Only store mapped views in the view stack
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@ -147,15 +147,6 @@ pub fn getRenderer(self: Self) *c.wlr_renderer {
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return c.river_wlr_backend_get_renderer(self.wlr_output.backend);
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}
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/// Add a new view to the output. arrangeViews() will be called by the view
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/// when it is mapped. The surface argument must be a c.wlr_xdg_surface or
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/// c.wlr_xwayland_surface (if xwayland is enabled)
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pub fn addView(self: *Self, surface: var) !void {
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const node = try self.root.server.allocator.create(ViewStack(View).Node);
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node.view.init(self, self.current_focused_tags, surface);
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self.views.push(node);
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}
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/// Add a newly created layer surface to the output.
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pub fn addLayerSurface(self: *Self, wlr_layer_surface: *c.wlr_layer_surface_v1) !void {
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const layer = wlr_layer_surface.client_pending.layer;
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@ -190,7 +190,10 @@ fn handleNewXdgSurface(listener: ?*c.wl_listener, data: ?*c_void) callconv(.C) v
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Log.Debug.log("New xdg_toplevel", .{});
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self.input_manager.default_seat.focused_output.addView(wlr_xdg_surface) catch unreachable;
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// The View will add itself to the output's view stack on map
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const output = self.input_manager.default_seat.focused_output;
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const node = self.allocator.create(ViewStack(View).Node) catch unreachable;
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node.view.init(output, output.current_focused_tags, wlr_xdg_surface);
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}
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/// This event is raised when the layer_shell recieves a new surface from a client.
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@ -261,5 +264,9 @@ fn handleNewXwaylandSurface(listener: ?*c.wl_listener, data: ?*c_void) callconv(
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"New xwayland surface: title '{}', class '{}'",
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.{ wlr_xwayland_surface.title, wlr_xwayland_surface.class },
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);
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self.input_manager.default_seat.focused_output.addView(wlr_xwayland_surface) catch unreachable;
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// The View will add itself to the output's view stack on map
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const output = self.input_manager.default_seat.focused_output;
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const node = self.allocator.create(ViewStack(View).Node) catch unreachable;
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node.view.init(output, output.current_focused_tags, wlr_xwayland_surface);
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}
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17
src/View.zig
17
src/View.zig
@ -105,7 +105,7 @@ pub fn init(
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} else unreachable;
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}
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pub fn deinit(self: *Self) void {
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pub fn deinit(self: Self) void {
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if (self.stashed_buffer) |buffer| {
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c.wlr_buffer_unref(buffer);
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}
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@ -227,6 +227,10 @@ pub fn surfaceAt(self: Self, ox: f64, oy: f64, sx: *f64, sy: *f64) ?*c.wlr_surfa
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pub fn map(self: *Self) void {
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const root = self.output.root;
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// Add the view to the stack of its output
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const node = @fieldParentPtr(ViewStack(Self).Node, "view", self);
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self.output.views.push(node);
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// Focus the newly mapped view. Note: if a seat is focusing a different output
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// it will continue to do so.
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var it = root.server.input_manager.seats.first;
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@ -252,5 +256,16 @@ pub fn unmap(self: *Self) void {
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seat.handleViewUnmap(self);
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}
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// Remove the view from its output's stack
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const node = @fieldParentPtr(ViewStack(Self).Node, "view", self);
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self.output.views.remove(node);
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root.arrange();
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}
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/// Destory the view and free the ViewStack node holding it.
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pub fn destroy(self: *const Self) void {
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self.deinit();
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const node = @fieldParentPtr(ViewStack(Self).Node, "view", self);
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self.output.root.server.allocator.destroy(node);
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}
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@ -110,10 +110,7 @@ fn handleDestroy(listener: ?*c.wl_listener, data: ?*c_void) callconv(.C) void {
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c.wl_list_remove(&self.listen_map.link);
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c.wl_list_remove(&self.listen_unmap.link);
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// Remove the view from the stack
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const node = @fieldParentPtr(ViewStack(View).Node, "view", self.view);
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output.views.remove(node);
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output.root.server.allocator.destroy(node);
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self.view.destroy();
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}
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/// Called when the xdg surface is mapped, or ready to display on-screen.
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@ -108,17 +108,13 @@ pub fn surfaceAt(self: Self, ox: f64, oy: f64, sx: *f64, sy: *f64) ?*c.wlr_surfa
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/// Called when the xwayland surface is destroyed
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fn handleDestroy(listener: ?*c.wl_listener, data: ?*c_void) callconv(.C) void {
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const self = @fieldParentPtr(Self, "listen_destroy", listener.?);
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const output = self.view.output;
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// Remove listeners that are active for the entire lifetime of the view
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c.wl_list_remove(&self.listen_destroy.link);
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c.wl_list_remove(&self.listen_map.link);
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c.wl_list_remove(&self.listen_unmap.link);
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// Remove the view from the stack
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const node = @fieldParentPtr(ViewStack(View).Node, "view", self.view);
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output.views.remove(node);
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output.root.server.allocator.destroy(node);
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self.view.destroy();
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}
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/// Called when the xwayland surface is mapped, or ready to display on-screen.
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@ -92,7 +92,7 @@ pub fn ViewStack(comptime T: type) type {
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/// This function is horribly ugly, but it's well tested below.
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pub fn next(self: *Iterator) ?*Node {
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while (self.it) |node| : (self.it = if (self.reverse) node.prev else node.next) {
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if (node.view.wlr_surface != null and if (self.pending)
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if (if (self.pending)
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if (node.view.pending_tags) |pending_tags|
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self.tags & pending_tags != 0
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else
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@ -109,7 +109,6 @@ pub fn ViewStack(comptime T: type) type {
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/// Returns an iterator starting at the passed node and filtered by
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/// checking the passed tags against the current tags of each view.
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/// Unmapped views are skipped.
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pub fn iterator(start: ?*Node, tags: u32) Iterator {
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return Iterator{
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.it = start,
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@ -121,7 +120,6 @@ pub fn ViewStack(comptime T: type) type {
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/// Returns a reverse iterator starting at the passed node and filtered by
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/// checking the passed tags against the current tags of each view.
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/// Unmapped views are skipped.
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pub fn reverseIterator(start: ?*Node, tags: u32) Iterator {
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return Iterator{
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.it = start,
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@ -133,8 +131,7 @@ pub fn ViewStack(comptime T: type) type {
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/// Returns an iterator starting at the passed node and filtered by
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/// checking the passed tags against the pending tags of each view.
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/// If a view has no pending tags, the current tags are used. Unmapped
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/// views are skipped.
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/// If a view has no pending tags, the current tags are used.
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pub fn pendingIterator(start: ?*Node, tags: u32) Iterator {
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return Iterator{
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.it = start,
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@ -285,51 +282,36 @@ test "iteration (View)" {
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var views: ViewStack(View) = undefined;
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views.init();
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// Pretty nice hack for testing: we don't actually need a wlr_surface here,
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// but we need the iteration function to thing that the view has a non-null
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// wlr_surface. So, just cast an integer to a pointer to get an arbitrary
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// but non-null value. Use 8 so the alignment checks out.
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const one_a_pb = try allocator.create(ViewStack(View).Node);
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defer allocator.destroy(one_a_pb);
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one_a_pb.view.wlr_surface = @intToPtr(*c.wlr_surface, 8);
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one_a_pb.view.current_tags = 1 << 0;
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one_a_pb.view.pending_tags = 1 << 1;
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const two_a = try allocator.create(ViewStack(View).Node);
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defer allocator.destroy(two_a);
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two_a.view.wlr_surface = @intToPtr(*c.wlr_surface, 8);
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two_a.view.current_tags = 1 << 0;
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two_a.view.pending_tags = null;
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const three_b_pa = try allocator.create(ViewStack(View).Node);
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defer allocator.destroy(three_b_pa);
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three_b_pa.view.wlr_surface = @intToPtr(*c.wlr_surface, 8);
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three_b_pa.view.current_tags = 1 << 1;
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three_b_pa.view.pending_tags = 1 << 0;
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const four_b = try allocator.create(ViewStack(View).Node);
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defer allocator.destroy(four_b);
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four_b.view.wlr_surface = @intToPtr(*c.wlr_surface, 8);
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four_b.view.current_tags = 1 << 1;
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four_b.view.pending_tags = null;
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const five_b = try allocator.create(ViewStack(View).Node);
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defer allocator.destroy(five_b);
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five_b.view.wlr_surface = @intToPtr(*c.wlr_surface, 8);
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five_b.view.current_tags = 1 << 1;
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five_b.view.pending_tags = null;
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const unmapped_1 = try allocator.create(ViewStack(View).Node);
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defer allocator.destroy(unmapped_1);
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unmapped_1.view.wlr_surface = null;
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views.push(three_b_pa); // {3}
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views.push(one_a_pb); // {1, 3}
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views.push(unmapped_1); // {u, 1, 3}
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views.push(four_b); // {4, u, 1, 3}
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views.push(five_b); // {5, 4, u, 1, 3}
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views.push(two_a); // {2, 5, 4, u, 1, 3}
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views.push(four_b); // {4, 1, 3}
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views.push(five_b); // {5, 4, 1, 3}
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views.push(two_a); // {2, 5, 4, 1, 3}
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// Iteration over all tags
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{
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