/* gtkboxlayout.c: Box layout manager * * Copyright 2019 GNOME Foundation * * 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, see . */ #include "config.h" #include "gtkboxlayout.h" #include "gtkcsspositionvalueprivate.h" #include "gtkorientable.h" #include "gtkprivate.h" #include "gtksizerequest.h" #include "gtktypebuiltins.h" #include "gtkwidgetprivate.h" #include "gtkcssnodeprivate.h" /** * GtkBoxLayout: * * `GtkBoxLayout` is a layout manager that arranges children in a single * row or column. * * Whether it is a row or column depends on the value of its * [property@Gtk.Orientable:orientation] property. Within the other dimension * all children all allocated the same size. The `GtkBoxLayout` will respect * the [property@Gtk.Widget:halign] and [property@Gtk.Widget:valign] * properties of each child widget. * * If you want all children to be assigned the same size, you can use * the [property@Gtk.BoxLayout:homogeneous] property. * * If you want to specify the amount of space placed between each child, * you can use the [property@Gtk.BoxLayout:spacing] property. */ struct _GtkBoxLayout { GtkLayoutManager parent_instance; gboolean homogeneous; guint spacing; GtkOrientation orientation; GtkBaselinePosition baseline_position; }; G_DEFINE_TYPE_WITH_CODE (GtkBoxLayout, gtk_box_layout, GTK_TYPE_LAYOUT_MANAGER, G_IMPLEMENT_INTERFACE (GTK_TYPE_ORIENTABLE, NULL)) enum { PROP_HOMOGENEOUS = 1, PROP_SPACING, PROP_BASELINE_POSITION, /* From GtkOrientable */ PROP_ORIENTATION, N_PROPS = PROP_ORIENTATION }; static GParamSpec *box_layout_props[N_PROPS]; static void gtk_box_layout_set_orientation (GtkBoxLayout *self, GtkOrientation orientation) { GtkLayoutManager *layout_manager = GTK_LAYOUT_MANAGER (self); GtkWidget *widget; if (self->orientation == orientation) return; self->orientation = orientation; widget = gtk_layout_manager_get_widget (layout_manager); if (widget != NULL && GTK_IS_ORIENTABLE (widget)) gtk_widget_update_orientation (widget, self->orientation); gtk_layout_manager_layout_changed (layout_manager); g_object_notify (G_OBJECT (self), "orientation"); } static void gtk_box_layout_set_property (GObject *gobject, guint prop_id, const GValue *value, GParamSpec *pspec) { GtkBoxLayout *self = GTK_BOX_LAYOUT (gobject); switch (prop_id) { case PROP_HOMOGENEOUS: gtk_box_layout_set_homogeneous (self, g_value_get_boolean (value)); break; case PROP_SPACING: gtk_box_layout_set_spacing (self, g_value_get_int (value)); break; case PROP_BASELINE_POSITION: gtk_box_layout_set_baseline_position (self, g_value_get_enum (value)); break; case PROP_ORIENTATION: gtk_box_layout_set_orientation (self, g_value_get_enum (value)); break; default: G_OBJECT_WARN_INVALID_PROPERTY_ID (gobject, prop_id, pspec); break; } } static void gtk_box_layout_get_property (GObject *gobject, guint prop_id, GValue *value, GParamSpec *pspec) { GtkBoxLayout *box_layout = GTK_BOX_LAYOUT (gobject); switch (prop_id) { case PROP_HOMOGENEOUS: g_value_set_boolean (value, box_layout->homogeneous); break; case PROP_SPACING: g_value_set_int (value, box_layout->spacing); break; case PROP_BASELINE_POSITION: g_value_set_enum (value, box_layout->baseline_position); break; case PROP_ORIENTATION: g_value_set_enum (value, box_layout->orientation); break; default: G_OBJECT_WARN_INVALID_PROPERTY_ID (gobject, prop_id, pspec); break; } } static void count_expand_children (GtkWidget *widget, GtkOrientation orientation, int *visible_children, int *expand_children) { GtkWidget *child; *visible_children = *expand_children = 0; for (child = _gtk_widget_get_first_child (widget); child != NULL; child = _gtk_widget_get_next_sibling (child)) { if (!gtk_widget_should_layout (child)) continue; *visible_children += 1; if (gtk_widget_compute_expand (child, orientation)) *expand_children += 1; } } static int get_spacing (GtkBoxLayout *self, GtkCssNode *node) { GtkCssStyle *style = gtk_css_node_get_style (node); GtkCssValue *border_spacing; int css_spacing; border_spacing = style->size->border_spacing; if (self->orientation == GTK_ORIENTATION_HORIZONTAL) css_spacing = _gtk_css_position_value_get_x (border_spacing, 100); else css_spacing = _gtk_css_position_value_get_y (border_spacing, 100); return css_spacing + self->spacing; } static void gtk_box_layout_compute_size (GtkBoxLayout *self, GtkWidget *widget, int for_size, int *minimum, int *natural) { GtkWidget *child; int n_visible_children = 0; int required_min = 0, required_nat = 0; int largest_min = 0, largest_nat = 0; int spacing = get_spacing (self, gtk_widget_get_css_node (widget)); for (child = gtk_widget_get_first_child (widget); child != NULL; child = gtk_widget_get_next_sibling (child)) { int child_min = 0; int child_nat = 0; if (!gtk_widget_should_layout (child)) continue; gtk_widget_measure (child, self->orientation, for_size, &child_min, &child_nat, NULL, NULL); largest_min = MAX (largest_min, child_min); largest_nat = MAX (largest_nat, child_nat); required_min += child_min; required_nat += child_nat; n_visible_children += 1; } if (n_visible_children > 0) { if (self->homogeneous) { required_min = largest_min * n_visible_children; required_nat = largest_nat * n_visible_children; } required_min += (n_visible_children - 1) * spacing; required_nat += (n_visible_children - 1) * spacing; } *minimum = required_min; *natural = required_nat; } static void gtk_box_layout_compute_opposite_size (GtkBoxLayout *self, GtkWidget *widget, int *minimum, int *natural, int *min_baseline, int *nat_baseline) { GtkWidget *child; int largest_min = 0, largest_nat = 0; for (child = gtk_widget_get_first_child (widget); child != NULL; child = gtk_widget_get_next_sibling (child)) { int child_min = 0; int child_nat = 0; if (!gtk_widget_should_layout (child)) continue; gtk_widget_measure (child, OPPOSITE_ORIENTATION (self->orientation), -1, &child_min, &child_nat, NULL, NULL); largest_min = MAX (largest_min, child_min); largest_nat = MAX (largest_nat, child_nat); } *minimum = largest_min; *natural = largest_nat; } /* if widgets haven't reached their min opposite size at this * huge value, things went massively wrong and we need to bail to not * cause an infinite loop. */ #define MAX_ALLOWED_SIZE (1 << 20) static int distribute_remaining_size (GtkRequestedSize *sizes, gsize n_sizes, GtkOrientation orientation, int available, int min, int max) { int total_size = 0; gsize i; if (n_sizes == 0) return available; for (i = 0; i < n_sizes; i++) { gtk_widget_measure (sizes[i].data, orientation, min, &sizes[i].minimum_size, &sizes[i].natural_size, NULL, NULL); total_size += sizes[i].minimum_size; } if (total_size <= available) return available - total_size; /* total_size > available happens when we last ran for values too big, * rerun for the correct value min == max in that case */ while (min < max || total_size > available) { int test; if (min > MAX_ALLOWED_SIZE) { /* sanity check! */ for (i = 0; i < n_sizes; i++) { int check_min, check_nat; gtk_widget_measure (sizes[i].data, orientation, MAX_ALLOWED_SIZE, &sizes[i].minimum_size, &sizes[i].natural_size, NULL, NULL); gtk_widget_measure (sizes[i].data, orientation, -1, &check_min, &check_nat, NULL, NULL); if (check_min < sizes[i].minimum_size) { g_critical ("%s %p reports a minimum %s of %u, but minimum %s for %s of %u is %u. Expect overlapping widgets.", G_OBJECT_TYPE_NAME (sizes[i].data), sizes[i].data, orientation == GTK_ORIENTATION_HORIZONTAL ? "width" : "height", check_min, orientation == GTK_ORIENTATION_HORIZONTAL ? "width" : "height", orientation == GTK_ORIENTATION_HORIZONTAL ? "height" : "width", MAX_ALLOWED_SIZE, sizes[i].minimum_size); sizes[i].minimum_size = check_min; sizes[i].natural_size = check_nat; } total_size += sizes[i].minimum_size; } return MAX (0, available - total_size); } if (max == MAX_ALLOWED_SIZE) test = min * 2; else test = (min + max) / 2; total_size = 0; for (i = 0; i < n_sizes; i++) { gtk_widget_measure (sizes[i].data, orientation, test, &sizes[i].minimum_size, &sizes[i].natural_size, NULL, NULL); total_size += sizes[i].minimum_size; } if (total_size > available) min = test + 1; else max = test; } return available - total_size; } static void gtk_box_layout_compute_opposite_size_for_size (GtkBoxLayout *self, GtkWidget *widget, int for_size, int *minimum, int *natural, int *min_baseline, int *nat_baseline) { GtkWidget *child; int nvis_children; int nexpand_children; int computed_minimum = 0, computed_natural = 0; int computed_minimum_above = 0, computed_natural_above = 0; int computed_minimum_below = 0, computed_natural_below = 0; int computed_minimum_baseline = -1, computed_natural_baseline = -1; GtkRequestedSize *sizes; int available, size_given_to_child, i; int child_size, child_minimum, child_natural; int child_minimum_baseline, child_natural_baseline; int n_extra_widgets = 0; int spacing; gboolean have_baseline = FALSE; count_expand_children (widget, self->orientation, &nvis_children, &nexpand_children); if (nvis_children <= 0) return; spacing = get_spacing (self, gtk_widget_get_css_node (widget)); sizes = g_newa (GtkRequestedSize, nvis_children); g_assert ((nvis_children - 1) * spacing <= for_size); available = for_size - (nvis_children - 1) * spacing; if (self->homogeneous) { size_given_to_child = available / nvis_children; n_extra_widgets = available % nvis_children; for (child = _gtk_widget_get_first_child (widget); child != NULL; child = _gtk_widget_get_next_sibling (child)) { if (!gtk_widget_should_layout (child)) continue; child_size = size_given_to_child; if (n_extra_widgets) { child_size++; n_extra_widgets--; } child_minimum_baseline = child_natural_baseline = -1; /* Assign the child's position. */ gtk_widget_measure (child, OPPOSITE_ORIENTATION (self->orientation), child_size, &child_minimum, &child_natural, &child_minimum_baseline, &child_natural_baseline); if (child_minimum_baseline >= 0) { have_baseline = TRUE; computed_minimum_below = MAX (computed_minimum_below, child_minimum - child_minimum_baseline); computed_natural_below = MAX (computed_natural_below, child_natural - child_natural_baseline); computed_minimum_above = MAX (computed_minimum_above, child_minimum_baseline); computed_natural_above = MAX (computed_natural_above, child_natural_baseline); } else { computed_minimum = MAX (computed_minimum, child_minimum); computed_natural = MAX (computed_natural, child_natural); } } } else { int min_size = 0, child_min_size; int n_inconstant = 0; /* Retrieve desired size for visible children */ for (i = 0, child = _gtk_widget_get_first_child (widget); child != NULL; child = _gtk_widget_get_next_sibling (child)) { if (!gtk_widget_should_layout (child)) continue; if (gtk_widget_get_request_mode (child) == GTK_SIZE_REQUEST_CONSTANT_SIZE) { gtk_widget_measure (child, self->orientation, -1, &sizes[i].minimum_size, &sizes[i].natural_size, NULL, NULL); sizes[i].data = child; g_assert (available >= sizes[i].minimum_size); available -= sizes[i].minimum_size; i++; } else { gtk_widget_measure (child, OPPOSITE_ORIENTATION (self->orientation), -1, &child_min_size, NULL, NULL, NULL); min_size = MAX (min_size, child_min_size); n_inconstant++; sizes[nvis_children - n_inconstant].data = child; } } available = distribute_remaining_size (sizes + nvis_children - n_inconstant, n_inconstant, self->orientation, available, min_size, MAX_ALLOWED_SIZE); /* Bring children up to size first */ available = gtk_distribute_natural_allocation (available, nvis_children, sizes); /* Calculate space which hasn't distributed yet, * and is available for expanding children. */ if (nexpand_children > 0) { size_given_to_child = available / nexpand_children; n_extra_widgets = available % nexpand_children; } else { size_given_to_child = 0; } i = 0; n_inconstant = 0; for (child = _gtk_widget_get_first_child (widget); child != NULL; child = _gtk_widget_get_next_sibling (child)) { if (!gtk_widget_should_layout (child)) continue; if (sizes[i].data == child) { child_size = sizes[i].minimum_size; i++; } else { n_inconstant++; g_assert (sizes[nvis_children - n_inconstant].data == child); child_size = sizes[nvis_children - n_inconstant].minimum_size; } if (gtk_widget_compute_expand (child, self->orientation)) { child_size += size_given_to_child; if (n_extra_widgets > 0) { child_size++; n_extra_widgets--; } } child_minimum_baseline = child_natural_baseline = -1; /* Assign the child's position. */ gtk_widget_measure (child, OPPOSITE_ORIENTATION (self->orientation), child_size, &child_minimum, &child_natural, &child_minimum_baseline, &child_natural_baseline); if (child_minimum_baseline >= 0) { have_baseline = TRUE; computed_minimum_below = MAX (computed_minimum_below, child_minimum - child_minimum_baseline); computed_natural_below = MAX (computed_natural_below, child_natural - child_natural_baseline); computed_minimum_above = MAX (computed_minimum_above, child_minimum_baseline); computed_natural_above = MAX (computed_natural_above, child_natural_baseline); } else { computed_minimum = MAX (computed_minimum, child_minimum); computed_natural = MAX (computed_natural, child_natural); } } } if (have_baseline) { computed_minimum = MAX (computed_minimum, computed_minimum_below + computed_minimum_above); computed_natural = MAX (computed_natural, computed_natural_below + computed_natural_above); switch (self->baseline_position) { case GTK_BASELINE_POSITION_TOP: computed_minimum_baseline = computed_minimum_above; computed_natural_baseline = computed_natural_above; break; case GTK_BASELINE_POSITION_CENTER: computed_minimum_baseline = computed_minimum_above + MAX((computed_minimum - (computed_minimum_above + computed_minimum_below)) / 2, 0); computed_natural_baseline = computed_natural_above + MAX((computed_natural - (computed_natural_above + computed_natural_below)) / 2, 0); break; case GTK_BASELINE_POSITION_BOTTOM: computed_minimum_baseline = computed_minimum - computed_minimum_below; computed_natural_baseline = computed_natural - computed_natural_below; break; default: break; } } *minimum = computed_minimum; *natural = MAX (computed_natural, computed_natural_below + computed_natural_above); *min_baseline = computed_minimum_baseline; *nat_baseline = computed_natural_baseline; } static void gtk_box_layout_measure (GtkLayoutManager *layout_manager, GtkWidget *widget, GtkOrientation orientation, int for_size, int *minimum, int *natural, int *min_baseline, int *nat_baseline) { GtkBoxLayout *self = GTK_BOX_LAYOUT (layout_manager); if (self->orientation != orientation) { if (for_size < 0) { gtk_box_layout_compute_opposite_size (self, widget, minimum, natural, min_baseline, nat_baseline); } else { gtk_box_layout_compute_opposite_size_for_size (self, widget, for_size, minimum, natural, min_baseline, nat_baseline); } } else { gtk_box_layout_compute_size (self, widget, for_size, minimum, natural); } } static void gtk_box_layout_allocate (GtkLayoutManager *layout_manager, GtkWidget *widget, int width, int height, int baseline) { GtkBoxLayout *self = GTK_BOX_LAYOUT (layout_manager); GtkWidget *child; int nvis_children; int nexpand_children; GtkTextDirection direction; GtkAllocation child_allocation; GtkRequestedSize *sizes; int child_minimum_baseline, child_natural_baseline; int minimum_above, natural_above; int minimum_below, natural_below; gboolean have_baseline; int extra_space; int children_minimum_size = 0; int size_given_to_child; int n_extra_widgets = 0; /* Number of widgets that receive 1 extra px */ int x = 0, y = 0, i; int child_size; int spacing; count_expand_children (widget, self->orientation, &nvis_children, &nexpand_children); /* If there is no visible child, simply return. */ if (nvis_children <= 0) return; direction = _gtk_widget_get_direction (widget); sizes = g_newa (GtkRequestedSize, nvis_children); spacing = get_spacing (self, gtk_widget_get_css_node (widget)); if (self->orientation == GTK_ORIENTATION_HORIZONTAL) extra_space = width - (nvis_children - 1) * spacing; else extra_space = height - (nvis_children - 1) * spacing; have_baseline = FALSE; minimum_above = natural_above = 0; minimum_below = natural_below = 0; /* Retrieve desired size for visible children. */ for (i = 0, child = _gtk_widget_get_first_child (widget); child != NULL; child = _gtk_widget_get_next_sibling (child)) { if (!gtk_widget_should_layout (child)) continue; gtk_widget_measure (child, self->orientation, self->orientation == GTK_ORIENTATION_HORIZONTAL ? height : width, &sizes[i].minimum_size, &sizes[i].natural_size, NULL, NULL); children_minimum_size += sizes[i].minimum_size; sizes[i].data = child; i++; } if (self->homogeneous) { /* We still need to run the above loop to populate the minimum sizes for * children that aren't going to fill. */ size_given_to_child = extra_space / nvis_children; n_extra_widgets = extra_space % nvis_children; } else { /* Bring children up to size first */ extra_space -= children_minimum_size; extra_space = MAX (0, extra_space); extra_space = gtk_distribute_natural_allocation (extra_space, nvis_children, sizes); /* Calculate space which hasn't distributed yet, * and is available for expanding children. */ if (nexpand_children > 0) { size_given_to_child = extra_space / nexpand_children; n_extra_widgets = extra_space % nexpand_children; } else { size_given_to_child = 0; } } /* Allocate child sizes. */ for (i = 0, child = _gtk_widget_get_first_child (widget); child != NULL; child = _gtk_widget_get_next_sibling (child)) { if (!gtk_widget_should_layout (child)) continue; /* Assign the child's size. */ if (self->homogeneous) { child_size = size_given_to_child; if (n_extra_widgets > 0) { child_size++; n_extra_widgets--; } } else { child_size = sizes[i].minimum_size; if (gtk_widget_compute_expand (child, self->orientation)) { child_size += size_given_to_child; if (n_extra_widgets > 0) { child_size++; n_extra_widgets--; } } } sizes[i].natural_size = child_size; if (self->orientation == GTK_ORIENTATION_HORIZONTAL && gtk_widget_get_valign (child) == GTK_ALIGN_BASELINE) { int child_allocation_width; int child_minimum_height, child_natural_height; child_allocation_width = child_size; child_minimum_baseline = -1; child_natural_baseline = -1; gtk_widget_measure (child, GTK_ORIENTATION_VERTICAL, child_allocation_width, &child_minimum_height, &child_natural_height, &child_minimum_baseline, &child_natural_baseline); if (child_minimum_baseline >= 0) { have_baseline = TRUE; minimum_below = MAX (minimum_below, child_minimum_height - child_minimum_baseline); natural_below = MAX (natural_below, child_natural_height - child_natural_baseline); minimum_above = MAX (minimum_above, child_minimum_baseline); natural_above = MAX (natural_above, child_natural_baseline); } } i++; } if (self->orientation == GTK_ORIENTATION_VERTICAL) baseline = -1; /* we only calculate our own baseline if we don't get one passed from the parent * and any of the child widgets explicitly request one */ if (baseline == -1 && have_baseline) { /* TODO: This is purely based on the minimum baseline, when things fit we should use the natural one? */ switch (self->baseline_position) { case GTK_BASELINE_POSITION_TOP: baseline = minimum_above; break; case GTK_BASELINE_POSITION_CENTER: baseline = minimum_above + (height - (minimum_above + minimum_below)) / 2; break; case GTK_BASELINE_POSITION_BOTTOM: baseline = height - minimum_below; break; default: break; } } /* Allocate child positions. */ if (self->orientation == GTK_ORIENTATION_HORIZONTAL) { child_allocation.y = 0; child_allocation.height = height; x = 0; } else { child_allocation.x = 0; child_allocation.width = width; y = 0; } for (i = 0, child = _gtk_widget_get_first_child (widget); child != NULL; child = _gtk_widget_get_next_sibling (child)) { if (!gtk_widget_should_layout (child)) continue; child_size = sizes[i].natural_size; /* Assign the child's position. */ if (self->orientation == GTK_ORIENTATION_HORIZONTAL) { child_allocation.width = child_size; child_allocation.x = x; x += child_size + spacing; if (direction == GTK_TEXT_DIR_RTL) child_allocation.x = width - child_allocation.x - child_allocation.width; } else /* (self->orientation == GTK_ORIENTATION_VERTICAL) */ { child_allocation.height = child_size; child_allocation.y = y; y += child_size + spacing; } gtk_widget_size_allocate (child, &child_allocation, baseline); i++; } } static void gtk_box_layout_class_init (GtkBoxLayoutClass *klass) { GObjectClass *gobject_class = G_OBJECT_CLASS (klass); GtkLayoutManagerClass *layout_manager_class = GTK_LAYOUT_MANAGER_CLASS (klass); gobject_class->set_property = gtk_box_layout_set_property; gobject_class->get_property = gtk_box_layout_get_property; layout_manager_class->measure = gtk_box_layout_measure; layout_manager_class->allocate = gtk_box_layout_allocate; /** * GtkBoxLayout:homogeneous: (attributes org.gtk.Property.get=gtk_box_layout_get_homogeneous org.gtk.Property.set=gtk_box_layout_set_homogeneous) * * Whether the box layout should distribute the available space * equally among the children. */ box_layout_props[PROP_HOMOGENEOUS] = g_param_spec_boolean ("homogeneous", NULL, NULL, FALSE, GTK_PARAM_READWRITE | G_PARAM_EXPLICIT_NOTIFY); /** * GtkBoxLayout:spacing: (attributes org.gtk.Property.get=gtk_box_layout_get_spacing org.gtk.Property.set=gtk_box_layout_set_spacing) * * The space to put between the children. */ box_layout_props[PROP_SPACING] = g_param_spec_int ("spacing", NULL, NULL, 0, G_MAXINT, 0, GTK_PARAM_READWRITE | G_PARAM_EXPLICIT_NOTIFY); /** * GtkBoxLayout:baseline-position: (attributes org.gtk.Property.get=gtk_box_layout_get_baseline_position org.gtk.Property.set=gtk_box_layout_set_baseline_position) * * The position of the allocated baseline within the extra space * allocated to each child. * * This property is only relevant for horizontal layouts containing * at least one child with a baseline alignment. */ box_layout_props[PROP_BASELINE_POSITION] = g_param_spec_enum ("baseline-position", NULL, NULL, GTK_TYPE_BASELINE_POSITION, GTK_BASELINE_POSITION_CENTER, GTK_PARAM_READWRITE | G_PARAM_EXPLICIT_NOTIFY); g_object_class_install_properties (gobject_class, N_PROPS, box_layout_props); g_object_class_override_property (gobject_class, PROP_ORIENTATION, "orientation"); } static void gtk_box_layout_init (GtkBoxLayout *self) { self->homogeneous = FALSE; self->spacing = 0; self->orientation = GTK_ORIENTATION_HORIZONTAL; self->baseline_position = GTK_BASELINE_POSITION_CENTER; } /** * gtk_box_layout_new: * @orientation: the orientation for the new layout * * Creates a new `GtkBoxLayout`. * * Returns: a new box layout */ GtkLayoutManager * gtk_box_layout_new (GtkOrientation orientation) { return g_object_new (GTK_TYPE_BOX_LAYOUT, "orientation", orientation, NULL); } /** * gtk_box_layout_set_homogeneous: (attributes org.gtk.Method.set_property=homogeneous) * @box_layout: a `GtkBoxLayout` * @homogeneous: %TRUE to set the box layout as homogeneous * * Sets whether the box layout will allocate the same * size to all children. */ void gtk_box_layout_set_homogeneous (GtkBoxLayout *box_layout, gboolean homogeneous) { g_return_if_fail (GTK_IS_BOX_LAYOUT (box_layout)); homogeneous = !!homogeneous; if (box_layout->homogeneous == homogeneous) return; box_layout->homogeneous = homogeneous; gtk_layout_manager_layout_changed (GTK_LAYOUT_MANAGER (box_layout)); g_object_notify_by_pspec (G_OBJECT (box_layout), box_layout_props[PROP_HOMOGENEOUS]); } /** * gtk_box_layout_get_homogeneous: (attributes org.gtk.Method.get_property=homogeneous) * @box_layout: a `GtkBoxLayout` * * Returns whether the layout is set to be homogeneous. * * Return: %TRUE if the layout is homogeneous */ gboolean gtk_box_layout_get_homogeneous (GtkBoxLayout *box_layout) { g_return_val_if_fail (GTK_IS_BOX_LAYOUT (box_layout), FALSE); return box_layout->homogeneous; } /** * gtk_box_layout_set_spacing: (attributes org.gtk.Method.set_property=spacing) * @box_layout: a `GtkBoxLayout` * @spacing: the spacing to apply between children * * Sets how much spacing to put between children. */ void gtk_box_layout_set_spacing (GtkBoxLayout *box_layout, guint spacing) { g_return_if_fail (GTK_IS_BOX_LAYOUT (box_layout)); if (box_layout->spacing == spacing) return; box_layout->spacing = spacing; gtk_layout_manager_layout_changed (GTK_LAYOUT_MANAGER (box_layout)); g_object_notify_by_pspec (G_OBJECT (box_layout), box_layout_props[PROP_SPACING]); } /** * gtk_box_layout_get_spacing: (attributes org.gtk.Method.get_property=spacing) * @box_layout: a `GtkBoxLayout` * * Returns the space that @box_layout puts between children. * * Returns: the spacing of the layout */ guint gtk_box_layout_get_spacing (GtkBoxLayout *box_layout) { g_return_val_if_fail (GTK_IS_BOX_LAYOUT (box_layout), 0); return box_layout->spacing; } /** * gtk_box_layout_set_baseline_position: (attributes org.gtk.Method.set_property=baseline-position) * @box_layout: a `GtkBoxLayout` * @position: a `GtkBaselinePosition` * * Sets the baseline position of a box layout. * * The baseline position affects only horizontal boxes with at least one * baseline aligned child. If there is more vertical space available than * requested, and the baseline is not allocated by the parent then the * given @position is used to allocate the baseline within the extra * space available. */ void gtk_box_layout_set_baseline_position (GtkBoxLayout *box_layout, GtkBaselinePosition position) { g_return_if_fail (GTK_IS_BOX_LAYOUT (box_layout)); if (box_layout->baseline_position != position) { box_layout->baseline_position = position; g_object_notify_by_pspec (G_OBJECT (box_layout), box_layout_props[PROP_BASELINE_POSITION]); gtk_layout_manager_layout_changed (GTK_LAYOUT_MANAGER (box_layout)); } } /** * gtk_box_layout_get_baseline_position: (attributes org.gtk.Method.get_property=baseline-position) * @box_layout: a `GtkBoxLayout` * * Gets the value set by gtk_box_layout_set_baseline_position(). * * Returns: the baseline position */ GtkBaselinePosition gtk_box_layout_get_baseline_position (GtkBoxLayout *box_layout) { g_return_val_if_fail (GTK_IS_BOX_LAYOUT (box_layout), GTK_BASELINE_POSITION_CENTER); return box_layout->baseline_position; }