/*! \file childrentreestore.cpp
** \brief Template File
**
-** $Id: childrentreestore.cpp,v 1.1.1.1 2005/01/07 03:34:36 darco Exp $
+** $Id$
**
** \legal
** Copyright (c) 2002-2005 Robert B. Quattlebaum Jr., Adrian Bentley
+** Copyright (c) 2007 Chris Moore
**
** This package is free software; you can redistribute it and/or
** modify it under the terms of the GNU General Public License as
#endif
#include "childrentreestore.h"
-#include "iconcontroler.h"
+#include "iconcontroller.h"
#include <gtkmm/button.h>
#include <synfig/paramdesc.h>
#include <ETL/clock>
+#include "general.h"
+
class Profiler : private etl::clock
{
const std::string name;
// Connect all the signals
canvas_interface()->signal_value_node_changed().connect(sigc::mem_fun(*this,&studio::ChildrenTreeStore::on_value_node_changed));
+ canvas_interface()->signal_value_node_renamed().connect(sigc::mem_fun(*this,&studio::ChildrenTreeStore::on_value_node_renamed));
canvas_interface()->signal_value_node_added().connect(sigc::mem_fun(*this,&studio::ChildrenTreeStore::on_value_node_added));
canvas_interface()->signal_value_node_deleted().connect(sigc::mem_fun(*this,&studio::ChildrenTreeStore::on_value_node_deleted));
canvas_interface()->signal_value_node_replaced().connect(sigc::mem_fun(*this,&studio::ChildrenTreeStore::on_value_node_replaced));
canvas_interface()->signal_canvas_added().connect(sigc::mem_fun(*this,&studio::ChildrenTreeStore::on_canvas_added));
canvas_interface()->signal_canvas_removed().connect(sigc::mem_fun(*this,&studio::ChildrenTreeStore::on_canvas_removed));
-
+
rebuild();
}
Gtk::TreeModel::Children children(value_node_row.children());
while(!children.empty())erase(children.begin());
-
+
clear_changed_queue();
-
+
std::for_each(
canvas_interface()->get_canvas()->value_node_list().rbegin(), canvas_interface()->get_canvas()->value_node_list().rend(),
sigc::mem_fun(*this, &studio::ChildrenTreeStore::on_value_node_added)
- );
+ );
}
void
for(iter = children.begin(); iter != children.end(); ++iter)
{
Gtk::TreeRow row=*iter;
- //DEBUGPOINT();
refresh_row(row);
}
}
ChildrenTreeStore::rebuild_canvases()
{
Gtk::TreeModel::Children children(canvas_row.children());
-
+
while(!children.empty())erase(children.begin());
-
+
std::for_each(
canvas_interface()->get_canvas()->children().rbegin(), canvas_interface()->get_canvas()->children().rend(),
sigc::mem_fun(*this, &studio::ChildrenTreeStore::on_canvas_added)
- );
+ );
}
void
}
void
-ChildrenTreeStore::refresh_row(Gtk::TreeModel::Row &row, bool do_children)
+ChildrenTreeStore::refresh_row(Gtk::TreeModel::Row &row, bool /*do_children*/)
{
CanvasTreeStore::refresh_row(row,false);
-
+
if((bool)row[model.is_value_node])
{
changed_set_.erase(row[model.value_node]);
}
void
-ChildrenTreeStore::on_canvas_added(Canvas::Handle canvas)
+ChildrenTreeStore::on_canvas_added(synfig::Canvas::Handle canvas)
{
Gtk::TreeRow row = *(prepend(canvas_row.children()));
- row[model.icon] = Gtk::Button().render_icon(Gtk::StockID("synfig-canvas"),Gtk::ICON_SIZE_SMALL_TOOLBAR);
+ row[model.icon] = Gtk::Button().render_icon(Gtk::StockID("synfig-canvas"),Gtk::ICON_SIZE_SMALL_TOOLBAR);
row[model.id] = canvas->get_id();
row[model.name] = canvas->get_name();
-
+
if(!canvas->get_id().empty())
row[model.label] = canvas->get_id();
else
if(!canvas->get_name().empty())
- row[model.label] = canvas->get_name();
+ row[model.label] = canvas->get_name();
else
- row[model.label] = _("[Unnamed]");
-
+ row[model.label] = _("[Unnamed]");
+
row[model.canvas] = canvas;
row[model.type] = _("Canvas");
//row[model.is_canvas] = true;
}
void
-ChildrenTreeStore::on_canvas_removed(Canvas::Handle canvas)
+ChildrenTreeStore::on_canvas_removed(synfig::Canvas::Handle /*canvas*/)
{
rebuild_canvases();
}
void
-ChildrenTreeStore::on_value_node_added(ValueNode::Handle value_node)
+ChildrenTreeStore::on_value_node_added(synfig::ValueNode::Handle value_node)
{
// if(value_node->get_id().find("Unnamed")!=String::npos)
// return;
Gtk::TreeRow row = *prepend(value_node_row.children());
-
+
set_row(row,synfigapp::ValueDesc(canvas_interface()->get_canvas(),value_node->get_id()),false);
}
void
-ChildrenTreeStore::on_value_node_deleted(etl::handle<ValueNode> value_node)
+ChildrenTreeStore::on_value_node_deleted(synfig::ValueNode::Handle value_node)
{
Gtk::TreeIter iter;
- //int i(0);
+ //int i(0);
if(find_first_value_node(value_node,iter))
{
ChildrenTreeStore::execute_changed_value_nodes()
{
Profiler profiler("ChildrenTreeStore::execute_changed_value_nodes()");
- DEBUGPOINT();
if(!replaced_set_.empty())
rebuild_value_nodes();
etl::clock timer;
timer.reset();
-
+
while(!changed_set_.empty())
{
ValueNode::Handle value_node(*changed_set_.begin());
changed_set_.erase(value_node);
Gtk::TreeIter iter;
-
+
try
{
Gtk::TreeIter iter;
- int i(0);
+ int i(0);
if(!value_node->is_exported() && find_first_value_node(value_node,iter))
{
i++;
refresh_row(row);
}while(find_next_value_node(value_node,iter));
-
+
if(!i)
{
refresh_value_nodes();
return false;
}
-
+
}
catch(...)
{
return false;
}
}
-
+
return false;
}
void
-ChildrenTreeStore::on_value_node_changed(etl::handle<ValueNode> value_node)
+ChildrenTreeStore::on_value_node_changed(synfig::ValueNode::Handle value_node)
{
- if(value_node->get_name()=="constant" || !value_node->is_exported())
+ if(!value_node->is_exported())
return;
changed_connection.disconnect();
// if(!execute_changed_queued())
// changed_connection=Glib::signal_idle().connect(sigc::mem_fun(*this,&ChildrenTreeStore::execute_changed_value_nodes));
changed_connection=Glib::signal_timeout().connect(sigc::mem_fun(*this,&ChildrenTreeStore::execute_changed_value_nodes),150);
-
+
changed_set_.insert(value_node);
/*
try
{
Gtk::TreeIter iter;
- int i(0);
+ int i(0);
while(find_next_value_node(value_node,iter))
{
Gtk::TreeRow row(*iter);
}
void
-ChildrenTreeStore::on_value_node_replaced(synfig::ValueNode::Handle replaced_value_node,synfig::ValueNode::Handle new_value_node)
+ChildrenTreeStore::on_value_node_renamed(synfig::ValueNode::Handle value_node)
+{
+ rebuild_value_nodes();
+}
+
+void
+ChildrenTreeStore::on_value_node_replaced(synfig::ValueNode::Handle replaced_value_node,synfig::ValueNode::Handle /*new_value_node*/)
{
changed_connection.disconnect();
//if(!execute_changed_queued())
// changed_connection=Glib::signal_idle().connect(sigc::mem_fun(*this,&ChildrenTreeStore::execute_changed_value_nodes));
changed_connection=Glib::signal_timeout().connect(sigc::mem_fun(*this,&ChildrenTreeStore::execute_changed_value_nodes),150);
-
+
replaced_set_.insert(replaced_value_node);
}
catch(std::exception x)
{
g_warning(x.what());
- }
+ }
}