/* === S Y N F I G ========================================================= */
/*! \file valuenode.cpp
-** \brief Template File
+** \brief Implementation of the "Placeholder" valuenode conversion.
**
** $Id$
**
#include "valuenode.h"
#include "general.h"
#include "canvas.h"
+#include "paramdesc.h"
#include "valuenode_const.h"
#include "valuenode_linear.h"
#include "valuenode_scale.h"
#include "valuenode_blinecalctangent.h"
#include "valuenode_blinecalcvertex.h"
+#include "valuenode_blinereversetangent.h"
#include "valuenode_segcalctangent.h"
#include "valuenode_segcalcvertex.h"
#include "valuenode_repeat_gradient.h"
#include "valuenode_atan2.h"
#include "valuenode_exp.h"
#include "valuenode_switch.h"
+#include "valuenode_timeloop.h"
+#include "valuenode_reciprocal.h"
+#include "valuenode_duplicate.h"
+#include "valuenode_integer.h"
#include "layer.h"
ADD_VALUENODE(ValueNode_Scale, "scale", _("Scale") );
ADD_VALUENODE(ValueNode_BLineCalcTangent,"blinecalctangent",_("BLine Tangent") );
ADD_VALUENODE(ValueNode_BLineCalcVertex,"blinecalcvertex", _("BLine Vertex") );
+ ADD_VALUENODE(ValueNode_BLineRevTangent,"blinerevtangent", _("Reverse Tangent") );
ADD_VALUENODE(ValueNode_SegCalcTangent, "segcalctangent", _("Segment Tangent") );
ADD_VALUENODE(ValueNode_SegCalcVertex, "segcalcvertex", _("Segment Vertex") );
ADD_VALUENODE(ValueNode_Stripes, "stripes", _("Stripes") );
ADD_VALUENODE(ValueNode_Atan2, "atan2", _("aTan2") );
ADD_VALUENODE(ValueNode_Exp, "exp", _("Exponential") );
ADD_VALUENODE(ValueNode_Switch, "switch", _("Switch") );
+ ADD_VALUENODE(ValueNode_TimeLoop, "timeloop", _("Time Loop") );
+ ADD_VALUENODE(ValueNode_Reciprocal, "reciprocal", _("Reciprocal") );
+ ADD_VALUENODE(ValueNode_Duplicate, "duplicate", _("Duplicate") );
+ ADD_VALUENODE(ValueNode_Integer, "fromint", _("From Integer") );
#undef ADD_VALUENODE
#undef ADD_VALUENODE2
for(iter=global_value_node_map.begin();iter!=global_value_node_map.end();++iter)
{
if(!iter->second->is_exported())
- synfig::info("%s: count:%d name:%s type:%s",
+ synfig::info(_("%s: count:%d name:%s type:%s"),
iter->first.get_string().c_str(),
iter->second->count(),
iter->second->get_name().c_str(),
- ValueBase::type_name(iter->second->get_type()).c_str()
+ ValueBase::type_local_name(iter->second->get_type()).c_str()
);
else
- synfig::info("%s: id:%s count:%d name:%s type:%s",
+ synfig::info(_("%s: id:%s count:%d name:%s type:%s"),
iter->first.get_string().c_str(),
iter->second->get_id().c_str(),
iter->second->count(),
iter->second->get_name().c_str(),
- ValueBase::type_name(iter->second->get_type()).c_str()
+ ValueBase::type_local_name(iter->second->get_type()).c_str()
);
}
}
{
if(!book().count(name))
return 0;
+
+ if (!check_type(name, x.get_type()) &&
+ // the Duplicate ValueNode is an exception - we don't want the
+ // user creating it for themselves, so check_type() fails for
+ // it even when it is valid
+ !(name == "duplicate" && x.get_type() == ValueBase::TYPE_REAL))
+ {
+ error(_("Bad type: ValueNode '%s' doesn't accept type '%s'"), book()[name].local_name.c_str(), ValueBase::type_local_name(x.get_type()).c_str());
+ return 0;
+ }
+
return book()[name].factory(x);
}
value_node_count--;
begin_delete();
-
- //DEBUGPOINT();
}
void
}
}
+String
+ValueNode::get_description(bool show_exported_name)const
+{
+ String ret(_("ValueNode"));
+
+ if (dynamic_cast<const LinkableValueNode*>(this))
+ return (dynamic_cast<const LinkableValueNode*>(this))->get_description(-1, show_exported_name);
+
+ if (show_exported_name && !is_exported())
+ show_exported_name = false;
+
+ if (show_exported_name)
+ ret += strprintf(" (%s)", get_id().c_str());
+
+ return ret;
+}
+
ValueNodeList::ValueNodeList():
placeholder_count_(0)
{
if(id.empty())
return false;
- for(iter=begin();iter!=end() && id!=(*iter)->get_id();++iter);
+ for(iter=begin();iter!=end() && id!=(*iter)->get_id();++iter)
+ ;
if(iter==end())
return false;
if(id.empty())
throw Exception::IDNotFound("Empty ID");
- for(iter=begin();iter!=end() && id!=(*iter)->get_id();++iter);
+ for(iter=begin();iter!=end() && id!=(*iter)->get_id();++iter)
+ ;
if(iter==end())
throw Exception::IDNotFound("ValueNode in ValueNodeList: "+id);
if(id.empty())
throw Exception::IDNotFound("Empty ID");
- for(iter=begin();iter!=end() && id!=(*iter)->get_id();++iter);
+ for(iter=begin();iter!=end() && id!=(*iter)->get_id();++iter)
+ ;
if(iter==end())
throw Exception::IDNotFound("ValueNode in ValueNodeList: "+id);
ValueNode*
LinkableValueNode::clone(const GUID& deriv_guid)const
{
- { ValueNode* x(find_value_node(get_guid()^deriv_guid).get()); if(x)return x; }
+ // printf("%s:%d clone()\n", __FILE__, __LINE__);
+ { ValueNode* x(find_value_node(get_guid()^deriv_guid).get()); if(x)
+ {
+ printf("VALUENODE FOUND VALUENODE\n");
+ return x;
+ }}
int i;
LinkableValueNode *ret=create_new();
}
}
}
+
+String
+LinkableValueNode::get_description(int index, bool show_exported_name)const
+{
+ String description;
+
+ if (index == -1)
+ {
+ if (show_exported_name && is_exported())
+ description += strprintf(" (%s)", get_id().c_str());
+ }
+ else
+ {
+ description = String(":") + link_local_name(index);
+
+ if (show_exported_name)
+ {
+ ValueNode::LooseHandle link(get_link(index));
+ if (link->is_exported())
+ description += strprintf(" (%s)", link->get_id().c_str());
+ }
+ }
+
+ const synfig::Node* node = this;
+ LinkableValueNode::ConstHandle parent_linkable_vn = 0;
+
+ // walk up through the valuenodes trying to find the layer at the top
+ while (!node->parent_set.empty() && !dynamic_cast<const Layer*>(node))
+ {
+ LinkableValueNode::ConstHandle linkable_value_node(dynamic_cast<const LinkableValueNode*>(node));
+ if (linkable_value_node)
+ {
+ String link;
+ int cnt = linkable_value_node->link_count();
+ for (int i = 0; i < cnt; i++)
+ if (linkable_value_node->get_link(i) == parent_linkable_vn)
+ {
+ link = String(":") + linkable_value_node->link_local_name(i);
+ break;
+ }
+
+ description = linkable_value_node->get_local_name() + link + (parent_linkable_vn?">":"") + description;
+ }
+ node = *node->parent_set.begin();
+ parent_linkable_vn = linkable_value_node;
+ }
+
+ Layer::ConstHandle parent_layer(dynamic_cast<const Layer*>(node));
+ if(parent_layer)
+ {
+ String param;
+ const Layer::DynamicParamList &dynamic_param_list(parent_layer->dynamic_param_list());
+ // loop to find the parameter in the dynamic parameter list - this gives us its name
+ for (Layer::DynamicParamList::const_iterator iter = dynamic_param_list.begin(); iter != dynamic_param_list.end(); iter++)
+ if (iter->second == parent_linkable_vn)
+ param = String(":") + parent_layer->get_param_local_name(iter->first);
+ description = strprintf("(%s)%s>%s",
+ parent_layer->get_non_empty_description().c_str(),
+ param.c_str(),
+ description.c_str());
+ }
+
+ return description;
+}