+++ /dev/null
-/* === S Y N F I G ========================================================= */
-/*! \file valuenode_bline.cpp
-** \brief Template File
-**
-** $Id: valuenode_bline.cpp,v 1.1.1.1 2005/01/04 01:23:15 darco Exp $
-**
-** \legal
-** Copyright (c) 2002-2005 Robert B. Quattlebaum Jr., Adrian Bentley
-**
-** 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 "valuenode_bline.h"
-#include "valuenode_const.h"
-#include "valuenode_composite.h"
-#include "general.h"
-#include "exception.h"
-#include "blinepoint.h"
-#include <vector>
-#include <list>
-#include <algorithm>
-#include <ETL/hermite>
-#include <ETL/calculus>
-#include "segment.h"
-
-#endif
-
-/* === U S I N G =========================================================== */
-
-using namespace std;
-using namespace etl;
-using namespace synfig;
-
-/* === M A C R O S ========================================================= */
-
-/* === G L O B A L S ======================================================= */
-
-/* === P R O C E D U R E S ================================================= */
-
-inline Vector
-linear_interpolation(const Vector& a, const Vector& b, float c)
-{ return (b-a)*c+a; }
-
-inline Vector
-radial_interpolation(const Vector& a, const Vector& b, float c)
-{
- affine_combo<Real,float> mag_combo;
- affine_combo<Angle,float> ang_combo;
-
- Real mag(mag_combo(a.mag(),b.mag(),c));
- Angle ang(ang_combo(Angle::tan(a[1],a[0]),Angle::tan(b[1],b[0]),c));
-
- return Point( mag*Angle::cos(ang).get(),mag*Angle::sin(ang).get() );
-}
-
-
-
-ValueBase
-synfig::convert_bline_to_segment_list(const ValueBase& bline)
-{
- std::vector<Segment> ret;
-
-// std::vector<BLinePoint> list(bline.operator std::vector<BLinePoint>());
- //std::vector<BLinePoint> list(bline);
- std::vector<BLinePoint> list(bline.get_list().begin(),bline.get_list().end());
- std::vector<BLinePoint>::const_iterator iter;
-
- BLinePoint prev,first;
-
- //start with prev = first and iter on the second...
-
- if(list.empty()) return ValueBase(ret,bline.get_loop());
- first = prev = list.front();
-
- for(iter=++list.begin();iter!=list.end();++iter)
- {
- ret.push_back(
- Segment(
- prev.get_vertex(),
- prev.get_tangent2(),
- iter->get_vertex(),
- iter->get_tangent1()
- )
- );
- prev=*iter;
- }
- if(bline.get_loop())
- {
- ret.push_back(
- Segment(
- prev.get_vertex(),
- prev.get_tangent2(),
- first.get_vertex(),
- first.get_tangent1()
- )
- );
- }
- return ValueBase(ret,bline.get_loop());
-}
-
-ValueBase
-synfig::convert_bline_to_width_list(const ValueBase& bline)
-{
- std::vector<Real> ret;
-// std::vector<BLinePoint> list(bline.operator std::vector<BLinePoint>());
- //std::vector<BLinePoint> list(bline);
- std::vector<BLinePoint> list(bline.get_list().begin(),bline.get_list().end());
- std::vector<BLinePoint>::const_iterator iter;
-
- if(bline.empty())
- return ValueBase(ValueBase::TYPE_LIST);
-
- for(iter=list.begin();iter!=list.end();++iter)
- ret.push_back(iter->get_width());
-
- if(bline.get_loop())
- ret.push_back(list.front().get_width());
-
- return ValueBase(ret,bline.get_loop());
-}
-
-
-/* === M E T H O D S ======================================================= */
-
-
-ValueNode_BLine::ValueNode_BLine():
- ValueNode_DynamicList(ValueBase::TYPE_BLINEPOINT)
-{
-}
-
-ValueNode_BLine::~ValueNode_BLine()
-{
-}
-
-ValueNode_BLine*
-ValueNode_BLine::create(const ValueBase &value)
-{
- if(value.get_type()!=ValueBase::TYPE_LIST)
- return 0;
-
- ValueNode_BLine* value_node(new ValueNode_BLine());
-
- if(!value.empty())
- {
- switch(value.get_contained_type())
- {
- case ValueBase::TYPE_BLINEPOINT:
- {
-// std::vector<BLinePoint> bline_points(value.operator std::vector<BLinePoint>());
- //std::vector<BLinePoint> bline_points(value);
- std::vector<BLinePoint> bline_points(value.get_list().begin(),value.get_list().end());
- std::vector<BLinePoint>::const_iterator iter;
-
- for(iter=bline_points.begin();iter!=bline_points.end();iter++)
- {
- value_node->add(ValueNode::Handle(ValueNode_Composite::create(*iter)));
- }
- value_node->set_loop(value.get_loop());
- }
- break;
- case ValueBase::TYPE_SEGMENT:
- {
- // Here, we want to convert a list of segments
- // into a list of BLinePoints. We make an assumption
- // that the segment list is continuous(sp), but not necessarily
- // smooth.
-
- value_node->set_loop(false);
-// std::vector<Segment> segments(value.operator std::vector<Segment>());
-// std::vector<Segment> segments(value);
- std::vector<Segment> segments(value.get_list().begin(),value.get_list().end());
- std::vector<Segment>::const_iterator iter,last(segments.end());
- --last;
- ValueNode_Const::Handle prev,first;
-
- for(iter=segments.begin();iter!=segments.end();iter++)
- {
-#define PREV_POINT prev->get_value().get(BLinePoint())
-#define FIRST_POINT first->get_value().get(BLinePoint())
-#define CURR_POINT curr->get_value().get(BLinePoint())
- if(iter==segments.begin())
- {
- prev=ValueNode_Const::create(ValueBase::TYPE_BLINEPOINT);
- {
- BLinePoint prev_point(PREV_POINT);
- prev_point.set_vertex(iter->p1);
- prev_point.set_tangent1(iter->t1);
- prev_point.set_width(0.01);
- prev_point.set_origin(0.5);
- prev_point.set_split_tangent_flag(false);
- prev->set_value(prev_point);
- }
- first=prev;
- value_node->add(ValueNode::Handle(prev));
-
- }
- if(iter==last && iter->p2.is_equal_to(FIRST_POINT.get_vertex()))
- {
- value_node->set_loop(true);
- if(!iter->t2.is_equal_to(FIRST_POINT.get_tangent1()))
- {
- BLinePoint first_point(FIRST_POINT);
- first_point.set_tangent1(iter->t2);
- first->set_value(first_point);
- }
- continue;
- }
-
- ValueNode_Const::Handle curr;
- curr=ValueNode_Const::create(ValueBase::TYPE_BLINEPOINT);
- {
- BLinePoint curr_point(CURR_POINT);
- curr_point.set_vertex(iter->p2);
- curr_point.set_tangent1(iter->t2);
- curr_point.set_width(0.01);
- curr_point.set_origin(0.5);
- curr_point.set_split_tangent_flag(false);
- curr->set_value(curr_point);
- }
- if(!PREV_POINT.get_tangent1().is_equal_to(iter->t1))
- {
- BLinePoint prev_point(PREV_POINT);
- prev_point.set_split_tangent_flag(true);
- prev_point.set_tangent2(iter->t1);
- prev->set_value(prev_point);
- }
- value_node->add(ValueNode::Handle(curr));
- prev=curr;
- }
-
- }
- break;
- default:
- // We got a list of who-knows-what. We don't have any idea
- // what to do with it.
- return 0;
- break;
- }
- }
-
-
- return value_node;
-}
-
-ValueNode_BLine::ListEntry
-ValueNode_BLine::create_list_entry(int index, Time time, Real origin)
-{
- ValueNode_BLine::ListEntry ret;
-
-
- synfig::BLinePoint prev,next;
-
- int prev_i,next_i;
-
- index=index%link_count();
-
- assert(index>=0);
- ret.index=index;
- ret.set_parent_value_node(this);
-
- if(!list[index].status_at_time(time))
- next_i=find_next_valid_entry(index,time);
- else
- next_i=index;
- prev_i=find_prev_valid_entry(index,time);
-
- synfig::info("index=%d, next_i=%d, prev_i=%d",index,next_i,prev_i);
-
- next=(*list[next_i].value_node)(time);
- prev=(*list[prev_i].value_node)(time);
-
- etl::hermite<Vector> curve(prev.get_vertex(),next.get_vertex(),prev.get_tangent2(),next.get_tangent1());
- etl::derivative< etl::hermite<Vector> > deriv(curve);
-
- synfig::BLinePoint bline_point;
- bline_point.set_vertex(curve(origin));
- bline_point.set_width((next.get_width()-prev.get_width())*origin+prev.get_width());
- bline_point.set_tangent1(deriv(origin)*min(1.0-origin,origin));
- bline_point.set_tangent2(bline_point.get_tangent1());
- bline_point.set_split_tangent_flag(false);
- bline_point.set_origin(origin);
-
- ret.value_node=ValueNode_Composite::create(bline_point);
-
- return ret;
-}
-
-ValueBase
-ValueNode_BLine::operator()(Time t)const
-{
- std::vector<BLinePoint> ret_list;
-
- std::vector<ListEntry>::const_iterator iter,first_iter;
- bool first_flag(true);
- bool rising;
- int index(0);
- float next_scale(1.0f);
-
- BLinePoint prev,first;
- first.set_origin(100.0f);
-
- for(iter=list.begin();iter!=list.end();++iter,index++)
- {
- float amount(iter->amount_at_time(t,&rising));
-
- assert(amount>=0.0f);
- assert(amount<=1.0f);
-
- if(amount==1.0f)
- {
- if(first_flag)
- {
- first_iter=iter;
- first=prev=(*iter->value_node)(t).get(prev);
- first_flag=false;
- ret_list.push_back(first);
- continue;
- }
-
- BLinePoint curr;
- curr=(*iter->value_node)(t).get(prev);
-
- if(next_scale!=1.0f)
- {
- ret_list.back().set_split_tangent_flag(true);
- ret_list.back().set_tangent2(prev.get_tangent2()*next_scale);
-
- ret_list.push_back(curr);
-
- ret_list.back().set_split_tangent_flag(true);
- ret_list.back().set_tangent2(curr.get_tangent2());
- ret_list.back().set_tangent1(curr.get_tangent1()*next_scale);
-
- next_scale=1.0f;
- }
- else
- {
- ret_list.push_back(curr);
-
- }
-
- prev=curr;
- }
- else
- if(amount>0.0f)
- {
- std::vector<ListEntry>::const_iterator begin_iter,end_iter;
-
- // This is where the interesting stuff happens
- // We need to seek forward in the list to see what the next
- // active point is
-
- BLinePoint curr;
- BLinePoint begin; // begin of dynamic group
- BLinePoint end; // End of dynamic group
- Time blend_time;
- int dist_from_begin(0), dist_from_end(0);
- BLinePoint ret;
-
- Time begin_time;
- Time end_time;
-
- if(!rising)
- {
- try{ end_time=iter->find_prev(t)->get_time(); }
- catch(...) { end_time=Time::begin(); }
- try{ begin_time=iter->find_next(t)->get_time(); }
- catch(...) { begin_time=Time::end(); }
- }
- else
- {
- try{ begin_time=iter->find_prev(t)->get_time(); }
- catch(...) { begin_time=Time::begin(); }
- try{ end_time=iter->find_next(t)->get_time(); }
- catch(...) { end_time=Time::end(); }
- }
- blend_time=begin_time;
- curr=(*iter->value_node)(end_time).get(curr);
-
-// curr=(*iter->value_node)(t).get(curr);
-
- // Find "end" of dynamic group
- end_iter=iter;
-// for(++end_iter;begin_iter!=list.end();++end_iter)
- for(++end_iter;end_iter!=list.end();++end_iter)
- if(end_iter->amount_at_time(t)>amount)
- {
- end=(*end_iter->value_node)(blend_time).get(prev);
- break;
- }
-
- // If we did not find an end of the dynamic group...
- if(end_iter==list.end())
- {
- if(get_loop())
- {
- end_iter=first_iter;
- end=(*end_iter->value_node)(blend_time).get(prev);
-// end=first;
- }
- else
- {
- // Writeme!
- end_iter=first_iter;
- end=(*end_iter->value_node)(blend_time).get(prev);
-// end=first;
- }
- }
-
- // Find "begin" of dynamic group
- begin_iter=iter;
- begin.set_origin(100.0f); // set the origin to 100 (which is crazy) so that we can check to see if it was found
- do
- {
- if(begin_iter==list.begin())
- {
- if(get_loop())
- begin_iter=list.end();
- else
- break;
- }
-
- --begin_iter;
- dist_from_begin++;
-
- if(begin_iter==iter)
- break;
-
- if(begin_iter->amount_at_time(t)>amount)
- {
- begin=(*begin_iter->value_node)(blend_time).get(prev);
- break;
- }
- }while(begin_iter!=iter);
-
- // If we did not find a begin
- if(begin.get_origin()==100.0f)
- {
- if(get_loop())
- {
- begin_iter=first_iter;
- begin=(*begin_iter->value_node)(blend_time).get(prev);
-// begin=first;
- }
- else
- {
- // Writeme!
- begin_iter=first_iter;
- begin=(*begin_iter->value_node)(blend_time).get(prev);
-// begin=first;
- }
- }
-
- etl::hermite<Vector> curve(begin.get_vertex(),end.get_vertex(),begin.get_tangent2(),end.get_tangent1());
- etl::derivative< etl::hermite<Vector> > deriv(curve);
-
- ret.set_vertex(curve(curr.get_origin()));
-
- ret.set_width((end.get_width()-begin.get_width())*curr.get_origin()+begin.get_width());
-
- ret.set_tangent1(deriv(curr.get_origin()));
- ret.set_tangent2(deriv(curr.get_origin()));
-
- float prev_tangent_scalar(1.0f);
- float next_tangent_scalar(1.0f);
-
- //synfig::info("index_%d:dist_from_begin=%d",index,dist_from_begin);
- //synfig::info("index_%d:dist_from_end=%d",index,dist_from_end);
-
- // If we are the next to the begin
- if(begin_iter==--std::vector<ListEntry>::const_iterator(iter) || dist_from_begin==1)
- {
- prev_tangent_scalar=(1.0f-curr.get_origin())*amount+curr.get_origin();
- }
- else
- {
- float origin=curr.get_origin()-prev.get_origin();
- prev_tangent_scalar=(1.0f-origin)*amount+origin;
- }
-
- // If we are the next to the end
- if(end_iter==++std::vector<ListEntry>::const_iterator(iter) || dist_from_end==1)
- {
- float origin=1.0-curr.get_origin();
- next_tangent_scalar=(1.0f-origin)*amount+origin;
- }
- else
- if(list.end()!=++std::vector<ListEntry>::const_iterator(iter))
- {
- BLinePoint next;
- next=((*(++std::vector<ListEntry>::const_iterator(iter))->value_node)(t).get(prev));
- float origin=next.get_origin()-curr.get_origin();
- next_tangent_scalar=(1.0f-origin)*amount+origin;
- }
- next_scale=next_tangent_scalar;
-
- //ret.set_vertex((curr.get_vertex()-ret.get_vertex())*amount+ret.get_vertex());
- if(false)
- {
- // My first try
- Point ref_point_begin(
- (
- (*begin_iter->value_node)(begin_time).get(prev).get_vertex() +
- (*end_iter->value_node)(begin_time).get(prev).get_vertex()
- ) * 0.5
- );
- Point ref_point_end(
- (
- (*begin_iter->value_node)(end_time).get(prev).get_vertex() +
- (*end_iter->value_node)(end_time).get(prev).get_vertex()
- ) * 0.5
- );
- Point ref_point_now(
- (
- (*begin_iter->value_node)(t).get(prev).get_vertex() +
- (*end_iter->value_node)(t).get(prev).get_vertex()
- ) * 0.5
- );
- Point ref_point_linear((ref_point_end-ref_point_begin)*amount+ref_point_begin);
-
- ret.set_vertex(
- (curr.get_vertex()-ret.get_vertex())*amount+ret.get_vertex() +
- (ref_point_now-ref_point_linear)
- );
- ret.set_tangent1((curr.get_tangent1()-ret.get_tangent1())*amount+ret.get_tangent1());
- ret.set_split_tangent_flag(curr.get_split_tangent_flag());
- if(ret.get_split_tangent_flag())
- ret.set_tangent2((curr.get_tangent2()-ret.get_tangent2())*amount+ret.get_tangent2());
- }
- else
- {
- // My second try
- Point begin_cord_sys[2], begin_cord_origin;
- Point end_cord_sys[2], end_cord_origin;
- Point curr_cord_sys[2], curr_cord_origin;
-
- {
- const Point a((*end_iter->value_node)(begin_time).get(prev).get_vertex());
- const Point b((*begin_iter->value_node)(begin_time).get(prev).get_vertex());
- begin_cord_origin=(a+b)/2;
- begin_cord_sys[0]=( b - a ).norm();
- begin_cord_sys[1]=begin_cord_sys[0].perp();
- }
- {
- const Point a((*end_iter->value_node)(end_time).get(prev).get_vertex());
- const Point b((*begin_iter->value_node)(end_time).get(prev).get_vertex());
- end_cord_origin=(a+b)/2;
- end_cord_sys[0]=( b - a ).norm();
- end_cord_sys[1]=end_cord_sys[0].perp();
- }
- {
- const Point a((*end_iter->value_node)(t).get(prev).get_vertex());
- const Point b((*begin_iter->value_node)(t).get(prev).get_vertex());
- curr_cord_origin=(a+b)/2;
- curr_cord_sys[0]=( b - a ).norm();
- curr_cord_sys[1]=curr_cord_sys[0].perp();
- }
-
- /*
- end_cord_origin=(*end_iter->value_node)(end_time).get(prev).get_vertex();
- end_cord_sys[0]=(
- (*begin_iter->value_node)(end_time).get(prev).get_vertex() -
- end_cord_origin
- ).norm();
- end_cord_sys[1]=end_cord_sys[0].perp();
-
- curr_cord_origin=(*end_iter->value_node)(t).get(prev).get_vertex();
- curr_cord_sys[0]=(
- (*begin_iter->value_node)(t).get(prev).get_vertex() -
- curr_cord_origin
- ).norm();
- curr_cord_sys[1]=curr_cord_sys[0].perp();
- */
-
- // Convert start point
- Point a;
- Vector at1,at2;
- {
- Point tmp(ret.get_vertex()-begin_cord_origin);
- a[0]=tmp*begin_cord_sys[0];
- a[1]=tmp*begin_cord_sys[1];
-#define COORD_SYS_RADIAL_TAN_INTERP 1
-
-#ifdef COORD_SYS_RADIAL_TAN_INTERP
- tmp=ret.get_tangent1()+ret.get_vertex()-begin_cord_origin;
- at1[0]=tmp*begin_cord_sys[0];
- at1[1]=tmp*begin_cord_sys[1];
-
- if(curr.get_split_tangent_flag())
- {
- tmp=ret.get_tangent2()+ret.get_vertex()-begin_cord_origin;
- at2[0]=tmp*begin_cord_sys[0];
- at2[1]=tmp*begin_cord_sys[1];
- }
-#endif
- }
-
- // Convert finish point
- Point b;
- Vector bt1,bt2;
- {
- Point tmp(curr.get_vertex()-end_cord_origin);
- b[0]=tmp*end_cord_sys[0];
- b[1]=tmp*end_cord_sys[1];
-
-#ifdef COORD_SYS_RADIAL_TAN_INTERP
- tmp=curr.get_tangent1()+curr.get_vertex()-end_cord_origin;
- bt1[0]=tmp*end_cord_sys[0];
- bt1[1]=tmp*end_cord_sys[1];
-
- if(curr.get_split_tangent_flag())
- {
- tmp=curr.get_tangent2()+curr.get_vertex()-end_cord_origin;
- bt2[0]=tmp*end_cord_sys[0];
- bt2[1]=tmp*end_cord_sys[1];
- }
-#endif
- }
-
- // Convert current point
- Point c;
- Vector ct1,ct2;
- {
- // Transpose (invert)
- swap(curr_cord_sys[0][1],curr_cord_sys[1][0]);
-
- Point tmp((b-a)*amount+a);
- c[0]=tmp*curr_cord_sys[0];
- c[1]=tmp*curr_cord_sys[1];
- c+=curr_cord_origin;
-
-#define INTERP_FUNCTION radial_interpolation
-//#define INTERP_FUNCTION linear_interpolation
-
-#ifdef COORD_SYS_RADIAL_TAN_INTERP
- tmp=INTERP_FUNCTION(at1,bt1,amount);
- ct1[0]=tmp*curr_cord_sys[0];
- ct1[1]=tmp*curr_cord_sys[1];
- ct1+=curr_cord_origin;
- ct1-=c;
-
- if(curr.get_split_tangent_flag())
- {
- tmp=INTERP_FUNCTION(at2,bt2,amount);
- ct2[0]=tmp*curr_cord_sys[0];
- ct2[1]=tmp*curr_cord_sys[1];
- ct2+=curr_cord_origin;
- ct2-=c;
- }
-#endif
- }
-
- ret.set_vertex(c);
-#ifndef COORD_SYS_RADIAL_TAN_INTERP
- ret.set_tangent1(radial_interpolation(ret.get_tangent1(),curr.get_tangent1(),amount));
- ret.set_split_tangent_flag(curr.get_split_tangent_flag());
- if(ret.get_split_tangent_flag())
- ret.set_tangent2(radial_interpolation(ret.get_tangent2(),curr.get_tangent2(),amount));
-#else
- ret.set_tangent1(ct1);
- ret.set_split_tangent_flag(curr.get_split_tangent_flag());
- if(ret.get_split_tangent_flag())
- ret.set_tangent2(ct2);
-#endif
- }
-
- ret.set_origin(curr.get_origin());
- ret.set_width((curr.get_width()-ret.get_width())*amount+ret.get_width());
-
-
- // Handle the case where we are the first vertex
- if(first_flag)
- {
- ret.set_tangent1(ret.get_tangent1()*prev_tangent_scalar);
- first_iter=iter;
- first=prev=ret;
- first_flag=false;
- ret_list.push_back(ret);
- continue;
- }
-
- ret_list.back().set_split_tangent_flag(true);
- ret_list.back().set_tangent2(prev.get_tangent2()*prev_tangent_scalar);
- ret_list.push_back(ret);
- ret_list.back().set_split_tangent_flag(true);
- //ret_list.back().set_tangent2(ret.get_tangent1());
- ret_list.back().set_tangent1(ret.get_tangent1()*prev_tangent_scalar);
-
- prev=ret;
- }
- }
-
- if(next_scale!=1.0f)
- {
- ret_list.back().set_split_tangent_flag(true);
- ret_list.back().set_tangent2(prev.get_tangent2()*next_scale);
- }
-
-/*
- if(get_loop() && !first_flag)
- {
- ret_list.push_back(
- Segment(
- prev.get_vertex(),
- prev.get_tangent2(),
- first.get_vertex(),
- first.get_tangent1()
- )
- );
- }
-*/
-
- if(list.empty())
- synfig::warning(string("ValueNode_BLine::operator()():")+_("No entries in list"));
- else
- if(ret_list.empty())
- synfig::warning(string("ValueNode_BLine::operator()():")+_("No entries in ret_list"));
-
- return ValueBase(ret_list,get_loop());
-}
-
-String
-ValueNode_BLine::link_local_name(int i)const
-{
- assert(i>=0 && (unsigned)i<list.size());
- return etl::strprintf(_("Vertex %03d"),i+1);
-}
-
-ValueNode*
-ValueNode_BLine::clone(const GUID& deriv_guid)const
-{
- { ValueNode* x(find_value_node(get_guid()^deriv_guid).get()); if(x)return x; }
-
- ValueNode_BLine* ret=new ValueNode_BLine();
- ret->set_guid(get_guid()^deriv_guid);
-
- std::vector<ListEntry>::const_iterator iter;
-
- for(iter=list.begin();iter!=list.end();++iter)
- {
- if(iter->value_node->is_exported())
- ret->add(*iter);
- else
- {
- ListEntry list_entry(*iter);
- //list_entry.value_node=find_value_node(iter->value_node->get_guid()^deriv_guid).get();
- //if(!list_entry.value_node)
- list_entry.value_node=iter->value_node->clone(deriv_guid);
- ret->add(list_entry);
- //ret->list.back().value_node=iter->value_node.clone();
- }
- }
- ret->set_loop(get_loop());
-
- return ret;
-}
-
-String
-ValueNode_BLine::get_name()const
-{
- return "bline";
-}
-
-String
-ValueNode_BLine::get_local_name()const
-{
- return _("BLine");
-}
-
-LinkableValueNode*
-ValueNode_BLine::create_new()const
-{
- assert(0);
- return 0;
-}
-
-bool
-ValueNode_BLine::check_type(ValueBase::Type type)
-{
- return type==ValueBase::TYPE_LIST;
-}