-/* === S I N F G =========================================================== */
+/* === S Y N F I G ========================================================= */
/*! \file canvas.cpp
** \brief Canvas Class Member Definitions
**
-** $Id: canvas.cpp,v 1.1.1.1 2005/01/04 01:23:14 darco Exp $
+** $Id$
**
** \legal
-** Copyright (c) 2002 Robert B. Quattlebaum Jr.
+** Copyright (c) 2002-2005 Robert B. Quattlebaum Jr., Adrian Bentley
**
-** This software and associated documentation
-** are CONFIDENTIAL and PROPRIETARY property of
-** the above-mentioned copyright holder.
+** This package is free software; you can redistribute it and/or
+** modify it under the terms of the GNU General Public License as
+** published by the Free Software Foundation; either version 2 of
+** the License, or (at your option) any later version.
**
-** You may not copy, print, publish, or in any
-** other way distribute this software without
-** a prior written agreement with
-** the copyright holder.
+** This package is distributed in the hope that it will be useful,
+** but WITHOUT ANY WARRANTY; without even the implied warranty of
+** MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
+** General Public License for more details.
** \endlegal
*/
/* ========================================================================= */
/* === H E A D E R S ======================================================= */
-#define SINFG_NO_ANGLE
+#define SYNFIG_NO_ANGLE
#ifdef USING_PCH
# include "pch.h"
#endif
-using namespace sinfg;
+using namespace synfig;
using namespace etl;
using namespace std;
-namespace sinfg { extern Canvas::Handle open_canvas(const String &filename); };
+namespace synfig { extern Canvas::Handle open_canvas(const String &filename); };
/* === M A C R O S ========================================================= */
~_CanvasCounter()
{
if(counter)
- sinfg::error("%d canvases not yet deleted!",counter);
+ synfig::error("%d canvases not yet deleted!",counter);
}
} _canvas_counter;
while(!empty())
{
Layer::Handle layer(front());
- //if(layer->count()>2)sinfg::info("before layer->count()=%d",layer->count());
-
+ //if(layer->count()>2)synfig::info("before layer->count()=%d",layer->count());
+
erase(begin());
- //if(layer->count()>1)sinfg::info("after layer->count()=%d",layer->count());
+ //if(layer->count()>1)synfig::info("after layer->count()=%d",layer->count());
}
//CanvasBase::clear();
// would just continue going when polled
// for a color.
CanvasBase::push_back(Layer::Handle());
-
+
changed();
}
{
static const char bad_chars[]=" :#@$^&()*";
unsigned int i;
-
+
if(!x.empty() && x[0]>='0' && x[0]<='9')
return false;
-
+
for(i=0;i<sizeof(bad_chars);i++)
if(x.find_first_of(bad_chars[i])!=string::npos)
return false;
{
if(is_inline() && parent_)
throw runtime_error("Inline Canvas cannot have an ID");
-
+
if(!valid_id(x))
throw runtime_error("Invalid ID");
id_=x;
void
Canvas::set_time(Time t)const
-{
+{
if(is_dirty_ || !get_time().is_equal(t))
- {
+ {
#if 0
if(is_root())
{
- sinfg::info("is_dirty_=%d",is_dirty_);
- sinfg::info("get_time()=%f",(float)get_time());
- sinfg::info("t=%f",(float)t);
+ synfig::info("is_dirty_=%d",is_dirty_);
+ synfig::info("get_time()=%f",(float)get_time());
+ synfig::info("t=%f",(float)t);
}
#endif
// ...questionable
const_cast<Canvas&>(*this).cur_time_=t;
-
+
is_dirty_=false;
get_context().set_time(t);
}
Canvas::LooseHandle
Canvas::get_root()const
{
- return parent_?parent_->get_root().get():const_cast<sinfg::Canvas *>(this);
+ return parent_?parent_->get_root().get():const_cast<synfig::Canvas *>(this);
}
int
if(x.get()==this)
return String();
-
+
if(parent()==x.get())
return get_id();
-
+
String id;
-
+
const Canvas* canvas=this;
-
+
for(;!canvas->is_root();canvas=canvas->parent().get())
id=':'+canvas->get_id()+id;
-
+
if(x && get_root()!=x->get_root())
{
//String file_name=get_file_name();
//String file_path=x->get_file_path();
-
+
String file_name;
if(is_absolute_path(get_file_name()))
file_name=etl::relative_path(x->get_file_path(),get_file_name());
else
file_name=get_file_name();
-
+
// If the path of X is inside of file_name,
// then remove it.
//if(file_name.size()>file_path.size())
// if(file_path==String(file_name,0,file_path.size()))
// file_name.erase(0,file_path.size()+1);
-
+
id=file_name+'#'+id;
}
{
if(is_inline() && parent_)
return parent_->find_value_node(id);
-
+
if(id.empty())
throw Exception::IDNotFound("Empty ID");
String value_node_id(id,id.rfind(':')+1);
if(canvas_id.empty())
canvas_id=':';
- //sinfg::warning("constfind:value_node_id: "+value_node_id);
- //sinfg::warning("constfind:canvas_id: "+canvas_id);
+ //synfig::warning("constfind:value_node_id: "+value_node_id);
+ //synfig::warning("constfind:canvas_id: "+canvas_id);
return find_canvas(canvas_id)->value_node_list_.find(value_node_id);
}
String value_node_id(id,id.rfind(':')+1);
if(canvas_id.empty())
canvas_id=':';
-
+
return surefind_canvas(canvas_id)->value_node_list_.surefind(value_node_id);
}
if(id.find_first_of(':',0)!=string::npos)
throw Exception::BadLinkName("Bad character");
-
+
try
{
//DEBUGPOINT();
if(PlaceholderValueNode::Handle::cast_dynamic(value_node_list_.find(id)))
throw Exception::IDNotFound("add_value_node()");
-
+
//DEBUGPOINT();
throw Exception::IDAlreadyExists(id);
}
{
//DEBUGPOINT();
x->set_id(id);
-
+
x->set_parent_canvas(this);
-
+
if(!value_node_list_.add(x))
{
- sinfg::error("Unable to add ValueNode");
+ synfig::error("Unable to add ValueNode");
throw std::runtime_error("Unable to add ValueNode");
}
//DEBUGPOINT();
-
+
return;
}
}
}
catch(Exception::IDNotFound)
{
- x->set_id(id);
+ x->set_id(id);
return;
}
if(is_inline() && parent_)
return parent_->remove_value_node(x);
// throw Exception::IDNotFound("Canvas::remove_value_node() was called from an inline canvas");
-
+
if(!x)
throw Exception::IDNotFound("Canvas::remove_value_node() was passed empty handle");
-
+
if(!value_node_list_.erase(x))
throw Exception::IDNotFound("Canvas::remove_value_node(): ValueNode was not found inside of this canvas");
//x->set_parent_canvas(0);
-
+
x->set_id("");
}
{
if(is_inline() && parent_)
return parent_->surefind_canvas(id);
-
+
if(id.empty())
return this;
-
+
// If the ID contains a "#" character, then a filename is
- // expected on the left side.
+ // expected on the left side.
if(id.find_first_of('#')!=string::npos)
{
// If '#' is the first character, remove it
// and attempt to parse the ID again.
if(id[0]=='#')
return surefind_canvas(String(id,1));
-
- //! \todo This needs alot more optimization
+
+ //! \todo This needs a lot more optimization
String file_name(id,0,id.find_first_of('#'));
String external_id(id,id.find_first_of('#')+1);
-
+
+ file_name=unix_to_local_path(file_name);
+
Canvas::Handle external_canvas;
-
+
// If the composition is already open, then use it.
if(externals_.count(file_name))
external_canvas=externals_[file_name];
if(is_absolute_path(file_name))
external_canvas=open_canvas(file_name);
else
- external_canvas=open_canvas(get_file_path()+'/'+file_name);
+ external_canvas=open_canvas(get_file_path()+ETL_DIRECTORY_SEPERATOR+file_name);
if(!external_canvas)
throw Exception::FileNotFound(file_name);
externals_[file_name]=external_canvas;
}
-
+
return Handle::cast_const(external_canvas.constant()->find_canvas(external_id));
}
-
+
// If we do not have any resolution, then we assume that the
// request is for this immediate canvas
if(id.find_first_of(':')==string::npos)
{
Children::iterator iter;
-
+
// Search for the image in the image list,
// and return it if it is found
for(iter=children().begin();iter!=children().end();iter++)
if(id==(*iter)->get_id())
return *iter;
-
+
// Create a new canvas and return it
- //sinfg::warning("Implicitly creating canvas named "+id);
+ //synfig::warning("Implicitly creating canvas named "+id);
return new_child_canvas(id);
}
-
- // If the first character is the seperator, then
+
+ // If the first character is the seperator, then
// this references the root canvas.
if(id[0]==':')
return get_root()->surefind_canvas(string(id,1));
// Now we know that the requested Canvas is in a child
- // of this canvas. We have to find that canvas and
+ // of this canvas. We have to find that canvas and
// call "find_canvas" on it, and return the result.
-
+
String canvas_name=string(id,0,id.find_first_of(':'));
-
+
Canvas::Handle child_canvas=surefind_canvas(canvas_name);
return child_canvas->surefind_canvas(string(id,id.find_first_of(':')+1));
return this;
// If the ID contains a "#" character, then a filename is
- // expected on the left side.
+ // expected on the left side.
if(id.find_first_of('#')!=string::npos)
{
// If '#' is the first character, remove it
// and attempt to parse the ID again.
if(id[0]=='#')
return find_canvas(String(id,1));
-
- //! \todo This needs alot more optimization
+
+ //! \todo This needs a lot more optimization
String file_name(id,0,id.find_first_of('#'));
String external_id(id,id.find_first_of('#')+1);
-
+
+ file_name=unix_to_local_path(file_name);
+
Canvas::Handle external_canvas;
-
+
// If the composition is already open, then use it.
if(externals_.count(file_name))
external_canvas=externals_[file_name];
if(is_absolute_path(file_name))
external_canvas=open_canvas(file_name);
else
- external_canvas=open_canvas(get_file_path()+'/'+file_name);
+ external_canvas=open_canvas(get_file_path()+ETL_DIRECTORY_SEPERATOR+file_name);
if(!external_canvas)
throw Exception::FileNotFound(file_name);
externals_[file_name]=external_canvas;
}
-
+
return Handle::cast_const(external_canvas.constant()->find_canvas(external_id));
}
-
+
// If we do not have any resolution, then we assume that the
// request is for this immediate canvas
if(id.find_first_of(':')==string::npos)
{
Children::const_iterator iter;
-
+
// Search for the image in the image list,
// and return it if it is found
for(iter=children().begin();iter!=children().end();iter++)
if(id==(*iter)->get_id())
return *iter;
-
+
throw Exception::IDNotFound("Child Canvas in Parent Canvas: (child)"+id);
}
-
- // If the first character is the seperator, then
+
+ // If the first character is the seperator, then
// this references the root canvas.
if(id.find_first_of(':')==0)
return get_root()->find_canvas(string(id,1));
// Now we know that the requested Canvas is in a child
- // of this canvas. We have to find that canvas and
+ // of this canvas. We have to find that canvas and
// call "find_canvas" on it, and return the result.
-
+
String canvas_name=string(id,0,id.find_first_of(':'));
-
+
Canvas::ConstHandle child_canvas=find_canvas(canvas_name);
return child_canvas->find_canvas(string(id,id.find_first_of(':')+1));
// DEBUGPOINT();
// int i(x->count());
insert(end(),x);
- //if(x->count()!=i+1)sinfg::info("push_back before %d, after %d",i,x->count());
+ //if(x->count()!=i+1)synfig::info("push_back before %d, after %d",i,x->count());
}
void
// DEBUGPOINT();
// int i(x->count());
insert(begin(),x);
- //if(x->count()!=i+1)sinfg::error("push_front before %d, after %d",i,x->count());
+ //if(x->count()!=i+1)synfig::error("push_front before %d, after %d",i,x->count());
}
void
/*if(x->count()!=i+1)
{
- sinfg::error(__FILE__":%d: Canvas::insert(): ***FAILURE*** before %d, after %d",__LINE__,i,x->count());
+ synfig::error(__FILE__":%d: Canvas::insert(): ***FAILURE*** before %d, after %d",__LINE__,i,x->count());
return;
//throw runtime_error("Canvas Insertion Failed");
}*/
add_child(x.get());
-
+
LooseHandle correct_canvas(this);
//while(correct_canvas->is_inline())correct_canvas=correct_canvas->parent();
Layer::LooseHandle loose_layer(x);
-
+
x->signal_added_to_group().connect(
sigc::bind(
sigc::mem_fun(
{
if(!(*iter)->get_group().empty())
remove_group_pair((*iter)->get_group(),(*iter));
-
+
// HACK: We really shouldn't be wiping
// out these signals entirely. We should
// only be removing the specific connections
(*iter)->signal_removed_from_group().clear();
if(!op_flag_)remove_child(iter->get());
-
+
CanvasBase::erase(iter);
if(!op_flag_)changed();
}
Canvas::Handle
Canvas::clone(const GUID& deriv_guid)const
{
- sinfg::String name;
+ synfig::String name;
if(is_inline())
name="inline";
else
{
name=get_id()+"_CLONE";
-
+
throw runtime_error("Cloning of non-inline canvases is not yet suported");
}
-
+
Handle canvas(new Canvas(name));
-
+
if(is_inline())
{
canvas->is_inline_=true;
canvas->push_back(layer);
if(!(layer.count()>1))
{
- sinfg::error("Canvas::clone(): Cloned layer insertion failure!");
- sinfg::error("Canvas::clone(): \tlayer.count()=%d",layer.count());
- sinfg::error("Canvas::clone(): \tlayer->get_name()=%s",layer->get_name().c_str());
- sinfg::error("Canvas::clone(): \tbefore size()=%d",presize);
- sinfg::error("Canvas::clone(): \tafter size()=%d",size());
+ synfig::error("Canvas::clone(): Cloned layer insertion failure!");
+ synfig::error("Canvas::clone(): \tlayer.count()=%d",layer.count());
+ synfig::error("Canvas::clone(): \tlayer->get_name()=%s",layer->get_name().c_str());
+ synfig::error("Canvas::clone(): \tbefore size()=%d",presize);
+ synfig::error("Canvas::clone(): \tafter size()=%d",size());
}
assert(layer.count()>1);
}
else
{
- sinfg::error("Unable to clone layer");
+ synfig::error("Unable to clone layer");
}
}
{
if(is_inline_ && parent_)
{
-
+
}
-
+
id_="inline";
is_inline_=true;
parent_=parent;
{
parent->group_db_[iter->first].insert(iter->second.begin(),iter->second.end());
}
-
+
rend_desc()=parent->rend_desc();
}
assert(parent);
//if(parent->is_inline())
// return create_inline(parent->parent());
-
+
Handle canvas(new Canvas("inline"));
canvas->set_inline(parent);
return canvas;
// Create a new canvas
children().push_back(create());
Canvas::Handle canvas(children().back());
-
+
canvas->set_id(id);
canvas->parent_=this;
canvas->rend_desc()=rend_desc();
}
Canvas::Handle
-Canvas::add_child_canvas(Canvas::Handle child_canvas, const sinfg::String& id)
+Canvas::add_child_canvas(Canvas::Handle child_canvas, const synfig::String& id)
{
if(is_inline() && parent_)
return parent_->add_child_canvas(child_canvas,id);
if(child_canvas->parent() && !child_canvas->is_inline())
throw std::runtime_error("Cannot add child canvas because it belongs to someone else!");
-
+
if(!valid_id(id))
throw runtime_error("Invalid ID");
-
+
try
{
find_canvas(id);
children().push_back(child_canvas);
child_canvas->parent_=this;
}
-
+
return child_canvas;
}
{
if(is_inline() && parent_)
return parent_->remove_child_canvas(child_canvas);
-
+
if(child_canvas->parent_!=this)
throw runtime_error("Given child does not belong to me");
-
+
if(find(children().begin(),children().end(),child_canvas)==children().end())
throw Exception::IDNotFound(child_canvas->get_id());
-
+
children().remove(child_canvas);
child_canvas->parent_=0;
return dirname(file_name_);
}
-
+
String
Canvas::get_meta_data(const String& key)const
{
for(iter=meta_data_.begin();!(iter==meta_data_.end());++iter)
ret.push_back(iter->first);
-
+
return ret;
}
void
-sinfg::optimize_layers(Context context, Canvas::Handle op_canvas)
+synfig::optimize_layers(Context context, Canvas::Handle op_canvas)
{
Context iter;
std::vector< std::pair<float,Layer::Handle> > sort_list;
int i;
-
+
// Go ahead and start romping through the canvas to paste
for(iter=context,i=0;*iter;iter++,i++)
{
Layer::Handle layer=*iter;
float z_depth(layer->get_z_depth()*1.0001+i);
-
+
// If the layer isn't active, don't worry about it
if(!layer->active())
continue;
if(layer->get_name()=="PasteCanvas" && paste_canvas->get_time_offset()==0)
{
Canvas::Handle sub_canvas(Canvas::create_inline(op_canvas));
- optimize_layers(paste_canvas->get_sub_canvas()->get_context(),sub_canvas);
-//#define SINFG_OPTIMIZE_PASTE_CANVAS 1
+ Canvas::Handle paste_sub_canvas = paste_canvas->get_sub_canvas();
+ if(paste_sub_canvas)
+ optimize_layers(paste_sub_canvas->get_context(),sub_canvas);
+//#define SYNFIG_OPTIMIZE_PASTE_CANVAS 1
-#ifdef SINFG_OPTIMIZE_PASTE_CANVAS
+#ifdef SYNFIG_OPTIMIZE_PASTE_CANVAS
Canvas::iterator sub_iter;
// Determine if we can just remove the paste canvas
- // altogether
+ // altogether
if(paste_canvas->get_blend_method()==Color::BLEND_COMPOSITE && paste_canvas->get_amount()==1.0f && paste_canvas->get_zoom()==0 && paste_canvas->get_time_offset()==0 && paste_canvas->get_origin()==Point(0,0))
try{
for(sub_iter=sub_canvas->begin();sub_iter!=sub_canvas->end();++sub_iter)
{
Layer* layer=sub_iter->get();
-
+
// any layers that deform end up breaking things
// so do things the old way if we run into anything like this
if(!dynamic_cast<Layer_NoDeform*>(layer))
if(value.get_type()!=ValueBase::TYPE_INTEGER || value.get(int())!=(int)Color::BLEND_COMPOSITE)
throw int();
}
-
+
// It has turned out that we don't need a paste canvas
// layer, so just go ahead and add all the layers onto
// the current stack and be done with it
dynamic_cast<Layer_PasteCanvas*>(new_layer.get())->set_do_not_muck_with_time(false);
layer=new_layer;
}
-
+
sort_list.push_back(std::pair<float,Layer::Handle>(z_depth,layer));
- //op_canvas->push_back_simple(layer);
+ //op_canvas->push_back_simple(layer);
}
-
+
//sort_list.sort();
stable_sort(sort_list.begin(),sort_list.end());
std::vector< std::pair<float,Layer::Handle> >::iterator iter2;
{
const_iterator i = begin(),
iend = end();
-
+
for(; i != iend; ++i)
{
const Node::time_set &tset = (*i)->get_times();
return group_db_.size();
}
-
+
void
Canvas::add_group_pair(String group, etl::handle<Layer> layer)
{
signal_group_added()(group);
else
signal_group_changed()(group);
-
+
signal_group_pair_added()(group,layer);
if(is_inline() && parent_)
{
if(is_inline() && parent_)
return parent_->rename_group(old_name,new_name);
-
+
{
std::map<String,std::set<etl::handle<Layer> > >::iterator iter;
iter=group_db_.find(old_name);
rename_group(iter->first,name);
}
}
-
+
std::set<etl::handle<Layer> > layers(get_layers_in_group(old_name));
std::set<etl::handle<Layer> >::iterator iter;
-
+
for(iter=layers.begin();iter!=layers.end();++iter)
{
(*iter)->remove_from_group(old_name);