DELAYED makes sense with scroll events,
* but DISCONTINUOUS doesn't, so we update immediately
* for DISCONTINUOUS
*/
if (range->update_policy == GTK_UPDATE_DISCONTINUOUS)
gtk_range_update_value (range);
}
return TRUE;
}
static gboolean
gtk_range_motion_notify (GtkWidget *widget,
GdkEventMotion *event)
{
GtkRange *range;
range = GTK_RANGE (widget);
gdk_event_request_motions (event);
range->layout->mouse_x = event->x;
range->layout->mouse_y = event->y;
if (gtk_range_update_mouse_location (range))
gtk_widget_queue_draw (widget);
if (range->layout->grab_location == MOUSE_SLIDER)
update_slider_position (range, event->x, event->y);
/* We handled the event if the mouse was in the range_rect */
return range->layout->mouse_location != MOUSE_OUTSIDE;
}
static gboolean
gtk_range_enter_notify (GtkWidget *widget,
GdkEventCrossing *event)
{
GtkRange *range = GTK_RANGE (widget);
range->layout->mouse_x = event->x;
range->layout->mouse_y = event->y;
if (gtk_range_update_mouse_location (range))
gtk_widget_queue_draw (widget);
return TRUE;
}
static gboolean
gtk_range_leave_notify (GtkWidget *widget,
GdkEventCrossing *event)
{
GtkRange *range = GTK_RANGE (widget);
range->layout->mouse_x = -1;
range->layout->mouse_y = -1;
if (gtk_range_update_mouse_location (range))
gtk_widget_queue_draw (widget);
return TRUE;
}
static void
gtk_range_grab_notify (GtkWidget *widget,
gboolean was_grabbed)
{
if (!was_grabbed)
stop_scrolling (GTK_RANGE (widget));
}
static void
gtk_range_state_changed (GtkWidget *widget,
GtkStateType previous_state)
{
if (!gtk_widget_is_sensitive (widget))
stop_scrolling (GTK_RANGE (widget));
}
#define check_rectangle(rectangle1, rectangle2) \
{ \
if (rectangle1.x != rectangle2.x) return TRUE; \
if (rectangle1.y != rectangle2.y) return TRUE; \
if (rectangle1.width != rectangle2.width) return TRUE; \
if (rectangle1.height != rectangle2.height) return TRUE; \
}
static gboolean
layout_changed (GtkRangeLayout *layout1,
GtkRangeLayout *layout2)
{
check_rectangle (layout1->slider, layout2->slider);
check_rectangle (layout1->trough, layout2->trough);
check_rectangle (layout1->stepper_a, layout2->stepper_a);
check_rectangle (layout1->stepper_d, layout2->stepper_d);
check_rectangle (layout1->stepper_b, layout2->stepper_b);
check_rectangle (layout1->stepper_c, layout2->stepper_c);
if (layout1->upper_sensitive != layout2->upper_sensitive) return TRUE;
if (layout1->lower_sensitive != layout2->lower_sensitive) return TRUE;
return FALSE;
}
static void
gtk_range_adjustment_changed (GtkAdjustment *adjustment,
gpointer data)
{
GtkRange *range = GTK_RANGE (data);
/* create a copy of the layout */
GtkRangeLayout layout = *range->layout;
range->layout->recalc_marks = TRUE;
range->need_recalc = TRUE;
gtk_range_calc_layout (range, range->adjustment->value);
/* now check whether the layout changed */
if (layout_changed (range->layout, &layout))
gtk_widget_queue_draw (GTK_WIDGET (range));
/* Note that we don't round off to range->round_digits here.
* that's because it's really broken to change a value
* in response to a change signal on that value; round_digits
* is therefore defined to be a filter on what the GtkRange
* can input into the adjustment, not a filter that the GtkRange
* will enforce on the adjustment.
*/
}
static gboolean
force_repaint (gpointer data)
{
GtkRange *range = GTK_RANGE (data);
range->layout->repaint_id = 0;
if (gtk_widget_is_drawable (GTK_WIDGET (range)))
gdk_window_process_updates (GTK_WIDGET (range)->window, FALSE);
return FALSE;
}
static void
gtk_range_adjustment_value_changed (GtkAdjustment *adjustment,
gpointer data)
{
GtkRange *range = GTK_RANGE (data);
/* create a copy of the layout */
GtkRangeLayout layout = *range->layout;
range->need_recalc = TRUE;
gtk_range_calc_layout (range, range->adjustment->value);
/* now check whether the layout changed */
if (layout_changed (range->layout, &layout) ||
(GTK_IS_SCALE (range) && GTK_SCALE (range)->draw_value))
{
gtk_widget_queue_draw (GTK_WIDGET (range));
/* setup a timer to ensure the range isn't lagging too much behind the scroll position */
if (!range->layout->repaint_id)
range->layout->repaint_id = gdk_threads_add_timeout_full (GDK_PRIORITY_EVENTS, 181, force_repaint, range, NULL);
}
/* Note that we don't round off to range->round_digits here.
* that's because it's really broken to change a value
* in response to a change signal on that value; round_digits
* is therefore defined to be a filter on what the GtkRange
* can input into the adjustment, not a filter that the GtkRange
* will enforce on the adjustment.
*/
g_signal_emit (range, signals[VALUE_CHANGED], 0);
}
static void
gtk_range_style_set (GtkWidget *widget,
GtkStyle *previous_style)
{
GtkRange *range = GTK_RANGE (widget);
range->need_recalc = TRUE;
GTK_WIDGET_CLASS (gtk_range_parent_class)->style_set (widget, previous_style);
}
static void
apply_marks (GtkRange *range,
gdouble oldval,
gdouble *newval)
{
gint i;
gdouble mark;
for (i = 0; i < range->layout->n_marks; i++)
{
mark = range->layout->marks[i];
if ((oldval < mark && mark < *newval) ||
(oldval > mark && mark > *newval))
{
*newval = mark;
return;
}
}
}
static void
step_back (GtkRange *range)
{
gdouble newval;
gboolean handled;
newval = range->adjustment->value - range->adjustment->step_increment;
apply_marks (range, range->adjustment->value, &newval);
g_signal_emit (range, signals[CHANGE_VALUE], 0,
GTK_SCROLL_STEP_BACKWARD, newval, &handled);
}
static void
step_forward (GtkRange *range)
{
gdouble newval;
gboolean handled;
newval = range->adjustment->value + range->adjustment->step_increment;
apply_marks (range, range->adjustment->value, &newval);
g_signal_emit (range, signals[CHANGE_VALUE], 0,
GTK_SCROLL_STEP_FORWARD, newval, &handled);
}
static void
page_back (GtkRange *range)
{
gdouble newval;
gboolean handled;
newval = range->adjustment->value - range->adjustment->page_increment;
apply_marks (range, range->adjustment->value, &newval);
g_signal_emit (range, signals[CHANGE_VALUE], 0,
GTK_SCROLL_PAGE_BACKWARD, newval, &handled);
}
static void
page_forward (GtkRange *range)
{
gdouble newval;
gboolean handled;
newval = range->adjustment->value + range->adjustment->page_increment;
apply_marks (range, range->adjustment->value, &newval);
g_signal_emit (range, signals[CHANGE_VALUE], 0,
GTK_SCROLL_PAGE_FORWARD, newval, &handled);
}
static void
scroll_begin (GtkRange *range)
{
gboolean handled;
g_signal_emit (range, signals[CHANGE_VALUE], 0,
GTK_SCROLL_START, range->adjustment->lower,
&handled);
}
static void
scroll_end (GtkRange *range)
{
gdouble newval;
gboolean handled;
newval = range->adjustment->upper - range->adjustment->page_size;
g_signal_emit (range, signals[CHANGE_VALUE], 0, GTK_SCROLL_END, newval,
&handled);
}
static gboolean
gtk_range_scroll (GtkRange *range,
GtkScrollType scroll)
{
gdouble old_value = range->adjustment->value;
switch (scroll)
{
case GTK_SCROLL_STEP_LEFT:
if (should_invert (range))
step_forward (range);
else
step_back (range);
break;
case GTK_SCROLL_STEP_UP:
if (should_invert (range))
step_forward (range);
else
step_back (range);
break;
case GTK_SCROLL_STEP_RIGHT:
if (should_invert (range))
step_back (range);
else
step_forward (range);
break;
case GTK_SCROLL_STEP_DOWN:
if (should_invert (range))
step_back (range);
else
step_forward (range);
break;
case GTK_SCROLL_STEP_BACKWARD:
step_back (range);
break;
case GTK_SCROLL_STEP_FORWARD:
step_forward (range);
break;
case GTK_SCROLL_PAGE_LEFT:
if (should_invert (range))
page_forward (range);
else
page_back (range);
break;
case GTK_SCROLL_PAGE_UP:
if (should_invert (range))
page_forward (range);
else
page_back (range);
break;
case GTK_SCROLL_PAGE_RIGHT:
if (should_invert (range))
page_back (range);
else
page_forward (range);
break;
case GTK_SCROLL_PAGE_DOWN:
if (should_invert (range))
page_back (range);
else
page_forward (range);
break;
case GTK_SCROLL_PAGE_BACKWARD:
page_back (range);
break;
case GTK_SCROLL_PAGE_FORWARD:
page_forward (range);
break;
case GTK_SCROLL_START:
scroll_begin (range);
break;
case GTK_SCROLL_END:
scroll_end (range);
break;
case GTK_SCROLL_JUMP:
/* Used by CList, range doesn't use it. */
break;
case GTK_SCROLL_NONE:
break;
}
return range->adjustment->value != old_value;
}
static void
gtk_range_move_slider (GtkRange *range,
GtkScrollType scroll)
{
gboolean cursor_only;
g_object_get (gtk_widget_get_settings (GTK_WIDGET (range)),
"gtk-keynav-cursor-only", &cursor_only,
NULL);
if (cursor_only)
{
GtkWidget *toplevel = gtk_widget_get_toplevel (GTK_WIDGET (range));
if (range->orientation == GTK_ORIENTATION_HORIZONTAL)
{
if (scroll == GTK_SCROLL_STEP_UP ||
scroll == GTK_SCROLL_STEP_DOWN)
{
if (toplevel)
gtk_widget_child_focus (toplevel,
scroll == GTK_SCROLL_STEP_UP ?
GTK_DIR_UP : GTK_DIR_DOWN);
return;
}
}
else
{
if (scroll == GTK_SCROLL_STEP_LEFT ||
scroll == GTK_SCROLL_STEP_RIGHT)
{
if (toplevel)
gtk_widget_child_focus (toplevel,
scroll == GTK_SCROLL_STEP_LEFT ?
GTK_DIR_LEFT : GTK_DIR_RIGHT);
return;
}
}
}
if (! gtk_range_scroll (range, scroll))
gtk_widget_error_bell (GTK_WIDGET (range));
/* Policy DELAYED makes sense with key events,
* but DISCONTINUOUS doesn't, so we update immediately
* for DISCONTINUOUS
*/
if (range->update_policy == GTK_UPDATE_DISCONTINUOUS)
gtk_range_update_value (range);
}
static void
gtk_range_get_props (GtkRange *range,
gint *slider_width,
gint *stepper_size,
gint *focus_width,
gint *trough_border,
gint *stepper_spacing,
gboolean *trough_under_steppers,
gint *arrow_displacement_x,
gint *arrow_displacement_y)
{
GtkWidget *widget = GTK_WIDGET (range);
gint tmp_slider_width, tmp_stepper_size, tmp_focus_width, tmp_trough_border;
gint tmp_stepper_spacing, tmp_trough_under_steppers;
gint tmp_arrow_displacement_x, tmp_arrow_displacement_y;
gtk_widget_style_get (widget,
"slider-width", &tmp_slider_width,
"trough-border", &tmp_trough_border,
"stepper-size", &tmp_stepper_size,
"stepper-spacing", &tmp_stepper_spacing,
"trough-under-steppers", &tmp_trough_under_steppers,
"arrow-displacement-x", &tmp_arrow_displacement_x,
"arrow-displacement-y", &tmp_arrow_displacement_y,
NULL);
if (tmp_stepper_spacing > 0)
tmp_trough_under_steppers = FALSE;
if (gtk_widget_get_can_focus (GTK_WIDGET (range)))
{
gint focus_line_width;
gint focus_padding;
gtk_widget_style_get (GTK_WIDGET (range),
"focus-line-width", &focus_line_width,
"focus-padding", &focus_padding,
NULL);
tmp_focus_width = focus_line_width + focus_padding;
}
else
{
tmp_focus_width = 0;
}
if (slider_width)
*slider_width = tmp_slider_width;
if (focus_width)
*focus_width = tmp_focus_width;
if (trough_border)
*trough_border = tmp_trough_border;
if (stepper_size)
*stepper_size = tmp_stepper_size;
if (stepper_spacing)
*stepper_spacing = tmp_stepper_spacing;
if (trough_under_steppers)
*trough_under_steppers = tmp_trough_under_steppers;
if (arrow_displacement_x)
*arrow_displacement_x = tmp_arrow_displacement_x;
if (arrow_displacement_y)
*arrow_displacement_y = tmp_arrow_displacement_y;
}
#define POINT_IN_RECT(xcoord, ycoord, rect) \
((xcoord) >= (rect).x && \
(xcoord) < ((rect).x + (rect).width) && \
(ycoord) >= (rect).y && \
(ycoord) < ((rect).y + (rect).height))
/* Update mouse location, return TRUE if it changes */
static gboolean
gtk_range_update_mouse_location (GtkRange *range)
{
gint x, y;
MouseLocation old;
GtkWidget *widget;
widget = GTK_WIDGET (range);
old = range->layout->mouse_location;
x = range->layout->mouse_x;
y = range->layout->mouse_y;
if (range->layout->grab_location != MOUSE_OUTSIDE)
range->layout->mouse_location = range->layout->grab_location;
else if (POINT_IN_RECT (x, y, range->layout->stepper_a))
range->layout->mouse_location = MOUSE_STEPPER_A;
else if (POINT_IN_RECT (x, y, range->layout->stepper_b))
range->layout->mouse_location = MOUSE_STEPPER_B;
else if (POINT_IN_RECT (x, y, range->layout->stepper_c))
range->layout->mouse_location = MOUSE_STEPPER_C;
else if (POINT_IN_RECT (x, y, range->layout->stepper_d))
range->layout->mouse_location = MOUSE_STEPPER_D;
else if (POINT_IN_RECT (x, y, range->layout->slider))
range->layout->mouse_location = MOUSE_SLIDER;
else if (POINT_IN_RECT (x, y, range->layout->trough))
range->layout->mouse_location = MOUSE_TROUGH;
else if (POINT_IN_RECT (x, y, widget->allocation))
range->layout->mouse_location = MOUSE_WIDGET;
else
range->layout->mouse_location = MOUSE_OUTSIDE;
return old != range->layout->mouse_location;
}
/* Clamp rect, border inside widget->allocation, such that we prefer
* to take space from border not rect in all directions, and prefer to
* give space to border over rect in one direction.
*/
static void
clamp_dimensions (GtkWidget *widget,
GdkRectangle *rect,
GtkBorder *border,
gboolean border_expands_horizontally)
{
gint extra, shortage;
g_return_if_fail (rect->x == 0);
g_return_if_fail (rect->y == 0);
g_return_if_fail (rect->width >= 0);
g_return_if_fail (rect->height >= 0);
/* Width */
extra = widget->allocation.width - border->left - border->right - rect->width;
if (extra > 0)
{
if (border_expands_horizontally)
{
border->left += extra / 2;
border->right += extra / 2 + extra % 2;
}
else
{
rect->width += extra;
}
}
/* See if we can fit rect, if not kill the border */
shortage = rect->width - widget->allocation.width;
if (shortage > 0)
{
rect->width = widget->allocation.width;
/* lose the border */
border->left = 0;
border->right = 0;
}
else
{
/* See if we can fit rect with borders */
shortage = rect->width + border->left + border->right -
widget->allocation.width;
if (shortage > 0)
{
/* Shrink borders */
border->left -= shortage / 2;
border->right -= shortage / 2 + shortage % 2;
}
}
/* Height */
extra = widget->allocation.height - border->top - border->bottom - rect->height;
if (extra > 0)
{
if (border_expands_horizontally)
{
/* don't expand border vertically */
rect->height += extra;
}
else
{
border->top += extra / 2;
border->bottom += extra / 2 + extra % 2;
}
}
/* See if we can fit rect, if not kill the border */
shortage = rect->height - widget->allocation.height;
if (shortage > 0)
{
rect->height = widget->allocation.height;
/* lose the border */
border->top = 0;
border->bottom = 0;
}
else
{
/* See if we can fit rect with borders */
shortage = rect->height + border->top + border->bottom -
widget->allocation.height;
if (shortage > 0)
{
/* Shrink borders */
border->top -= shortage / 2;
border->bottom -= shortage / 2 + shortage % 2;
}
}
}
static void
gtk_range_calc_request (GtkRange *range,
gint slider_width,
gint stepper_size,
gint focus_width,
gint trough_border,
gint stepper_spacing,
GdkRectangle *range_rect,
GtkBorder *border,
gint *n_steppers_p,
gboolean *has_steppers_ab,
gboolean *has_steppers_cd,
gint *slider_length_p)
{
gint slider_length;
gint n_steppers;
gint n_steppers_ab;
gint n_steppers_cd;
border->left = 0;
border->right = 0;
border->top = 0;
border->bottom = 0;
if (GTK_RANGE_GET_CLASS (range)->get_range_border)
GTK_RANGE_GET_CLASS (range)->get_range_border (range, border);
n_steppers_ab = 0;
n_steppers_cd = 0;
if (range->has_stepper_a)
n_steppers_ab += 1;
if (range->has_stepper_b)
n_steppers_ab += 1;
if (range->has_stepper_c)
n_steppers_cd += 1;
if (range->has_stepper_d)
n_steppers_cd += 1;
n_steppers = n_steppers_ab + n_steppers_cd;
slider_length = range->min_slider_size;
range_rect->x = 0;
range_rect->y = 0;
/* We never expand to fill available space in the small dimension
* (i.e. vertical scrollbars are always a fixed width)
*/
if (range->orientation == GTK_ORIENTATION_VERTICAL)
{
range_rect->width = (focus_width + trough_border) * 2 + slider_width;
range_rect->height = stepper_size * n_steppers + (focus_width + trough_border) * 2 + slider_length;
if (n_steppers_ab > 0)
range_rect->height += stepper_spacing;
if (n_steppers_cd > 0)
range_rect->height += stepper_spacing;
}
else
{
range_rect->width = stepper_size * n_steppers + (focus_width + trough_border) * 2 + slider_length;
range_rect->height = (focus_width + trough_border) * 2 + slider_width;
if (n_steppers_ab > 0)
range_rect->width += stepper_spacing;
if (n_steppers_cd > 0)
range_rect->width += stepper_spacing;
}
if (n_steppers_p)
*n_steppers_p = n_steppers;
if (has_steppers_ab)
*has_steppers_ab = (n_steppers_ab > 0);
if (has_steppers_cd)
*has_steppers_cd = (n_steppers_cd > 0);
if (slider_length_p)
*slider_length_p = slider_length;
}
static void
gtk_range_calc_layout (GtkRange *range,
gdouble adjustment_value)
{
gint slider_width, stepper_size, focus_width, trough_border, stepper_spacing;
gint slider_length;
GtkBorder border;
gint n_steppers;
gboolean has_steppers_ab;
gboolean has_steppers_cd;
gboolean trough_under_steppers;
GdkRectangle range_rect;
GtkRangeLayout *layout;
GtkWidget *widget;
if (!range->need_recalc)
return;
/* If we have a too-small allocation, we prefer the steppers over
* the trough/slider, probably the steppers are a more useful
* feature in small spaces.
*
* Also, we prefer to draw the range itself rather than the border
* areas if there's a conflict, since the borders will be decoration
* not controls. Though this depends on subclasses cooperating by
* not drawing on range->range_rect.
*/
widget = GTK_WIDGET (range);
layout = range->layout;
gtk_range_get_props (range,
&slider_width, &stepper_size,
&focus_width, &trough_border,
&stepper_spacing, &trough_under_steppers,
NULL, NULL);
gtk_range_calc_request (range,
slider_width, stepper_size,
focus_width, trough_border, stepper_spacing,
&range_rect, &border, &n_steppers,
&has_steppers_ab, &has_steppers_cd, &slider_length);
/* We never expand to fill available space in the small dimension
* (i.e. vertical scrollbars are always a fixed width)
*/
if (range->orientation == GTK_ORIENTATION_VERTICAL)
{
clamp_dimensions (widget, &range_rect, &border, TRUE);
}
else
{
clamp_dimensions (widget, &range_rect, &border, FALSE);
}
range_rect.x = border.left;
range_rect.y = border.top;
range->range_rect = range_rect;
if (range->orientation == GTK_ORIENTATION_VERTICAL)
{
gint stepper_width, stepper_height;
/* Steppers are the width of the range, and stepper_size in
* height, or if we don't have enough height, divided equally
* among available space.
*/
stepper_width = range_rect.width - focus_width * 2;
if (trough_under_steppers)
stepper_width -= trough_border * 2;
if (stepper_width < 1)
stepper_width = range_rect.width; /* screw the trough border */
if (n_steppers == 0)
stepper_height = 0; /* avoid divide by n_steppers */
else
stepper_height = MIN (stepper_size, (range_rect.height / n_steppers));
/* Stepper A */
layout->stepper_a.x = range_rect.x + focus_width + trough_border * trough_under_steppers;
layout->stepper_a.y = range_rect.y + focus_width + trough_border * trough_under_steppers;
if (range->has_stepper_a)
{
layout->stepper_a.width = stepper_width;
layout->stepper_a.height = stepper_height;
}
else
{
layout->stepper_a.width = 0;
layout->stepper_a.height = 0;
}
/* Stepper B */
layout->stepper_b.x = layout->stepper_a.x;
layout->stepper_b.y = layout->stepper_a.y + layout->stepper_a.height;
if (range->has_stepper_b)
{
layout->stepper_b.width = stepper_width;
layout->stepper_b.height = stepper_height;
}
else
{
layout->stepper_b.width = 0;
layout->stepper_b.height = 0;
}
/* Stepper D */
if (range->has_stepper_d)
{
layout->stepper_d.width = stepper_width;
layout->stepper_d.height = stepper_height;
}
else
{
layout->stepper_d.width = 0;
layout->stepper_d.height = 0;
}
layout->stepper_d.x = layout->stepper_a.x;
layout->stepper_d.y = range_rect.y + range_rect.height - layout->stepper_d.height - focus_width - trough_border * trough_under_steppers;
/* Stepper C */
if (range->has_stepper_c)
{
layout->stepper_c.width = stepper_width;
layout->stepper_c.height = stepper_height;
}
else
{
layout->stepper_c.width = 0;
layout->stepper_c.height = 0;
}
layout->stepper_c.x = layout->stepper_a.x;
layout->stepper_c.y = layout->stepper_d.y - layout->stepper_c.height;
/* Now the trough is the remaining space between steppers B and C,
* if any, minus spacing
*/
layout->trough.x = range_rect.x;
layout->trough.y = layout->stepper_b.y + layout->stepper_b.height + stepper_spacing * has_steppers_ab;
layout->trough.width = range_rect.width;
layout->trough.height = layout->stepper_c.y - layout->trough.y - stepper_spacing * has_steppers_cd;
/* Slider fits into the trough, with stepper_spacing on either side,
* and the size/position based on the adjustment or fixed, depending.
*/
layout->slider.x = layout->trough.x + focus_width + trough_border;
layout->slider.width = layout->trough.width - (focus_width + trough_border) * 2;
/* Compute slider position/length */
{
gint y, bottom, top, height;
top = layout->trough.y;
bottom = layout->trough.y + layout->trough.height;
if (! trough_under_steppers)
{
top += trough_border;
bottom -= trough_border;
}
/* slider height is the fraction (page_size /
* total_adjustment_range) times the trough height in pixels
*/
if (range->adjustment->upper - range->adjustment->lower != 0)
height = ((bottom - top) * (range->adjustment->page_size /
(range->adjustment->upper - range->adjustment->lower)));
else
height = range->min_slider_size;
if (height < range->min_slider_size ||
range->slider_size_fixed)
height = range->min_slider_size;
height = MIN (height, layout->trough.height);
y = top;
if (range->adjustment->upper - range->adjustment->lower - range->adjustment->page_size != 0)
y += (bottom - top - height) * ((adjustment_value - range->adjustment->lower) /
(range->adjustment->upper - range->adjustment->lower - range->adjustment->page_size));
y = CLAMP (y, top, bottom);
if (should_invert (range))
y = bottom - (y - top + height);
layout->slider.y = y;
layout->slider.height = height;
/* These are publically exported */
range->slider_start = layout->slider.y;
range->slider_end = layout->slider.y + layout->slider.height;
}
}
else
{
gint stepper_width, stepper_height;
/* Steppers are the height of the range, and stepper_size in
* width, or if we don't have enough width, divided equally
* among available space.
*/
stepper_height = range_rect.height + focus_width * 2;
if (trough_under_steppers)
stepper_height -= trough_border * 2;
if (stepper_height < 1)
stepper_height = range_rect.height; /* screw the trough border */
if (n_steppers == 0)
stepper_width = 0; /* avoid divide by n_steppers */
else
stepper_width = MIN (stepper_size, (range_rect.width / n_steppers));
/* Stepper A */
layout->stepper_a.x = range_rect.x + focus_width + trough_border * trough_under_steppers;
layout->stepper_a.y = range_rect.y + focus_width + trough_border * trough_under_steppers;
if (range->has_stepper_a)
{
layout->stepper_a.width = stepper_width;
layout->stepper_a.height = stepper_height;
}
else
{
layout->stepper_a.width = 0;
layout->stepper_a.height = 0;
}
/* Stepper B */
layout->stepper_b.x = layout->stepper_a.x + layout->stepper_a.width;
layout->stepper_b.y = layout->stepper_a.y;
if (range->has_stepper_b)
{
layout->stepper_b.width = stepper_width;
layout->stepper_b.height = stepper_height;
}
else
{
layout->stepper_b.width = 0;
layout->stepper_b.height = 0;
}
/* Stepper D */
if (range->has_stepper_d)
{
layout->stepper_d.width = stepper_width;
layout->stepper_d.height = stepper_height;
}
else
{
layout->stepper_d.width = 0;
layout->stepper_d.height = 0;
}
layout->stepper_d.x = range_rect.x + range_rect.width - layout->stepper_d.width - focus_width - trough_border * trough_under_steppers;
layout->stepper_d.y = layout->stepper_a.y;
/* Stepper C */
if (range->has_stepper_c)
{
layout->stepper_c.width = stepper_width;
layout->stepper_c.height = stepper_height;
}
else
{
layout->stepper_c.width = 0;
layout->stepper_c.height = 0;
}
layout->stepper_c.x = layout->stepper_d.x - layout->stepper_c.width;
layout->stepper_c.y = layout->stepper_a.y;
/* Now the trough is the remaining space between steppers B and C,
* if any
*/
layout->trough.x = layout->stepper_b.x + layout->stepper_b.width + stepper_spacing * has_steppers_ab;
layout->trough.y = range_rect.y;
layout->trough.width = layout->stepper_c.x - layout->trough.x - stepper_spacing * has_steppers_cd;
layout->trough.height = range_rect.height;
/* Slider fits into the trough, with stepper_spacing on either side,
* and the size/position based on the adjustment or fixed, depending.
*/
layout->slider.y = layout->trough.y + focus_width + trough_border;
layout->slider.height = layout->trough.height - (focus_width + trough_border) * 2;
/* Compute slider position/length */
{
gint x, left, right, width;
left = layout->trough.x;
right = layout->trough.x + layout->trough.width;
if (! trough_under_steppers)
{
left += trough_border;
right -= trough_border;
}
/* slider width is the fraction (page_size /
* total_adjustment_range) times the trough width in pixels
*/
if (range->adjustment->upper - range->adjustment->lower != 0)
width = ((right - left) * (range->adjustment->page_size /
(range->adjustment->upper - range->adjustment->lower)));
else
width = range->min_slider_size;
if (width < range->min_slider_size ||
range->slider_size_fixed)
width = range->min_slider_size;
width = MIN (width, layout->trough.width);
x = left;
if (range->adjustment->upper - range->adjustment->lower - range->adjustment->page_size != 0)
x += (right - left - width) * ((adjustment_value - range->adjustment->lower) /
(range->adjustment->upper - range->adjustment->lower - range->adjustment->page_size));
x = CLAMP (x, left, right);
if (should_invert (range))
x = right - (x - left + width);
layout->slider.x = x;
layout->slider.width = width;
/* These are publically exported */
range->slider_start = layout->slider.x;
range->slider_end = layout->slider.x + layout->slider.width;
}
}
gtk_range_update_mouse_location (range);
switch (range->layout->upper_sensitivity)
{
case GTK_SENSITIVITY_AUTO:
range->layout->upper_sensitive =
(range->adjustment->value <
(range->adjustment->upper - range->adjustment->page_size));
break;
case GTK_SENSITIVITY_ON:
range->layout->upper_sensitive = TRUE;
break;
case GTK_SENSITIVITY_OFF:
range->layout->upper_sensitive = FALSE;
break;
}
switch (range->layout->lower_sensitivity)
{
case GTK_SENSITIVITY_AUTO:
range->layout->lower_sensitive =
(range->adjustment->value > range->adjustment->lower);
break;
case GTK_SENSITIVITY_ON:
range->layout->lower_sensitive = TRUE;
break;
case GTK_SENSITIVITY_OFF:
range->layout->lower_sensitive = FALSE;
break;
}
}
static GdkRectangle*
get_area (GtkRange *range,
MouseLocation location)
{
switch (location)
{
case MOUSE_STEPPER_A:
return &range->layout->stepper_a;
case MOUSE_STEPPER_B:
return &range->layout->stepper_b;
case MOUSE_STEPPER_C:
return &range->layout->stepper_c;
case MOUSE_STEPPER_D:
return &range->layout->stepper_d;
case MOUSE_TROUGH:
return &range->layout->trough;
case MOUSE_SLIDER:
return &range->layout->slider;
case MOUSE_WIDGET:
case MOUSE_OUTSIDE:
break;
}
g_warning (G_STRLOC": bug");
return NULL;
}
static void
gtk_range_calc_marks (GtkRange *range)
{
gint i;
if (!range->layout->recalc_marks)
return;
range->layout->recalc_marks = FALSE;
for (i = 0; i < range->layout->n_marks; i++)
{
range->need_recalc = TRUE;
gtk_range_calc_layout (range, range->layout->marks[i]);
if (range->orientation == GTK_ORIENTATION_HORIZONTAL)
range->layout->mark_pos[i] = range->layout->slider.x + range->layout->slider.width / 2;
else
range->layout->mark_pos[i] = range->layout->slider.y + range->layout->slider.height / 2;
}
range->need_recalc = TRUE;
}
static gboolean
gtk_range_real_change_value (GtkRange *range,
GtkScrollType scroll,
gdouble value)
{
/* potentially adjust the bounds _before we clamp */
g_signal_emit (range, signals[ADJUST_BOUNDS], 0, value);
if (range->layout->restrict_to_fill_level)
value = MIN (value, MAX (range->adjustment->lower,
range->layout->fill_level));
value = CLAMP (value, range->adjustment->lower,
(range->adjustment->upper - range->adjustment->page_size));
if (range->round_digits >= 0)
{
gdouble power;
gint i;
i = range->round_digits;
power = 1;
while (i--)
power *= 10;
value = floor ((value * power) + 0.5) / power;
}
if (range->adjustment->value != value)
{
range->need_recalc = TRUE;
gtk_widget_queue_draw (GTK_WIDGET (range));
switch (range->update_policy)
{
case GTK_UPDATE_CONTINUOUS:
gtk_adjustment_set_value (range->adjustment, value);
break;
/* Delayed means we update after a period of inactivity */
case GTK_UPDATE_DELAYED:
gtk_range_reset_update_timer (range);
/* FALL THRU */
/* Discontinuous means we update on button release */
case GTK_UPDATE_DISCONTINUOUS:
/* don't emit value_changed signal */
range->adjustment->value = value;
range->update_pending = TRUE;
break;
}
}
return FALSE;
}
static void
gtk_range_update_value (GtkRange *range)
{
gtk_range_remove_update_timer (range);
if (range->update_pending)
{
gtk_adjustment_value_changed (range->adjustment);
range->update_pending = FALSE;
}
}
struct _GtkRangeStepTimer
{
guint timeout_id;
GtkScrollType step;
};
static gboolean
second_timeout (gpointer data)
{
GtkRange *range;
range = GTK_RANGE (data);
gtk_range_scroll (range, range->timer->step);
return TRUE;
}
static gboolean
initial_timeout (gpointer data)
{
GtkRange *range;
GtkSettings *settings;
guint timeout;
settings = gtk_widget_get_settings (GTK_WIDGET (data));
g_object_get (settings, "gtk-timeout-repeat", &timeout, NULL);
range = GTK_RANGE (data);
range->timer->timeout_id = gdk_threads_add_timeout (timeout * SCROLL_DELAY_FACTOR,
second_timeout,
range);
/* remove self */
return FALSE;
}
static void
gtk_range_add_step_timer (GtkRange *range,
GtkScrollType step)
{
GtkSettings *settings;
guint timeout;
g_return_if_fail (range->timer == NULL);
g_return_if_fail (step != GTK_SCROLL_NONE);
settings = gtk_widget_get_settings (GTK_WIDGET (range));
g_object_get (settings, "gtk-timeout-initial", &timeout, NULL);
range->timer = g_new (GtkRangeStepTimer, 1);
range->timer->timeout_id = gdk_threads_add_timeout (timeout,
initial_timeout,
range);
range->timer->step = step;
gtk_range_scroll (range, range->timer->step);
}
static void
gtk_range_remove_step_timer (GtkRange *range)
{
if (range->timer)
{
if (range->timer->timeout_id != 0)
g_source_remove (range->timer->timeout_id);
g_free (range->timer);
range->timer = NULL;
}
}
static gboolean
update_timeout (gpointer data)
{
GtkRange *range;
range = GTK_RANGE (data);
gtk_range_update_value (range);
range->update_timeout_id = 0;
/* self-remove */
return FALSE;
}
static void
gtk_range_reset_update_timer (GtkRange *range)
{
gtk_range_remove_update_timer (range);
range->update_timeout_id = gdk_threads_add_timeout (UPDATE_DELAY,
update_timeout,
range);
}
static void
gtk_range_remove_update_timer (GtkRange *range)
{
if (range->update_timeout_id != 0)
{
g_source_remove (range->update_timeout_id);
range->update_timeout_id = 0;
}
}
void
_gtk_range_set_stop_values (GtkRange *range,
gdouble *values,
gint n_values)
{
gint i;
g_free (range->layout->marks);
range->layout->marks = g_new (gdouble, n_values);
g_free (range->layout->mark_pos);
range->layout->mark_pos = g_new (gint, n_values);
range->layout->n_marks = n_values;
for (i = 0; i < n_values; i++)
range->layout->marks[i] = values[i];
range->layout->recalc_marks = TRUE;
}
gint
_gtk_range_get_stop_positions (GtkRange *range,
gint **values)
{
gtk_range_calc_marks (range);
if (values)
*values = g_memdup (range->layout->mark_pos, range->layout->n_marks * sizeof (gint));
return range->layout->n_marks;
}
/**
* gtk_range_set_round_digits:
* @range: a #GtkRange
* @round_digits: the precision in digits, or -1
*
* Sets the number of digits to round the value to when
* it changes. See #GtkRange::change-value.
*
* Since: 2.24
*/
void
gtk_range_set_round_digits (GtkRange *range,
gint round_digits)
{
g_return_if_fail (GTK_IS_RANGE (range));
g_return_if_fail (round_digits >= -1);
range->round_digits = round_digits;
g_object_notify (G_OBJECT (range), "round-digits");
}
/**
* gtk_range_get_round_digits:
* @range: a #GtkRange
*
* Gets the number of digits to round the value to when
* it changes. See #GtkRange::change-value.
*
* Return value: the number of digits to round to
*
* Since: 2.24
*/
gint
gtk_range_get_round_digits (GtkRange *range)
{
g_return_val_if_fail (GTK_IS_RANGE (range), -1);
return range->round_digits;
}
#define __GTK_RANGE_C__
#include "gtkaliasdef.c"