/* === S Y N F I G ========================================================= */
/*! \file savecanvas.cpp
** \brief Writeme
**
** $Id$
**
** \legal
** Copyright (c) 2002-2005 Robert B. Quattlebaum Jr., Adrian Bentley
** Copyright (c) 2007, 2008 Chris Moore
** Copyright (c) 2011, 2012 Carlos López
**
** 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.
**
** 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 ======================================================= */
#ifdef USING_PCH
# include "pch.h"
#else
#ifdef HAVE_CONFIG_H
# include <config.h>
#endif
#include "savecanvas.h"
#include "general.h"
#include <synfig/localization.h>
#include "valuenode.h"
#include "valuenode_registry.h"
#include "valuenodes/valuenode_animated.h"
#include "valuenodes/valuenode_const.h"
#include "valuenodes/valuenode_linear.h"
#include "valuenodes/valuenode_staticlist.h"
#include "valuenodes/valuenode_dynamiclist.h"
#include "valuenodes/valuenode_reference.h"
#include "valuenodes/valuenode_subtract.h"
#include "valuenodes/valuenode_bline.h"
#include "valuenodes/valuenode_bone.h"
#include "valuenodes/valuenode_wplist.h"
#include "valuenodes/valuenode_dilist.h"
#include "dashitem.h"
#include "time.h"
#include "keyframe.h"
#include "layer.h"
#include "string.h"
#include "paramdesc.h"
#include "weightedvalue.h"
#include "pair.h"
#include "segment.h"
#include "transformation.h"
#include "zstreambuf.h"
#include "importer.h"
#include "cairoimporter.h"
#include <libxml++/libxml++.h>
#include <ETL/stringf>
#include "gradient.h"
/*extern "C" {
#include <libxml/tree.h>
}*/
#endif
/* === U S I N G =========================================================== */
using namespace std;
using namespace etl;
using namespace synfig;
/* === M A C R O S ========================================================= */
#define COLOR_VALUE_TYPE_FORMAT "%f"
#define VECTOR_VALUE_TYPE_FORMAT "%0.10f"
#define TIME_TYPE_FORMAT "%0.3f"
#define VIEW_BOX_FORMAT "%f %f %f %f"
/* === G L O B A L S ======================================================= */
ReleaseVersion save_canvas_version = ReleaseVersion(RELEASE_VERSION_END-1);
int valuenode_too_new_count;
save_canvas_external_file_callback_t save_canvas_external_file_callback = NULL;
void *save_canvas_external_file_user_data = NULL;
/* === P R O C E D U R E S ================================================= */
xmlpp::Element* encode_canvas(xmlpp::Element* root,Canvas::ConstHandle canvas);
xmlpp::Element* encode_value_node(xmlpp::Element* root,ValueNode::ConstHandle value_node,Canvas::ConstHandle canvas);
xmlpp::Element* encode_value_node_bone(xmlpp::Element* root,ValueNode::ConstHandle value_node,Canvas::ConstHandle canvas);
xmlpp::Element* encode_value_node_bone_id(xmlpp::Element* root,ValueNode::ConstHandle value_node,Canvas::ConstHandle canvas);
xmlpp::Element* encode_keyframe(xmlpp::Element* root,const Keyframe &kf, float fps)
{
root->set_name("keyframe");
root->set_attribute("time",kf.get_time().get_string(fps));
if(!kf.get_description().empty())
root->set_child_text(kf.get_description());
root->set_attribute("active", kf.active()?"true":"false");
return root;
}
xmlpp::Element* encode_interpolation(xmlpp::Element* root,Interpolation value,String attribute)
{
if (value!=INTERPOLATION_UNDEFINED)
{
switch(value)
{
case INTERPOLATION_HALT:
root->set_attribute(attribute,"halt");
break;
case INTERPOLATION_LINEAR:
root->set_attribute(attribute,"linear");
break;
case INTERPOLATION_MANUAL:
root->set_attribute(attribute,"manual");
break;
case INTERPOLATION_CONSTANT:
root->set_attribute(attribute,"constant");
break;
case INTERPOLATION_TCB:
root->set_attribute(attribute,"auto");
break;
case INTERPOLATION_CLAMPED:
root->set_attribute(attribute,"clamped");
break;
default:
error("Unknown waypoint type for \""+attribute+"\" attribute");
}
}
return root;
}
xmlpp::Element* encode_static(xmlpp::Element* root,bool s)
{
if(s)
root->set_attribute("static", s?"true":"false");
return root;
}
xmlpp::Element* encode_real(xmlpp::Element* root,Real v)
{
root->set_name("real");
root->set_attribute("value",strprintf(VECTOR_VALUE_TYPE_FORMAT,v));
return root;
}
xmlpp::Element* encode_time(xmlpp::Element* root,Time t)
{
root->set_name("time");
root->set_attribute("value",t.get_string());
return root;
}
xmlpp::Element* encode_integer(xmlpp::Element* root,int i)
{
root->set_name("integer");
root->set_attribute("value",strprintf("%i",i));
return root;
}
xmlpp::Element* encode_bool(xmlpp::Element* root, bool b)
{
root->set_name("bool");
root->set_attribute("value",b?"true":"false");
return root;
}
xmlpp::Element* encode_string(xmlpp::Element* root,const String &str)
{
root->set_name("string");
root->set_child_text(str);
return root;
}
xmlpp::Element* encode_vector(xmlpp::Element* root,Vector vect)
{
root->set_name("vector");
root->add_child("x")->set_child_text(strprintf(VECTOR_VALUE_TYPE_FORMAT,(float)vect[0]));
root->add_child("y")->set_child_text(strprintf(VECTOR_VALUE_TYPE_FORMAT,(float)vect[1]));
return root;
}
xmlpp::Element* encode_color(xmlpp::Element* root,Color color)
{
root->set_name("color");
root->add_child("r")->set_child_text(strprintf(COLOR_VALUE_TYPE_FORMAT,(float)color.get_r()));
root->add_child("g")->set_child_text(strprintf(COLOR_VALUE_TYPE_FORMAT,(float)color.get_g()));
root->add_child("b")->set_child_text(strprintf(COLOR_VALUE_TYPE_FORMAT,(float)color.get_b()));
root->add_child("a")->set_child_text(strprintf(COLOR_VALUE_TYPE_FORMAT,(float)color.get_a()));
return root;
}
xmlpp::Element* encode_angle(xmlpp::Element* root,Angle theta)
{
root->set_name("angle");
root->set_attribute("value",strprintf("%f",(float)Angle::deg(theta).get()));
return root;
}
xmlpp::Element* encode_segment(xmlpp::Element* root,Segment seg)
{
root->set_name("segment");
encode_vector(root->add_child("p1")->add_child("vector"),seg.p1);
encode_vector(root->add_child("t1")->add_child("vector"),seg.t1);
encode_vector(root->add_child("p2")->add_child("vector"),seg.p2);
encode_vector(root->add_child("t2")->add_child("vector"),seg.t2);
return root;
}
xmlpp::Element* encode_bline_point(xmlpp::Element* root,BLinePoint bline_point)
{
root->set_name(type_bline_point.description.name);
encode_vector(root->add_child("vertex")->add_child("vector"),bline_point.get_vertex());
encode_vector(root->add_child("t1")->add_child("vector"),bline_point.get_tangent1());
if(bline_point.get_split_tangent_both())
encode_vector(root->add_child("t2")->add_child("vector"),bline_point.get_tangent2());
encode_real(root->add_child("width")->add_child("real"),bline_point.get_width());
encode_real(root->add_child("origin")->add_child("real"),bline_point.get_origin());
return root;
}
xmlpp::Element* encode_width_point(xmlpp::Element* root,WidthPoint width_point)
{
root->set_name(type_width_point.description.name);
encode_real(root->add_child("position")->add_child("real"),width_point.get_position());
encode_real(root->add_child("width")->add_child("real"),width_point.get_width());
encode_integer(root->add_child("side_before")->add_child("integer"),width_point.get_side_type_before());
encode_integer(root->add_child("side_after")->add_child("integer"),width_point.get_side_type_after());
return root;
}
xmlpp::Element* encode_dash_item(xmlpp::Element* root, DashItem dash_item)
{
root->set_name(type_dash_item.description.name);
encode_real(root->add_child("offset")->add_child("real"),dash_item.get_offset());
encode_real(root->add_child("length")->add_child("real"),dash_item.get_length());
encode_integer(root->add_child("side_before")->add_child("integer"),dash_item.get_side_type_before());
encode_integer(root->add_child("side_after")->add_child("integer"),dash_item.get_side_type_after());
return root;
}
xmlpp::Element* encode_gradient(xmlpp::Element* root,Gradient x)
{
root->set_name("gradient");
Gradient::const_iterator iter;
x.sort();
for(iter=x.begin();iter!=x.end();iter++)
{
xmlpp::Element *cpoint(encode_color(root->add_child("color"),iter->color));
cpoint->set_attribute("pos",strprintf("%f",iter->pos));
}
return root;
}
xmlpp::Element* encode_value(xmlpp::Element* root,const ValueBase &data,Canvas::ConstHandle canvas=0);
xmlpp::Element* encode_list(xmlpp::Element* root,std::vector<ValueBase> list, Canvas::ConstHandle canvas=0)
{
root->set_name("list");
while(!list.empty())
{
encode_value(root->add_child("value"),list.front(),canvas);
list.erase(list.begin());
}
return root;
}
xmlpp::Element* encode_transformation(xmlpp::Element* root,const Transformation &transformation)
{
root->set_name("transformation");
encode_vector(root->add_child("offset")->add_child("vector"),transformation.offset);
encode_angle(root->add_child("angle")->add_child("angle"),transformation.angle);
encode_angle(root->add_child("skew_angle")->add_child("angle"),transformation.skew_angle);
encode_vector(root->add_child("scale")->add_child("vector"),transformation.scale);
return root;
}
xmlpp::Element* encode_weighted_value(xmlpp::Element* root,types_namespace::TypeWeightedValueBase &type, const ValueBase &data,Canvas::ConstHandle canvas)
{
root->set_name(type.description.name);
encode_real(root->add_child("weight")->add_child("real"), type.extract_weight(data));
encode_value(root->add_child("value")->add_child("value"), type.extract_value(data), canvas);
return root;
}
xmlpp::Element* encode_pair(xmlpp::Element* root,types_namespace::TypePairBase &type, const ValueBase &data,Canvas::ConstHandle canvas)
{
root->set_name(type.description.name);
encode_value(root->add_child("first")->add_child("value"), type.extract_first(data), canvas);
encode_value(root->add_child("second")->add_child("value"), type.extract_second(data), canvas);
return root;
}
xmlpp::Element* encode_value(xmlpp::Element* root,const ValueBase &data,Canvas::ConstHandle canvas)
{
if (getenv("SYNFIG_DEBUG_SAVE_CANVAS")) printf("%s:%d encode_value (type %s)\n", __FILE__, __LINE__, data.get_type().description.name.c_str());
Type &type(data.get_type());
if (type == type_real)
{
encode_real(root,data.get(Real()));
encode_static(root, data.get_static());
encode_interpolation(root, data.get_interpolation(), "interpolation");
return root;
}
if (type == type_time)
{
encode_time(root,data.get(Time()));
encode_static(root, data.get_static());
encode_interpolation(root, data.get_interpolation(), "interpolation");
return root;
}
if (type == type_integer)
{
encode_integer(root,data.get(int()));
encode_static(root, data.get_static());
encode_interpolation(root, data.get_interpolation(), "interpolation");
return root;
}
if (type == type_color)
{
encode_color(root,data.get(Color()));
encode_static(root, data.get_static());
encode_interpolation(root, data.get_interpolation(), "interpolation");
return root;
}
if (type == type_vector)
{
encode_vector(root,data.get(Vector()));
encode_static(root, data.get_static());
encode_interpolation(root, data.get_interpolation(), "interpolation");
return root;
}
if (type == type_angle)
{
encode_angle(root,data.get(Angle()));
encode_static(root, data.get_static());
encode_interpolation(root, data.get_interpolation(), "interpolation");
return root;
}
if (type == type_bool)
{
encode_bool(root,data.get(bool()));
encode_static(root, data.get_static());
encode_interpolation(root, data.get_interpolation(), "interpolation");
return root;
}
if (type == type_string)
{
encode_string(root,data.get(String()));
encode_static(root, data.get_static());
encode_interpolation(root, data.get_interpolation(), "interpolation");
return root;
}
if (type == type_segment)
{
encode_segment(root,data.get(Segment()));
encode_static(root, data.get_static());
encode_interpolation(root, data.get_interpolation(), "interpolation");
return root;
}
if (type == type_bline_point)
return encode_bline_point(root,data.get(BLinePoint()));
if (type == type_width_point)
return encode_width_point(root,data.get(WidthPoint()));
if (type == type_dash_item)
return encode_dash_item(root,data.get(DashItem()));
if (type == type_gradient)
{
encode_gradient(root,data.get(Gradient()));
encode_static(root, data.get_static());
encode_interpolation(root, data.get_interpolation(), "interpolation");
return root;
}
if (type == type_transformation)
{
encode_transformation(root,data.get(Transformation()));
encode_static(root, data.get_static());
encode_interpolation(root, data.get_interpolation(), "interpolation");
return root;
}
if (type == type_list)
return encode_list(root,data.get_list(),canvas);
if (type == type_canvas)
{
return encode_canvas(root,data.get(Canvas::Handle()).get());
//encode_static(root, data.get_static());
}
if (type == type_bone_valuenode)
{
if (!canvas)
{
printf("%s:%d ------------------------------------------------------------------------\n", __FILE__, __LINE__);
printf("%s:%d zero canvas - please fix - report\n", __FILE__, __LINE__);
printf("%s:%d ------------------------------------------------------------------------\n", __FILE__, __LINE__);
}
root = encode_value_node_bone_id(root,data.get(ValueNode_Bone::Handle()).get(),canvas);
root->set_name("bone_valuenode");
return root;
}
if (dynamic_cast<types_namespace::TypeWeightedValueBase*>(&type) != NULL)
{
encode_weighted_value(root, *dynamic_cast<types_namespace::TypeWeightedValueBase*>(&type), data, canvas);
encode_static(root, data.get_static());
encode_interpolation(root, data.get_interpolation(), "interpolation");
return root;
}
if (dynamic_cast<types_namespace::TypePairBase*>(&type) != NULL)
{
encode_pair(root, *dynamic_cast<types_namespace::TypePairBase*>(&type), data, canvas);
encode_static(root, data.get_static());
encode_interpolation(root, data.get_interpolation(), "interpolation");
return root;
}
if (type == type_nil)
{
synfig::error("Encountered NIL ValueBase");
root->set_name("nil");
return root;
}
synfig::error(strprintf(_("Unknown value(%s), cannot create XML representation!"), data.get_type().description.local_name.c_str()));
root->set_name("nil");
return root;
}
xmlpp::Element* encode_animated(xmlpp::Element* root,ValueNode_Animated::ConstHandle value_node,Canvas::ConstHandle canvas=0)
{
assert(value_node);
root->set_name("animated");
root->set_attribute("type",value_node->get_type().description.name);
const ValueNode_Animated::WaypointList &waypoint_list=value_node->waypoint_list();
ValueNode_Animated::WaypointList::const_iterator iter;
encode_interpolation(root, value_node->get_interpolation(), "interpolation");
for(iter=waypoint_list.begin();iter!=waypoint_list.end();++iter)
{
xmlpp::Element *waypoint_node=root->add_child("waypoint");
waypoint_node->set_attribute("time",iter->get_time().get_string());
if(iter->get_value_node()->is_exported())
waypoint_node->set_attribute("use",iter->get_value_node()->get_relative_id(canvas));
else {
ValueNode::ConstHandle value_node = iter->get_value_node();
if(ValueNode_Const::ConstHandle::cast_dynamic(value_node))
{
const ValueBase data = ValueNode_Const::ConstHandle::cast_dynamic(value_node)->get_value();
if (data.get_type() == type_canvas)
waypoint_node->set_attribute("use",data.get(Canvas::Handle()).get()->get_relative_id(canvas));
else
encode_value_node(waypoint_node->add_child("value_node"),iter->get_value_node(),canvas);
}
else
encode_value_node(waypoint_node->add_child("value_node"),iter->get_value_node(),canvas);
}
if (iter->get_before()!=INTERPOLATION_UNDEFINED)
encode_interpolation(waypoint_node,iter->get_before(),"before");
else
error("Unknown waypoint type for \"before\" attribute");
if (iter->get_after()!=INTERPOLATION_UNDEFINED)
encode_interpolation(waypoint_node,iter->get_after(),"after");
else
error("Unknown waypoint type for \"after\" attribute");
if(iter->get_tension()!=0.0)
waypoint_node->set_attribute("tension",strprintf("%f",iter->get_tension()));
if(iter->get_temporal_tension()!=0.0)
waypoint_node->set_attribute("temporal-tension",strprintf("%f",iter->get_temporal_tension()));
if(iter->get_continuity()!=0.0)
waypoint_node->set_attribute("continuity",strprintf("%f",iter->get_continuity()));
if(iter->get_bias()!=0.0)
waypoint_node->set_attribute("bias",strprintf("%f",iter->get_bias()));
}
return root;
}
xmlpp::Element* encode_subtract(xmlpp::Element* root,ValueNode_Subtract::ConstHandle value_node,Canvas::ConstHandle canvas=0)
{
assert(value_node);
root->set_name("subtract");
ValueNode::ConstHandle lhs=value_node->get_lhs();
ValueNode::ConstHandle rhs=value_node->get_rhs();
ValueNode::ConstHandle scalar=value_node->get_scalar();
assert(lhs);
assert(rhs);
root->set_attribute("type",value_node->get_type().description.name);
if(lhs==rhs)
warning("LHS is equal to RHS, this <subtract> will always be zero!");
//if(value_node->get_scalar()!=1)
// root->set_attribute("scalar",strprintf(VECTOR_VALUE_TYPE_FORMAT,value_node->get_scalar()));
if(!scalar->get_id().empty())
root->set_attribute("scalar",scalar->get_relative_id(canvas));
else
encode_value_node(root->add_child("scalar")->add_child("value_node"),scalar,canvas);
if(!lhs->get_id().empty())
root->set_attribute("lhs",lhs->get_relative_id(canvas));
else
encode_value_node(root->add_child("lhs")->add_child("value_node"),lhs,canvas);
if(!rhs->get_id().empty())
root->set_attribute("rhs",rhs->get_relative_id(canvas));
else
encode_value_node(root->add_child("rhs")->add_child("value_node"),rhs,canvas);
return root;
}
xmlpp::Element* encode_static_list(xmlpp::Element* root,ValueNode_StaticList::ConstHandle value_node,Canvas::ConstHandle canvas=0)
{
if (getenv("SYNFIG_DEBUG_SAVE_CANVAS")) printf("%s:%d encode_static_list %s\n", __FILE__, __LINE__, value_node->get_string().c_str());
assert(value_node);
root->set_name(value_node->get_name());
root->set_attribute("type",value_node->get_contained_type().description.name);
vector<ValueNode::RHandle>::const_iterator iter;
for(iter=value_node->list.begin();iter!=value_node->list.end();++iter)
{
xmlpp::Element *entry_node=root->add_child("entry");
assert(*iter);
if(!(*iter)->get_id().empty())
entry_node->set_attribute("use",(*iter)->get_relative_id(canvas));
else
{
if (getenv("SYNFIG_DEBUG_SAVE_CANVAS")) printf("%s:%d encode entry %s\n", __FILE__, __LINE__, (*iter)->get_string().c_str());
encode_value_node(entry_node->add_child("value_node"),*iter,canvas);
}
}
if (getenv("SYNFIG_DEBUG_SAVE_CANVAS")) printf("%s:%d encode_static_list %s done\n", __FILE__, __LINE__, value_node->get_string().c_str());
return root;
}
xmlpp::Element* encode_dynamic_list(xmlpp::Element* root,ValueNode_DynamicList::ConstHandle value_node,Canvas::ConstHandle canvas=0)
{
assert(value_node);
const float fps(canvas?canvas->rend_desc().get_frame_rate():0);
root->set_name(value_node->get_name());
root->set_attribute("type",value_node->get_contained_type().description.name);
vector<ValueNode_DynamicList::ListEntry>::const_iterator iter;
ValueNode_BLine::ConstHandle bline_value_node(ValueNode_BLine::ConstHandle::cast_dynamic(value_node));
ValueNode_WPList::ConstHandle wplist_value_node(ValueNode_WPList::ConstHandle::cast_dynamic(value_node));
ValueNode_DIList::ConstHandle dilist_value_node(ValueNode_DIList::ConstHandle::cast_dynamic(value_node));
if(bline_value_node)
{
if(bline_value_node->get_loop())
root->set_attribute("loop","true");
else
root->set_attribute("loop","false");
}
if(wplist_value_node)
{
if(wplist_value_node->get_loop())
root->set_attribute("loop","true");
else
root->set_attribute("loop","false");
}
if(dilist_value_node)
{
if(dilist_value_node->get_loop())
root->set_attribute("loop","true");
else
root->set_attribute("loop","false");
}
for(iter=value_node->list.begin();iter!=value_node->list.end();++iter)
{
xmlpp::Element *entry_node=root->add_child("entry");
assert(iter->value_node);
if(!iter->value_node->get_id().empty())
entry_node->set_attribute("use",iter->value_node->get_relative_id(canvas));
else
encode_value_node(entry_node->add_child("value_node"),iter->value_node,canvas);
// process waypoints
{
typedef synfig::ValueNode_DynamicList::ListEntry::ActivepointList ActivepointList;
String begin_sequence;
String end_sequence;
const ActivepointList& timing_info(iter->timing_info);
ActivepointList::const_iterator entry_iter;
for(entry_iter=timing_info.begin();entry_iter!=timing_info.end();++entry_iter)
if(entry_iter->state==true)
{
if(entry_iter->priority)
begin_sequence+=strprintf("p%d ",entry_iter->priority);
begin_sequence+=entry_iter->time.get_string(fps)+", ";
}
else
{
if(entry_iter->priority)
end_sequence+=strprintf("p%d ",entry_iter->priority);
end_sequence+=entry_iter->time.get_string(fps)+", ";
}
// If this is just a plane-jane vanilla entry,
// then don't bother with begins and ends
if(end_sequence.empty() && begin_sequence=="SOT, ")
begin_sequence.clear();
if(!begin_sequence.empty())
{
// Remove the last ", " stuff
begin_sequence=String(begin_sequence.begin(),begin_sequence.end()-2);
// Add the attribute
entry_node->set_attribute("on",begin_sequence);
}
if(!end_sequence.empty())
{
// Remove the last ", " stuff
end_sequence=String(end_sequence.begin(),end_sequence.end()-2);
// Add the attribute
entry_node->set_attribute("off",end_sequence);
}
}
}
return root;
}
// Generic linkable data node entry
xmlpp::Element* encode_linkable_value_node(xmlpp::Element* root,LinkableValueNode::ConstHandle value_node,Canvas::ConstHandle canvas=0)
{
if (getenv("SYNFIG_DEBUG_SAVE_CANVAS")) printf("%s:%d encode_linkable_value_node %s\n", __FILE__, __LINE__, value_node->get_string().c_str());
assert(value_node);
String name(value_node->get_name());
ReleaseVersion saving_version(get_file_version());
ReleaseVersion feature_version(ValueNodeRegistry::book()[name].release_version);
if (saving_version < feature_version)
{
valuenode_too_new_count++;
warning("can't save <%s> valuenodes in this old file format version", name.c_str());
ValueBase value((*value_node)(0));
encode_value(root,value,canvas);
return root;
}
root->set_name(name);
root->set_attribute("type",value_node->get_type().description.name);
int i;
synfig::ParamVocab child_vocab(value_node->get_children_vocab());
synfig::ParamVocab::iterator iter(child_vocab.begin());
for(i=0;i<value_node->link_count();i++, iter++)
{
// printf("saving link %d : %s\n", i, value_node->link_local_name(i).c_str());
ValueNode::ConstHandle link=value_node->get_link(i).constant();
if(!link)
throw runtime_error("Bad link");
if(link->is_exported())
root->set_attribute(value_node->link_name(i),link->get_relative_id(canvas));
else if(iter->get_critical())
{
if (name == "bone" && value_node->link_name(i) == "parent")
{
if (getenv("SYNFIG_DEBUG_SAVE_CANVAS")) printf("%s:%d saving bone's parent\n", __FILE__, __LINE__);
}
encode_value_node(root->add_child(value_node->link_name(i))->add_child("value_node"),link,canvas);
}
}
if (getenv("SYNFIG_DEBUG_SAVE_CANVAS")) printf("%s:%d encode_linkable_value_node %s done\n", __FILE__, __LINE__, value_node->get_string().c_str());
return root;
}
xmlpp::Element* encode_value_node(xmlpp::Element* root,ValueNode::ConstHandle value_node,Canvas::ConstHandle canvas)
{
assert(value_node);
if (getenv("SYNFIG_DEBUG_SAVE_CANVAS")) printf("%s:%d encode_value_node %s %s\n", __FILE__, __LINE__, value_node->get_string().c_str(), value_node->get_guid().get_string().c_str());
if(value_node->rcount()>1)
root->set_attribute("guid",(value_node->get_guid()^canvas->get_root()->get_guid()).get_string());
if(ValueNode_Bone::ConstHandle::cast_dynamic(value_node))
{
if (getenv("SYNFIG_DEBUG_SAVE_CANVAS")) printf("%s:%d shortcutting for valuenode_bone\n", __FILE__, __LINE__);
encode_value_node_bone_id(root,ValueNode_Bone::ConstHandle::cast_dynamic(value_node),canvas);
}
else
if(ValueNode_Animated::ConstHandle::cast_dynamic(value_node))
encode_animated(root,ValueNode_Animated::ConstHandle::cast_dynamic(value_node),canvas);
else
if(ValueNode_Subtract::ConstHandle::cast_dynamic(value_node))
encode_subtract(root,ValueNode_Subtract::ConstHandle::cast_dynamic(value_node),canvas);
else
if(ValueNode_StaticList::ConstHandle::cast_dynamic(value_node))
encode_static_list(root,ValueNode_StaticList::ConstHandle::cast_dynamic(value_node),canvas);
else
if(ValueNode_DynamicList::ConstHandle::cast_dynamic(value_node))
{
encode_dynamic_list(root,ValueNode_DynamicList::ConstHandle::cast_dynamic(value_node),canvas);
}
// if it's a ValueNode_Const
else if(ValueNode_Const::ConstHandle::cast_dynamic(value_node))
{
if (getenv("SYNFIG_DEBUG_SAVE_CANVAS")) printf("%s:%d got ValueNode_Const encoding value\n", __FILE__, __LINE__);
// encode its get_value()
encode_value(root,ValueNode_Const::ConstHandle::cast_dynamic(value_node)->get_value(),canvas);
}
else
if(LinkableValueNode::ConstHandle::cast_dynamic(value_node))
encode_linkable_value_node(root,LinkableValueNode::ConstHandle::cast_dynamic(value_node),canvas);
else
{
error(_("Unknown ValueNode Type (%s), cannot create an XML representation"),value_node->get_local_name().c_str());
root->set_name("nil");
}
assert(root);
if(!value_node->get_id().empty())
root->set_attribute("id",value_node->get_id());
// if(ValueNode_Bone::ConstHandle::cast_dynamic(value_node))
// root->set_attribute("guid",value_node->get_guid().get_string());
if (getenv("SYNFIG_DEBUG_SAVE_CANVAS")) printf("%s:%d encode_value_node %s done\n", __FILE__, __LINE__, value_node->get_string().c_str());
return root;
}
xmlpp::Element* encode_value_node_bone(xmlpp::Element* root,ValueNode::ConstHandle value_node,Canvas::ConstHandle canvas)
{
assert(value_node);
if (getenv("SYNFIG_DEBUG_SAVE_CANVAS")) printf("%s:%d encode_value_node_bone %s %s\n", __FILE__, __LINE__, value_node->get_string().c_str(), value_node->get_guid().get_string().c_str());
if(ValueNode_Bone::ConstHandle::cast_dynamic(value_node))
encode_linkable_value_node(root,LinkableValueNode::ConstHandle::cast_dynamic(value_node),canvas);
else
{
error(_("Unknown ValueNode Type (%s), cannot create an XML representation"),value_node->get_local_name().c_str());
assert(0);
root->set_name("nil");
}
assert(root);
if(!value_node->get_id().empty())
root->set_attribute("id",value_node->get_id());
if(ValueNode_Bone::ConstHandle::cast_dynamic(value_node))
root->set_attribute("guid",(value_node->get_guid()^canvas->get_root()->get_guid()).get_string());
if(value_node->rcount()>1)
{
// ~/notes/synfig/crash-when-saving.txt is an example of the execution reaching this line
printf("%s:%d xxx value_node->rcount() = %d\n", __FILE__, __LINE__, value_node->rcount());
root->set_attribute("guid",(value_node->get_guid()^canvas->get_root()->get_guid()).get_string());
}
if (getenv("SYNFIG_DEBUG_SAVE_CANVAS")) printf("%s:%d encode_value_node %s done\n", __FILE__, __LINE__, value_node->get_string().c_str());
return root;
}
xmlpp::Element* encode_value_node_bone_id(xmlpp::Element* root,ValueNode::ConstHandle value_node,Canvas::ConstHandle canvas)
{
root->set_name("bone");
root->set_attribute("type",type_bone_object.description.name);
if (getenv("SYNFIG_DEBUG_SAVE_CANVAS")) printf("%s:%d encode_value_node_bone_id %s %s\n", __FILE__, __LINE__, value_node->get_string().c_str(), value_node->get_guid().get_string().c_str());
if(!value_node->get_id().empty())
root->set_attribute("id",value_node->get_id());
if(ValueNode_Bone::ConstHandle::cast_dynamic(value_node))
{
if (getenv("SYNFIG_DEBUG_SAVE_CANVAS")) printf("%s:%d bone guid case 1 guid %s\n", __FILE__, __LINE__, value_node->get_guid().get_string().c_str());
root->set_attribute("guid",(value_node->get_guid()^canvas->get_root()->get_guid()).get_string());
}
if(value_node->rcount()>1)
{
printf("%s:%d this happens too\n", __FILE__, __LINE__);
root->set_attribute("guid",(value_node->get_guid()^canvas->get_root()->get_guid()).get_string());
}
return root;
}
xmlpp::Element* encode_layer(xmlpp::Element* root,Layer::ConstHandle layer)
{
root->set_name("layer");
root->set_attribute("type",layer->get_name());
root->set_attribute("active",layer->active()?"true":"false");
root->set_attribute("exclude_from_rendering",layer->get_exclude_from_rendering()?"true":"false");
if(!layer->get_version().empty())
root->set_attribute("version",layer->get_version());
if(!layer->get_description().empty())
root->set_attribute("desc",layer->get_description());
if(!layer->get_group().empty())
root->set_attribute("group",layer->get_group());
Layer::Vocab vocab(layer->get_param_vocab());
Layer::Vocab::const_iterator iter;
const Layer::DynamicParamList &dynamic_param_list=layer->dynamic_param_list();
for(iter=vocab.begin();iter!=vocab.end();++iter)
{
// Handle dynamic parameters
if(dynamic_param_list.count(iter->get_name()))
{
xmlpp::Element *node=root->add_child("param");
node->set_attribute("name",iter->get_name());
handle<const ValueNode> value_node=dynamic_param_list.find(iter->get_name())->second;
// If the valuenode has no ID, then it must be defined in-place
if(value_node->get_id().empty())
{
encode_value_node(node->add_child("value_node"),value_node,layer->get_canvas().constant());
}
else
{
node->set_attribute("use",value_node->get_relative_id(layer->get_canvas()));
}
}
else // Handle normal parameters
if(iter->get_critical())
{
ValueBase value=layer->get_param(iter->get_name());
if(!value.is_valid())
{
error("Layer doesn't know its own vocabulary -- "+iter->get_name());
continue;
}
if(value.get_type()==type_canvas)
{
// the ->is_inline() below was crashing if the canvas
// contained a PasteCanvas with the default <No Image
// Selected> Canvas setting; this avoids the crash
if (!value.get(Canvas::LooseHandle()))
continue;
if (!value.get(Canvas::LooseHandle())->is_inline())
{
Canvas::Handle child(value.get(Canvas::LooseHandle()));
if(!value.get(Canvas::Handle()))
continue;
xmlpp::Element *node=root->add_child("param");
node->set_attribute("name",iter->get_name());
node->set_attribute("use",child->get_relative_id(layer->get_canvas()));
if(value.get_static())
node->set_attribute("static", value.get_static()?"true":"false");
continue;
}
}
xmlpp::Element *node=root->add_child("param");
node->set_attribute("name",iter->get_name());
// remember filename param if need
if (save_canvas_external_file_callback != NULL
&& iter->get_name() == "filename"
&& value.get_type() == type_string)
{
std::string filename( value.get(String()) );
std::string ext = filename_extension(filename);
if (!ext.empty()) ext = ext.substr(1); // skip initial '.'
bool registered_in_importer = Importer::book().count(ext) > 0;
bool supports_by_importer = registered_in_importer
&& Importer::book()[ext].supports_file_system_wrapper;
bool registered_in_cairoimporter = CairoImporter::book().count(ext) > 0;
bool supports_by_cairoimporter = registered_in_cairoimporter
&& CairoImporter::book()[ext].supports_file_system_wrapper;
bool supports = (supports_by_importer && supports_by_cairoimporter)
|| (supports_by_importer && !registered_in_cairoimporter)
|| (!registered_in_importer && supports_by_cairoimporter);
if (supports)
if (save_canvas_external_file_callback(save_canvas_external_file_user_data, layer, iter->get_name(), filename))
value.set(filename);
}
encode_value(node->add_child("value"),value,layer->get_canvas().constant());
}
}
return root;
}
xmlpp::Element* encode_canvas(xmlpp::Element* root,Canvas::ConstHandle canvas)
{
assert(canvas);
const RendDesc &rend_desc=canvas->rend_desc();
root->set_name("canvas");
if(canvas->is_root())
root->set_attribute("version",canvas->get_version());
if(!canvas->get_id().empty() && !canvas->is_root() && !canvas->is_inline())
root->set_attribute("id",canvas->get_id());
if(!canvas->parent() || canvas->parent()->rend_desc().get_w()!=canvas->rend_desc().get_w())
root->set_attribute("width",strprintf("%d",rend_desc.get_w()));
if(!canvas->parent() || canvas->parent()->rend_desc().get_h()!=canvas->rend_desc().get_h())
root->set_attribute("height",strprintf("%d",rend_desc.get_h()));
if(!canvas->parent() || canvas->parent()->rend_desc().get_x_res()!=canvas->rend_desc().get_x_res())
root->set_attribute("xres",strprintf("%f",rend_desc.get_x_res()));
if(!canvas->parent() || canvas->parent()->rend_desc().get_y_res()!=canvas->rend_desc().get_y_res())
root->set_attribute("yres",strprintf("%f",rend_desc.get_y_res()));
if(!canvas->parent() ||
canvas->parent()->rend_desc().get_tl()!=canvas->rend_desc().get_tl() ||
canvas->parent()->rend_desc().get_br()!=canvas->rend_desc().get_br())
root->set_attribute("view-box",strprintf(VIEW_BOX_FORMAT,
rend_desc.get_tl()[0],
rend_desc.get_tl()[1],
rend_desc.get_br()[0],
rend_desc.get_br()[1])
);
if(!canvas->parent() || canvas->parent()->rend_desc().get_antialias()!=canvas->rend_desc().get_antialias())
root->set_attribute("antialias",strprintf("%d",rend_desc.get_antialias()));
if(!canvas->parent())
root->set_attribute("fps",strprintf(TIME_TYPE_FORMAT,rend_desc.get_frame_rate()));
if(!canvas->parent() || canvas->parent()->rend_desc().get_time_start()!=canvas->rend_desc().get_time_start())
root->set_attribute("begin-time",rend_desc.get_time_start().get_string(rend_desc.get_frame_rate()));
if(!canvas->parent() || canvas->parent()->rend_desc().get_time_end()!=canvas->rend_desc().get_time_end())
root->set_attribute("end-time",rend_desc.get_time_end().get_string(rend_desc.get_frame_rate()));
if(!canvas->is_inline())
{
root->set_attribute("bgcolor",strprintf(VIEW_BOX_FORMAT,
rend_desc.get_bg_color().get_r(),
rend_desc.get_bg_color().get_g(),
rend_desc.get_bg_color().get_b(),
rend_desc.get_bg_color().get_a())
);
if(!canvas->get_name().empty())
root->add_child("name")->set_child_text(canvas->get_name());
if(!canvas->get_description().empty())
root->add_child("desc")->set_child_text(canvas->get_description());
if(!canvas->get_author().empty())
root->add_child("author")->set_child_text(canvas->get_description());
std::list<String> meta_keys(canvas->get_meta_data_keys());
while(!meta_keys.empty())
{
xmlpp::Element* meta_element(root->add_child("meta"));
meta_element->set_attribute("name",meta_keys.front());
meta_element->set_attribute("content",canvas->get_meta_data(meta_keys.front()));
meta_keys.pop_front();
}
for(KeyframeList::const_iterator iter=canvas->keyframe_list().begin();iter!=canvas->keyframe_list().end();++iter)
encode_keyframe(root->add_child("keyframe"),*iter,canvas->rend_desc().get_frame_rate());
}
// Output the <bones> section
if((!canvas->is_inline() && !ValueNode_Bone::get_bone_map(canvas).empty()))
{
xmlpp::Element *node=root->add_child("bones");
encode_value_node_bone(node->add_child("value_node"),ValueNode_Bone::get_root_bone(),canvas);
ValueNode_Bone::BoneList bone_list(ValueNode_Bone::get_ordered_bones(canvas));
for(ValueNode_Bone::BoneList::iterator iter=bone_list.begin();iter!=bone_list.end();++iter)
{
ValueNode_Bone::Handle bone(*iter);
encode_value_node_bone(node->add_child("value_node"),bone,canvas);
}
}
// Output the <defs> section
//! \todo check where the parentheses should really go - around the && or the ||?
// I guess it should be the other way - but then, why would an inline canvas have either exported valuenode or child canvases? it shouldn't, right?
// (not an inline canvas) (has some exported valuenodes) (has some child canvases)
//! If children is not empty (there are exported canvases in the current canvas)
//! they must be listed in the defs section regardless the result of check the
//! Value Node list (exported value nodes in the canvas) and if the canvas is
//! in line or not. Inline canvases cannot have exported canvases inside.
if((!canvas->is_inline() && !canvas->value_node_list().empty()) || !canvas->children().empty())
{
xmlpp::Element *node=root->add_child("defs");
const ValueNodeList &value_node_list(canvas->value_node_list());
for(ValueNodeList::const_iterator iter=value_node_list.begin();iter!=value_node_list.end();++iter)
{
// If the value_node is a constant, then use the shorthand
if(handle<ValueNode_Const>::cast_dynamic(*iter))
{
ValueNode_Const::Handle value_node(ValueNode_Const::Handle::cast_dynamic(*iter));
reinterpret_cast<xmlpp::Element*>(encode_value(node->add_child("value"),value_node->get_value(),canvas))->set_attribute("id",value_node->get_id());
continue;
}
encode_value_node(node->add_child("value_node"),*iter,canvas);
// writeme
}
for(Canvas::Children::const_iterator iter=canvas->children().begin();iter!=canvas->children().end();++iter)
{
encode_canvas(node->add_child("canvas"),*iter);
}
}
Canvas::const_reverse_iterator iter;
for(iter=canvas->rbegin();iter!=canvas->rend();++iter)
encode_layer(root->add_child("layer"),*iter);
return root;
}
xmlpp::Element* encode_canvas_toplevel(xmlpp::Element* root,Canvas::ConstHandle canvas)
{
valuenode_too_new_count = 0;
xmlpp::Element* ret = encode_canvas(root, canvas);
if (valuenode_too_new_count)
warning("saved %d valuenodes as constant values in old file format\n", valuenode_too_new_count);
return ret;
}
bool
synfig::save_canvas(const FileSystem::Identifier &identifier, Canvas::ConstHandle canvas, bool safe)
{
ChangeLocale change_locale(LC_NUMERIC, "C");
synfig::String tmp_filename(safe ? identifier.filename+".TMP" : identifier.filename);
try
{
assert(canvas);
xmlpp::Document document;
encode_canvas_toplevel(document.create_root_node("canvas"),canvas);
FileSystem::WriteStream::Handle stream = identifier.file_system->get_write_stream(tmp_filename);
if (!stream)
{
synfig::error("synfig::save_canvas(): Unable to open file for write");
return false;
}
if (filename_extension(identifier.filename) == ".sifz")
stream = FileSystem::WriteStream::Handle(new ZWriteStream(stream));
document.write_to_stream_formatted(*stream, "UTF-8");
// close stream
stream.reset();
if (safe)
{
if(!identifier.file_system->file_rename(tmp_filename, identifier.filename))
{
synfig::error("synfig::save_canvas(): Unable to rename file to correct filename");
return false;
}
}
}
catch(...) { synfig::error("synfig::save_canvas(): Caught unknown exception"); return false; }
return true;
}
String
synfig::canvas_to_string(Canvas::ConstHandle canvas)
{
ChangeLocale change_locale(LC_NUMERIC, "C");
assert(canvas);
xmlpp::Document document;
encode_canvas_toplevel(document.create_root_node("canvas"),canvas);
return document.write_to_string_formatted();
}
void
synfig::set_save_canvas_external_file_callback(save_canvas_external_file_callback_t callback, void *user_data)
{
save_canvas_external_file_callback = callback;
save_canvas_external_file_user_data = user_data;
}
void
synfig::set_file_version(ReleaseVersion version)
{
save_canvas_version = version;
}
ReleaseVersion
synfig::get_file_version()
{
return save_canvas_version;
}