//! \writeme int synfig::waypoint_collect(set<Waypoint, std::less<UniqueID> > &waypoint_set, const Time &time, const etl::handle<Node> &node) { const TimePointSet& timepoint_set(node->get_times()); // Check to see if there is anything in here at the given time if(timepoint_set.find(time)==timepoint_set.end()) return 0; // Check if we are a linkable value node LinkableValueNode::Handle linkable_value_node; linkable_value_node=linkable_value_node.cast_dynamic(node); if(linkable_value_node) { const int link_count(linkable_value_node->link_count()); int i,ret(0); for(i=0;i<link_count;i++) ret+=waypoint_collect(waypoint_set,time,linkable_value_node->get_link(i).get()); return ret; } // Check if we are a layer Layer::Handle layer; layer=layer.cast_dynamic(node); if(layer) { const Layer::DynamicParamList& dyn_param_list(layer->dynamic_param_list()); Layer::DynamicParamList::const_iterator iter; int ret(0); for(iter=dyn_param_list.begin();iter!=dyn_param_list.end();++iter) ret+=waypoint_collect(waypoint_set,time,iter->second); ValueBase canvas_value(layer->get_param("canvas")); if(canvas_value.get_type()==type_canvas) { etl::handle<Layer_PasteCanvas> p = etl::handle<Layer_PasteCanvas>::cast_dynamic(layer); if (p) ret+=waypoint_collect(waypoint_set, time + p->get_time_offset(), Canvas::Handle(canvas_value.get(Canvas::Handle()))); else ret+=waypoint_collect(waypoint_set, time, Canvas::Handle(canvas_value.get(Canvas::Handle()))); } return ret; } // Check if we are a canvas Canvas::Handle canvas; canvas=canvas.cast_dynamic(node); if(canvas) { Canvas::const_iterator iter; int ret(0); for(iter=canvas->begin();iter!=canvas->end();++iter) ret+=waypoint_collect(waypoint_set,time,*iter); return ret; } // Check if we are an animated value node ValueNode_Animated::Handle value_node_animated; value_node_animated=value_node_animated.cast_dynamic(node); if(value_node_animated) { try{ Waypoint waypoint=*value_node_animated->find(time); // If it is already in the waypoint set, then // don't bother adding it again if(waypoint_set.find(waypoint)!=waypoint_set.end()) return 0; waypoint_set.insert(waypoint); return 1; }catch(...) { return 0; } } return 0; }
void Action::ValueDescSet::prepare() { clear(); // If we are a reference value node, then // we need to distribute the changes to the // referenced value node if(value_desc.is_value_node() && ValueNode_Reference::Handle::cast_dynamic(value_desc.get_value_node())) { ValueDesc reference_value_desc(ValueNode_Reference::Handle::cast_dynamic(value_desc.get_value_node()),0); Action::Handle action(Action::create("ValueDescSet")); if(!action) throw Error(_("Unable to find action ValueDescSet (bug)")); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("time",time); action->set_param("new_value",value); action->set_param("value_desc",reference_value_desc); if(!action->is_ready()) throw Error(Error::TYPE_NOTREADY); add_action(action); return; } // if we are a boneinfluence value node, then we need to distribute the changes to the linked value node // This is only valid for vector type converted to bone influence // Not valid for a whole blinepoint converted to bone influence if(value_desc.is_value_node() && value.get_type() == type_vector) { if (ValueNode_BoneInfluence::Handle bone_influence_value_node = ValueNode_BoneInfluence::Handle::cast_dynamic(value_desc.get_value_node())) { ValueDesc bone_influence_value_desc(bone_influence_value_node, bone_influence_value_node->get_link_index_from_name("link")); if (bone_influence_value_node->has_inverse_transform()) value = bone_influence_value_node->get_inverse_transform().get_transformed(value.get(Vector())); else throw Error(_("this node isn't editable - in the future it will be greyed to prevent editing")); Action::Handle action(Action::create("ValueDescSet")); if(!action) throw Error(_("Unable to find action ValueDescSet (bug)")); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("time",time); action->set_param("new_value",value); action->set_param("value_desc",bone_influence_value_desc); if(!action->is_ready()) throw Error(Error::TYPE_NOTREADY); add_action(action); return; } } // Set ValueNode_Average if(value_desc.is_value_node() && ValueNode_Average::check_type(value.get_type())) { if (ValueNode_Average::Handle bone_average_value_node = ValueNode_Average::Handle::cast_dynamic(value_desc.get_value_node())) { ValueBase::List values_list; values_list.reserve(bone_average_value_node->link_count()); for(int i = 0; i < bone_average_value_node->link_count(); ++i) values_list.push_back((*bone_average_value_node->get_link(i))(time)); ValueAverage::set_average_value_generic(values_list.begin(), values_list.end(), value); for(int i = 0; i < bone_average_value_node->link_count(); ++i) { Action::Handle action(Action::create("ValueDescSet")); if(!action) throw Error(_("Unable to find action ValueDescSet (bug)")); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("time",time); action->set_param("new_value",values_list[i]); action->set_param("value_desc",ValueDesc(value_desc.get_value_node(), i)); if(!action->is_ready()) throw Error(Error::TYPE_NOTREADY); add_action(action); } return; } } // Set ValueNode_WeightedAverage if(value_desc.is_value_node() && ValueNode_WeightedAverage::check_type(value.get_type())) { if (ValueNode_WeightedAverage::Handle bone_weighted_average_value_node = ValueNode_WeightedAverage::Handle::cast_dynamic(value_desc.get_value_node())) { ValueBase::List values_list; values_list.reserve(bone_weighted_average_value_node->link_count()); for(int i = 0; i < bone_weighted_average_value_node->link_count(); ++i) values_list.push_back((*bone_weighted_average_value_node->get_link(i))(time)); ValueBase values_list_value(values_list); ValueAverage::set_average_value_weighted(values_list_value, value); const ValueBase::List &new_values_list = values_list_value.get_list(); for(int i = 0; i < bone_weighted_average_value_node->link_count(); ++i) { Action::Handle action(Action::create("ValueDescSet")); if(!action) throw Error(_("Unable to find action ValueDescSet (bug)")); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("time",time); action->set_param("new_value",new_values_list[i]); action->set_param("value_desc",ValueDesc(value_desc.get_value_node(), i)); if(!action->is_ready()) throw Error(Error::TYPE_NOTREADY); add_action(action); } return; } } // If we are a bone link value node, then // we need to change the transformation part if(value_desc.is_value_node() && ValueNode_BoneLink::Handle::cast_dynamic(value_desc.get_value_node())) { ValueNode_BoneLink::Handle value_node = ValueNode_BoneLink::Handle::cast_dynamic(value_desc.get_value_node()); ValueDesc base_value_desc(value_node, value_node->get_link_index_from_name("base_value")); ValueBase new_base_value = ValueTransformation::back_transform( value_node->get_bone_transformation(time), value ); Action::Handle action(Action::create("ValueDescSet")); if(!action) throw Error(_("Unable to find action ValueDescSet (bug)")); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("time",time); action->set_param("new_value",new_base_value); action->set_param("value_desc",base_value_desc); if(!action->is_ready()) throw Error(Error::TYPE_NOTREADY); add_action(action); return; } // If we are a composite value node, then // we need to distribute the changes to the // individual parts // except if we are TYPE WIDTHPOINT which is handled individually if(value_desc.is_value_node() && ValueNode_Composite::Handle::cast_dynamic(value_desc.get_value_node()) && value_desc.get_value_node()->get_type()!=type_width_point) { ValueBase components[8]; int n_components(0); Type &type(value.get_type()); if (type == type_vector) { components[0]=value.get(Vector())[0]; components[1]=value.get(Vector())[1]; n_components=2; } else if (type == type_color) { components[0]=value.get(Color()).get_r(); components[1]=value.get(Color()).get_g(); components[2]=value.get(Color()).get_b(); components[3]=value.get(Color()).get_a(); n_components=4; } else if (type == type_segment) { components[0]=value.get(Segment()).p1; components[1]=value.get(Segment()).t1; components[2]=value.get(Segment()).p2; components[3]=value.get(Segment()).t2; n_components=4; } else if (type == type_transformation) { components[0]=value.get(Transformation()).offset; components[1]=value.get(Transformation()).angle; components[2]=value.get(Transformation()).skew_angle; components[3]=value.get(Transformation()).scale; n_components=4; } else if (type == type_bline_point) { components[0]=value.get(BLinePoint()).get_vertex(); components[1]=value.get(BLinePoint()).get_width(); components[2]=value.get(BLinePoint()).get_origin(); components[3]=value.get(BLinePoint()).get_split_tangent_both(); components[4]=value.get(BLinePoint()).get_tangent1(); components[5]=value.get(BLinePoint()).get_tangent2(); components[6]=value.get(BLinePoint()).get_split_tangent_radius(); components[7]=value.get(BLinePoint()).get_split_tangent_angle(); n_components=8; } else if (dynamic_cast<synfig::types_namespace::TypeWeightedValueBase*>(&type) != NULL) { types_namespace::TypeWeightedValueBase *tp = dynamic_cast<synfig::types_namespace::TypeWeightedValueBase*>(&type); components[0]=tp->extract_weight(value); components[1]=tp->extract_value(value); n_components=2; } else throw Error(_("Bad type for composite (%s)"), type.description.local_name.c_str()); for(int i=0;i<n_components;i++) { ValueDesc component_value_desc(ValueNode_Composite::Handle::cast_dynamic(value_desc.get_value_node()),i); Action::Handle action(Action::create("ValueDescSet")); if(!action) throw Error(_("Unable to find action ValueDescSet (bug)")); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("time",time); action->set_param("new_value",components[i]); action->set_param("value_desc",component_value_desc); if(!action->is_ready()) throw Error(Error::TYPE_NOTREADY); add_action(action); } return; } // If we are a RADIAL composite value node, then // we need to distribute the changes to the // individual parts if(value_desc.is_value_node() && ValueNode_RadialComposite::Handle::cast_dynamic(value_desc.get_value_node())) { ValueBase components[6]; int n_components(0); Type &type(value.get_type()); if (type == type_vector) { Angle old_angle = (*(ValueNode_RadialComposite::Handle::cast_dynamic( value_desc.get_value_node())->get_link("theta")))(time).get(Angle()); Vector vect(value.get(Vector())); components[0]=vect.mag(); Angle change = Angle(Angle::tan(vect[1],vect[0])) - old_angle; while (change < Angle::deg(-180)) change += Angle::deg(360); while (change > Angle::deg(180)) change -= Angle::deg(360); components[1]=old_angle + change; n_components=2; } else if (type == type_color) { components[0]=value.get(Color()).get_y(); components[1]=value.get(Color()).get_s(); components[2]=value.get(Color()).get_hue(); components[3]=value.get(Color()).get_a(); n_components=4; } else throw Error(_("Bad type for radial composite (%s)"), type.description.local_name.c_str()); for(int i=0;i<n_components;i++) { ValueDesc component_value_desc(ValueNode_RadialComposite::Handle::cast_dynamic(value_desc.get_value_node()),i); Action::Handle action(Action::create("ValueDescSet")); if(!action) throw Error(_("Unable to find action ValueDescSet (bug)")); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("time",time); action->set_param("new_value",components[i]); action->set_param("value_desc",component_value_desc); if(!action->is_ready()) throw Error(Error::TYPE_NOTREADY); add_action(action); } return; } // Perform reverse manipulations // If we are a scale value node, then edit the link // such that it will scale to our target value if (ValueNode_Scale::Handle scale_value_node = ValueNode_Scale::Handle::cast_dynamic(value_desc.get_value_node())) { if(! scale_value_node->is_invertible(time)) { synfig::warning(_("Attempt to edit scale ValueNode with a scale factor of zero.")); return; } ValueBase new_value; if (value.get_type() == type_angle) new_value = scale_value_node->get_inverse(time, value.get(Angle())); else if(value.get_type() == type_vector) new_value = scale_value_node->get_inverse(time, value.get(Vector())); else if(value.get_type() == type_real) new_value = scale_value_node->get_inverse(time, value.get(Real())); else throw Error(_("Inverse manipulation of %s scale values not implemented in core."), value.type_name().c_str()); Action::Handle action(Action::create("ValueDescSet")); if(!action) throw Error(_("Unable to find action ValueDescSet (bug)")); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("time",time); action->set_param("new_value",new_value); action->set_param("value_desc",ValueDesc(scale_value_node, scale_value_node->get_link_index_from_name("link"))); if(!action->is_ready()) throw Error(Error::TYPE_NOTREADY); add_action(action); return; } // Range: disallow values outside the range if (ValueNode_Range::Handle range_value_node = ValueNode_Range::Handle::cast_dynamic(value_desc.get_value_node())) { ValueBase new_value; if (value.get_type() == type_angle) new_value = range_value_node->get_inverse(time, value.get(Angle())); else throw Error(_("Inverse manipulation of %s range values not implemented in core."), value.type_name().c_str()); Action::Handle action(Action::create("ValueDescSet")); if(!action) throw Error(_("Unable to find action ValueDescSet (bug)")); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("time",time); action->set_param("new_value",new_value); action->set_param("value_desc",ValueDesc(range_value_node,range_value_node->get_link_index_from_name("link"))); if(!action->is_ready()) throw Error(Error::TYPE_NOTREADY); add_action(action); return; } // Integer: integer values only if (ValueNode_Integer::Handle integer_value_node = ValueNode_Integer::Handle::cast_dynamic(value_desc.get_value_node())) { ValueBase new_value; if (value.get_type() == type_angle) new_value = integer_value_node->get_inverse(time, value.get(Angle())); else if(value.get_type() == type_real) new_value = integer_value_node->get_inverse(time, value.get(Real())); else throw Error(_("Inverse manipulation of %s scale values not implemented in core."), value.type_name().c_str()); Action::Handle action(Action::create("ValueDescSet")); if(!action) throw Error(_("Unable to find action ValueDescSet (bug)")); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("time",time); action->set_param("new_value",new_value); action->set_param("value_desc",ValueDesc(integer_value_node,integer_value_node->get_link_index_from_name("link"))); if(!action->is_ready()) throw Error(Error::TYPE_NOTREADY); add_action(action); return; } // Real: Reverse manipulations for Real->Angle convert if (ValueNode_Real::Handle real_value_node = ValueNode_Real::Handle::cast_dynamic(value_desc.get_value_node())) { ValueBase new_value; if (value.get_type() == type_angle) new_value = real_value_node->get_inverse(time, value.get(Angle())); else throw Error(_("Inverse manipulation of %s scale values not implemented in core."), value.type_name().c_str()); Action::Handle action(Action::create("ValueDescSet")); if(!action) throw Error(_("Unable to find action ValueDescSet (bug)")); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("time",time); action->set_param("new_value",new_value); action->set_param("value_desc",ValueDesc(real_value_node,real_value_node->get_link_index_from_name("link"))); if(!action->is_ready()) throw Error(Error::TYPE_NOTREADY); add_action(action); return; } // BlineCalcWidth: modify the scale value node // so that the target width is achieved if (ValueNode_BLineCalcWidth::Handle bline_width = ValueNode_BLineCalcWidth::Handle::cast_dynamic(value_desc.get_value_node())) { Real old_width((*bline_width)(time).get(Real())); Real scale((*(bline_width->get_link("scale")))(time).get(Real())); ValueBase new_width(value.get(Real()) * scale / old_width); Action::Handle action(Action::create("ValueDescSet")); if(!action) throw Error(_("Unable to find action ValueDescSet (bug)")); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("time",time); action->set_param("new_value",new_width); action->set_param("value_desc",ValueDesc(bline_width, bline_width->get_link_index_from_name("scale"))); if(!action->is_ready()) throw Error(Error::TYPE_NOTREADY); add_action(action); return; } // BLineCalcVertex: snap the point to the nearest // allowed position. if (ValueNode_BLineCalcVertex::Handle bline_vertex = ValueNode_BLineCalcVertex::Handle::cast_dynamic(value_desc.get_value_node())) { ValueNode_BLine::Handle bline = ValueNode_BLine::Handle::cast_dynamic(bline_vertex->get_link("bline")); Real radius = 0.0; Real new_amount; if (((*(bline_vertex->get_link("loop")))(time).get(bool()))) { // The bline is looped. Animation may require an amount parameter // outside the range of 0-1, so make sure that the amount does // not change drastically. Real amount_old((*(bline_vertex->get_link("amount")))(time).get(Real())); Real amount_new = synfig::find_closest_point((*bline)(time), value.get(Vector()), radius, bline->get_loop()); Real difference = fmod( fmod(amount_new - amount_old, 1.0) + 1.0 , 1.0); //fmod is called twice to avoid negative values if (difference > 0.5) difference=difference-1.0; new_amount = amount_old+difference; } else new_amount = synfig::find_closest_point((*bline)(time), value.get(Vector()), radius, bline->get_loop()); bool homogeneous((*(bline_vertex->get_link("homogeneous")))(time).get(bool())); if(homogeneous) new_amount=std_to_hom((*bline)(time), new_amount, (*(bline_vertex->get_link("loop")))(time).get(bool()), bline->get_loop() ); Action::Handle action(Action::create("ValueDescSet")); if(!action) throw Error(_("Unable to find action ValueDescSet (bug)")); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("time",time); action->set_param("new_value",new_amount); action->set_param("value_desc",ValueDesc(bline_vertex, bline_vertex->get_link_index_from_name("amount"))); if(!action->is_ready()) throw Error(Error::TYPE_NOTREADY); add_action(action); return; } // BLineCalcTangent: adjust scale and offset // to achieve the desired tangent if (ValueNode_BLineCalcTangent::Handle bline_tangent = ValueNode_BLineCalcTangent::Handle::cast_dynamic(value_desc.get_value_node())) { ValueBase new_scale; ValueDesc scale_value_desc(bline_tangent,bline_tangent->get_link_index_from_name("scale")); ValueDesc offset_value_desc(bline_tangent,bline_tangent->get_link_index_from_name("offset")); Type &type(value_desc.get_value_type()); if (type == type_real) { Real old_length = (*bline_tangent)(time).get(Real()); Real new_length = value.get(Vector()).mag(); Real scale((*(bline_tangent->get_link("scale")))(time).get(Real())); bool fixed_length((*(bline_tangent->get_link("fixed_length")))(time).get(bool())); if (fixed_length) { new_scale = new_length; } else { if (old_length == 0) return; new_scale = new_length * scale / old_length; } } else if (type == type_vector) { Vector old_tangent = (*bline_tangent)(time).get(Vector()); Angle old_angle = old_tangent.angle(); Real old_length = old_tangent.mag(); Angle new_angle = value.get(Vector()).angle(); Real new_length = value.get(Vector()).mag(); Angle old_offset((*(bline_tangent->get_link("offset")))(time).get(Angle())); Real scale((*(bline_tangent->get_link("scale")))(time).get(Real())); bool fixed_length((*(bline_tangent->get_link("fixed_length")))(time).get(bool())); if (fixed_length) { new_scale = new_length; } else if (old_length != 0) { new_scale = new_length * scale / old_length; Action::Handle action(Action::create("ValueDescSet")); if(!action) throw Error(_("Unable to find action ValueDescSet (bug)")); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("time",time); action->set_param("new_value", ValueBase(old_offset + new_angle - old_angle)); action->set_param("value_desc",offset_value_desc); if(!action->is_ready()) throw Error(Error::TYPE_NOTREADY); add_action(action); } } else if (type == type_angle) { Angle old_angle = (*bline_tangent)(time).get(Angle()); Angle new_angle = value.get(Angle()); Angle old_offset((*(bline_tangent->get_link("offset")))(time).get(Angle())); Action::Handle action(Action::create("ValueDescSet")); if(!action) throw Error(_("Unable to find action ValueDescSet (bug)")); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("time",time); action->set_param("new_value", ValueBase(old_offset + new_angle - old_angle)); action->set_param("value_desc",offset_value_desc); if(!action->is_ready()) throw Error(Error::TYPE_NOTREADY); add_action(action); return; } if (new_scale.get(bool())) { Action::Handle action(Action::create("ValueDescSet")); if(!action) throw Error(_("Unable to find action ValueDescSet (bug)")); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("time",time); action->set_param("new_value",new_scale); action->set_param("value_desc",scale_value_desc); if(!action->is_ready()) throw Error(Error::TYPE_NOTREADY); add_action(action); } return; } // end reverse manipulations // WidthPoint Composite: adjust the width point position // to achieve the desired point on bline // (Code copied from BLineCalcVertex above) if (value_desc.parent_is_linkable_value_node() && value_desc.get_parent_value_node()->get_type() == type_list) { if(ValueNode_DynamicList::Handle::cast_dynamic(value_desc.get_parent_value_node())->get_contained_type() == type_width_point) { ValueNode_WPList::Handle wplist=ValueNode_WPList::Handle::cast_dynamic(value_desc.get_parent_value_node()); if(wplist) { bool wplistloop(wplist->get_loop()); ValueNode_BLine::Handle bline(ValueNode_BLine::Handle::cast_dynamic(wplist->get_bline())); ValueNode_Composite::Handle wpoint_composite(ValueNode_Composite::Handle::cast_dynamic(value_desc.get_value_node())); if(bline && wpoint_composite) { bool blineloop(bline->get_loop()); // Retrieve the homogeneous layer parameter bool homogeneous=false; Layer::Handle layer_parent; std::set<Node*>::iterator iter; for(iter=wplist->parent_set.begin();iter!=wplist->parent_set.end();++iter) { Layer::Handle layer; layer=Layer::Handle::cast_dynamic(*iter); if(layer && layer->get_name() == "advanced_outline") { homogeneous=layer->get_param("homogeneous").get(bool()); break; } } Real radius = 0.0; Real new_amount; WidthPoint wp((*wpoint_composite)(time).get(WidthPoint())); if (wplistloop) { // The wplist is looped. Animation may require a position parameter // outside the range of 0-1, so make sure that the position doesn't // change drastically. Real amount_old(wp.get_norm_position(wplistloop)); Real amount_old_b(wp.get_bound_position(wplistloop)); // If it is homogeneous then convert it to standard amount_old=homogeneous?hom_to_std((*bline)(time), amount_old, wplistloop, blineloop):amount_old; // grab a new position given by duck's position on the bline Real amount_new = synfig::find_closest_point((*bline)(time), value.get(Vector()), radius, blineloop); // calculate the difference between old and new amounts Real difference = fmod( fmod(amount_new - amount_old, 1.0) + 1.0 , 1.0); //fmod is called twice to avoid negative values if (difference > 0.5) difference=difference-1.0; // calculate a new value for the position new_amount=amount_old+difference; // restore the homogeneous value if needed new_amount = homogeneous ? std_to_hom((*bline)(time), new_amount, wplistloop, blineloop) : new_amount; // this is the difference between the new amount and the old amount inside the boundaries Real bound_diff((wp.get_lower_bound() + new_amount*(wp.get_upper_bound()-wp.get_lower_bound()))-amount_old_b); // add the new diff to the current amount new_amount = wp.get_position() + bound_diff; } else { // grab a new amount given by duck's position on the bline new_amount = synfig::find_closest_point((*bline)(time), value.get(Vector()), radius, blineloop); // if it is homogeneous then convert to it new_amount = homogeneous ? std_to_hom((*bline)(time), new_amount, wplistloop, blineloop) : new_amount; // convert the value inside the boundaries new_amount = wp.get_lower_bound()+new_amount*(wp.get_upper_bound()-wp.get_lower_bound()); } Action::Handle action(Action::create("ValueDescSet")); if(!action) throw Error(_("Unable to find action ValueDescSet (bug)")); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("time",time); action->set_param("new_value",new_amount); action->set_param("value_desc",ValueDesc(wpoint_composite, wpoint_composite->get_link_index_from_name("position"))); if(!action->is_ready()) throw Error(Error::TYPE_NOTREADY); add_action(action); return; } } } } // end reverse manipulations // if value desc has parent value node and parent is composite widthpoint type and index is 4 or 5 // then we are changing the value of a widthpoint boundary. // It is needed to check that we aren't doing the boundary range zero if(value_desc.parent_is_value_node() && ValueNode_Composite::Handle::cast_dynamic(value_desc.get_parent_value_node())) { ValueNode_Composite::Handle parent_value_node; parent_value_node=parent_value_node.cast_dynamic(value_desc.get_parent_value_node()); assert(parent_value_node); int i=value_desc.get_index(); if(parent_value_node->get_type() == type_width_point && (i==4 || i==5)) { ValueNode::Handle low(parent_value_node->get_link("lower_bound")); ValueNode::Handle upp(parent_value_node->get_link("upper_bound")); Real new_value(value.get(Real())); Real lower = (*low)(Time(0.0)).get(Real()); Real upper = (*upp)(Time(0.0)).get(Real()); if( (i==4 && new_value > (upper- 0.00000001)) || (i==5 && new_value < (lower+ 0.00000001)) ) { throw Error(_("It is forbidden to set lower boundary equal or bigger than upper boundary")); return; } } } // If we are changing the z_depth range parameters // send a signal to the canvas interface to say that the layer has changed if(value_desc.parent_is_layer_param() && (value_desc.get_param_name() =="z_range" || value_desc.get_param_name() =="z_range_position" || value_desc.get_param_name() =="z_range_depth") ) { if (get_canvas_interface() && recursive) { get_canvas_interface()->signal_layer_z_range_changed()(value_desc.get_layer(),true); } } // If we are in animate editing mode // TODO: Can we replace local_value to value after all parameters will be converted into ValueBase type? if((animate || get_edit_mode()&MODE_ANIMATE) && !value_desc.get_static()) { ValueNode_Animated::Handle& value_node(value_node_animated); // If this value isn't a ValueNode_Animated, but // it is somewhat constant, then go ahead and convert // it to a ValueNode_Animated. if(!value_desc.is_value_node() || ValueNode_Const::Handle::cast_dynamic(value_desc.get_value_node())) { ValueBase value; if(value_desc.is_value_node()) value=ValueNode_Const::Handle::cast_dynamic(value_desc.get_value_node())->get_value(); else value=value_desc.get_value(); Interpolation interp=value.get_interpolation(); if(!value_node)value_node=ValueNode_Animated::create(value,time); // Be sure that the newly created waypoint is set with the default // interpolations. synfig::ValueNode_Animated::WaypointList::iterator iter(value_node->find(time)); iter->set_before(interp==INTERPOLATION_UNDEFINED?synfigapp::Main::get_interpolation():interp); iter->set_after(interp==INTERPOLATION_UNDEFINED?synfigapp::Main::get_interpolation():interp); value_node->set_interpolation(interp); Action::Handle action; if(!value_desc.is_value_node()) { action=(ValueDescConnect::create()); action->set_param("dest",value_desc); action->set_param("src",ValueNode::Handle(value_node)); } else { action=Action::create("ValueNodeReplace"); action->set_param("dest",value_desc.get_value_node()); action->set_param("src",ValueNode::Handle(value_node)); } action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); if(!action->is_ready()) throw Error(Error::TYPE_NOTREADY); add_action_front(action); } else { value_node=value_node.cast_dynamic(value_desc.get_value_node()); } if(!value_node) throw Error(_("Direct manipulation of this ValueNode type is not yet supported")); synfig::ValueNode_Animated::WaypointList::iterator iter; Waypoint waypoint; Action::Handle action(WaypointSetSmart::create()); try { iter=value_node->find(time); // value_node->find throws an exception // when no waypoint is found at given time waypoint=*iter; }catch(Exception::NotFound) { waypoint=value_node->new_waypoint_at_time(time); Interpolation inter=value_node->get_interpolation(); waypoint.set_before(inter==INTERPOLATION_UNDEFINED?synfigapp::Main::get_interpolation():inter); waypoint.set_after(inter==INTERPOLATION_UNDEFINED?synfigapp::Main::get_interpolation():inter); } waypoint.set_value(value); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("value_node",ValueNode::Handle(value_node)); action->set_param("waypoint",waypoint); if(!action->is_ready()) throw Error(Error::TYPE_NOTREADY); add_action(action); return; } else // We are not in animate editing mode { if(value_desc.is_value_node()) { if(ValueNode_Const::Handle::cast_dynamic(value_desc.get_value_node())) { Action::Handle action(ValueNodeConstSet::create()); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("value_node",value_desc.get_value_node()); action->set_param("new_value",value); if(!action->is_ready()) throw Error(Error::TYPE_NOTREADY); add_action_front(action); return; } else if(ValueNode_Animated::Handle::cast_dynamic(value_desc.get_value_node())) { // If we are in not animate mode let's assume that the user wants to offset the // animated value node by the difference. // this is valid only for value types that allows it. ValueNode_Animated::Handle animated=ValueNode_Animated::Handle::cast_dynamic(value_desc.get_value_node()); Waypoint waypoint; Type &type=animated->get_type(); Type &value_type=value.get_type(); if(value_type==type && ( type == type_integer || type == type_angle || type == type_time || type == type_real || type == type_vector) ) { synfig::ValueNode_Animated::WaypointList::const_iterator iter; for(iter=animated->waypoint_list().begin(); iter<animated->waypoint_list().end(); iter++) { waypoint=*iter; ValueBase waypoint_value(waypoint.get_value()); if (type == type_integer) waypoint_value=ValueBase(waypoint_value.get(int())+value.get(int())-(*animated)(time).get(int())); else if (type == type_angle) waypoint_value=ValueBase(waypoint_value.get(Angle())+value.get(Angle())-(*animated)(time).get(Angle())); else if (type == type_time) waypoint_value=ValueBase(waypoint_value.get(Time())+value.get(Time())-(*animated)(time).get(Time())); else if (type == type_real) waypoint_value=ValueBase(waypoint_value.get(Real())+value.get(Real())-(*animated)(time).get(Real())); else if (type == type_vector) waypoint_value=ValueBase(waypoint_value.get(Vector())+value.get(Vector())-(*animated)(time).get(Vector())); waypoint.set_value(waypoint_value); Action::Handle action(WaypointSet::create()); action->set_param("canvas",get_canvas()); action->set_param("canvas_interface",get_canvas_interface()); action->set_param("value_node",ValueNode::Handle(animated)); action->set_param("waypoint",waypoint); if(!action->is_ready()) throw Error(Error::TYPE_NOTREADY); add_action(action); } return; } else throw Error(_("You must be in Animate-Editing-Mode to directly manipulate this value")); } else throw Error(_("Direct manipulation of this ValueNode type is not yet supported")); } else if(value_desc.parent_is_layer_param() && !value_desc.is_value_node()) { Action::Handle layer_param_set(LayerParamSet::create()); layer_param_set->set_param("canvas",get_canvas()); layer_param_set->set_param("canvas_interface",get_canvas_interface()); layer_param_set->set_param("layer",value_desc.get_layer()); layer_param_set->set_param("param",value_desc.get_param_name()); layer_param_set->set_param("new_value",value); if(!layer_param_set->is_ready()) throw Error(Error::TYPE_NOTREADY); add_action_front(layer_param_set); return; } throw Error(_("Unsupported ValueDesc type")); } }
void Renderer_Ducks::render_vfunc( const Glib::RefPtr<Gdk::Drawable>& drawable, const Gdk::Rectangle& /*expose_area*/ ) { assert(get_work_area()); if(!get_work_area()) return; const synfig::Point window_start(get_work_area()->get_window_tl()); const float pw(get_pw()),ph(get_ph()); const bool solid_lines(get_work_area()->solid_lines); bool alternative = get_work_area()->get_alternative_mode(); const std::list<etl::handle<Duckmatic::Bezier> >& bezier_list(get_work_area()->bezier_list()); const std::list<handle<Duckmatic::Stroke> >& stroke_list(get_work_area()->stroke_list()); Glib::RefPtr<Pango::Layout> layout(Pango::Layout::create(get_work_area()->get_pango_context())); Cairo::RefPtr<Cairo::Context> cr = drawable->create_cairo_context(); cr->save(); cr->set_line_cap(Cairo::LINE_CAP_BUTT); cr->set_line_join(Cairo::LINE_JOIN_MITER); // Render the strokes for(std::list<handle<Duckmatic::Stroke> >::const_iterator iter=stroke_list.begin();iter!=stroke_list.end();++iter) { cr->save(); std::list<synfig::Point>::iterator iter2; for(iter2=(*iter)->stroke_data->begin();iter2!=(*iter)->stroke_data->end();++iter2) { cr->line_to( ((*iter2)[0]-window_start[0])/pw, ((*iter2)[1]-window_start[1])/ph ); } cr->set_line_width(1.0); cr->set_source_rgb( colorconv_synfig2gdk((*iter)->color).get_red_p(), colorconv_synfig2gdk((*iter)->color).get_green_p(), colorconv_synfig2gdk((*iter)->color).get_blue_p() ); cr->stroke(); cr->restore(); } // Render the beziers for(std::list<handle<Duckmatic::Bezier> >::const_iterator iter=bezier_list.begin();iter!=bezier_list.end();++iter) { Point p1((*iter)->p1->get_trans_point()-window_start); Point p2((*iter)->p2->get_trans_point()-window_start); Point c1((*iter)->c1->get_trans_point()-window_start); Point c2((*iter)->c2->get_trans_point()-window_start); p1[0]/=pw;p1[1]/=ph; p2[0]/=pw;p2[1]/=ph; c1[0]/=pw;c1[1]/=ph; c2[0]/=pw;c2[1]/=ph; cr->save(); cr->move_to(p1[0], p1[1]); cr->curve_to(c1[0], c1[1], c2[0], c2[1], p2[0], p2[1]); /* if (solid_lines) { cr->set_source_rgb(0,0,0); // DUCK_COLOR_BEZIER_1 cr->set_line_width(3.0); cr->stroke_preserve(); cr->set_source_rgb(175.0/255.0,175.0/255.0,175.0/255.0); //DUCK_COLOR_BEZIER_2 cr->set_line_width(1.0); cr->stroke(); } else */ { //Solid line background cr->set_line_width(1.0); cr->set_source_rgb(0,0,0); // DUCK_COLOR_BEZIER_1 cr->stroke_preserve(); //Dashes cr->set_source_rgb(175.0/255.0,175.0/255.0,175.0/255.0); //DUCK_COLOR_BEZIER_2 std::valarray<double> dashes(2); dashes[0]=5.0; dashes[1]=5.0; cr->set_dash(dashes, 0); cr->stroke(); } cr->restore(); } const DuckList duck_list(get_work_area()->get_duck_list()); std::list<ScreenDuck> screen_duck_list; const float radius((abs(pw)+abs(ph))*4); etl::handle<Duck> hover_duck(get_work_area()->find_duck(get_work_area()->get_cursor_pos(),radius, get_work_area()->get_type_mask())); // Render the ducks for(std::list<handle<Duck> >::const_iterator iter=duck_list.begin();iter!=duck_list.end();++iter) { // If this type of duck has been masked, then skip it if(!(*iter)->get_type() || (!(get_work_area()->get_type_mask() & (*iter)->get_type()))) continue; Point sub_trans_point((*iter)->get_sub_trans_point()); Point sub_trans_origin((*iter)->get_sub_trans_origin()); if (App::restrict_radius_ducks && (*iter)->is_radius()) { if (sub_trans_point[0] < sub_trans_origin[0]) sub_trans_point[0] = sub_trans_origin[0]; if (sub_trans_point[1] < sub_trans_origin[1]) sub_trans_point[1] = sub_trans_origin[1]; } Point point((*iter)->get_transform_stack().perform(sub_trans_point)); Point origin((*iter)->get_transform_stack().perform(sub_trans_origin)); point[0]=(point[0]-window_start[0])/pw; point[1]=(point[1]-window_start[1])/ph; bool has_connect = (*iter)->get_tangent() || ((*iter)->get_type()&( Duck::TYPE_ANGLE | Duck::TYPE_SKEW | Duck::TYPE_SCALE_X | Duck::TYPE_SCALE_Y )); if((*iter)->get_connect_duck()) { has_connect=true; origin=(*iter)->get_connect_duck()->get_trans_point(); } origin[0]=(origin[0]-window_start[0])/pw; origin[1]=(origin[1]-window_start[1])/ph; bool selected(get_work_area()->duck_is_selected(*iter)); bool hover(*iter==hover_duck || (*iter)->get_hover()); if(get_work_area()->get_selected_value_node()) { synfigapp::ValueDesc value_desc((*iter)->get_value_desc()); if (value_desc.is_valid() && ((value_desc.is_value_node() && get_work_area()->get_selected_value_node() == value_desc.get_value_node()) || (value_desc.parent_is_value_node() && get_work_area()->get_selected_value_node() == value_desc.get_parent_value_node()))) { cr->save(); cr->rectangle( round_to_int(point[0]-5), round_to_int(point[1]-5), 10, 10 ); cr->set_line_width(2.0); cr->set_source_rgb(1, 0, 0); //DUCK_COLOR_SELECTED cr->stroke(); cr->restore(); } } if((*iter)->get_box_duck()) { Point boxpoint((*iter)->get_box_duck()->get_trans_point()); boxpoint[0]=(boxpoint[0]-window_start[0])/pw; boxpoint[1]=(boxpoint[1]-window_start[1])/ph; Point tl(min(point[0],boxpoint[0]),min(point[1],boxpoint[1])); cr->save(); cr->rectangle( round_to_int(tl[0]), round_to_int(tl[1]), round_to_int(abs(boxpoint[0]-point[0])), round_to_int(abs(boxpoint[1]-point[1])) ); // Solid white box cr->set_line_width(1.0); cr->set_source_rgb(1,1,1); //DUCK_COLOR_BOX_1 cr->stroke_preserve(); // Dashes cr->set_source_rgb(0,0,0); //DUCK_COLOR_BOX_2 std::valarray<double> dashes(2); dashes[0]=5.0; dashes[1]=5.0; cr->set_dash(dashes, 0); cr->stroke(); cr->restore(); } if((*iter)->is_axes_tracks()) { Point pos((*iter)->get_point()); Point points[] = { (*iter)->get_sub_trans_origin(), (*iter)->get_sub_trans_point(Point(pos[0],0)), (*iter)->get_sub_trans_point(), (*iter)->get_sub_trans_point(Point(0,pos[1])), (*iter)->get_sub_trans_origin() }; cr->save(); for(int i = 0; i < 5; i++) { Point p((*iter)->get_transform_stack().perform(points[i])); Real x = (p[0]-window_start[0])/pw; Real y = (p[1]-window_start[1])/ph; if (i == 0) cr->move_to(x, y); else cr->line_to(x, y); } // Solid white box cr->set_line_width(1.0); cr->set_source_rgb(1,1,1); //DUCK_COLOR_BOX_1 cr->stroke_preserve(); // Dashes cr->set_source_rgb(0,0,0); //DUCK_COLOR_BOX_2 std::valarray<double> dashes(2); dashes[0]=5.0; dashes[1]=5.0; cr->set_dash(dashes, 0); cr->stroke(); cr->restore(); } ScreenDuck screen_duck; screen_duck.pos=point; screen_duck.selected=selected; screen_duck.hover=hover; screen_duck.has_alternative=(*iter)->get_alternative_value_desc().is_valid(); if(!(*iter)->get_editable(alternative)) screen_duck.color=(DUCK_COLOR_NOT_EDITABLE); else if((*iter)->get_tangent()) if(0){ // Tangents have different color depending on the split state (disabled for now) // // Check if we can reach the canvas and set the time to // evaluate the split value accordingly synfig::Canvas::Handle canvas_h(get_work_area()->get_canvas()); synfig::Time time(canvas_h?canvas_h->get_time():synfig::Time(0)); // Retrieve the split value of the bline point. const synfigapp::ValueDesc& v_d((*iter)->get_value_desc()); synfig::LinkableValueNode::Handle parent; if(v_d.parent_is_linkable_value_node()) { parent=v_d.get_parent_value_node(); bool split; synfig::ValueNode::Handle child(parent->get_link("split")); if(synfig::ValueNode_Animated::Handle::cast_dynamic(child)) { synfig::ValueNode_Animated::Handle animated_child(synfig::ValueNode_Animated::Handle::cast_dynamic(child)); split=animated_child->new_waypoint_at_time(time).get_value(time).get(split); } else if(synfig::ValueNode_Const::Handle::cast_dynamic(child)) { synfig::ValueNode_Const::Handle const_child(synfig::ValueNode_Const::Handle::cast_dynamic(child)); split=(const_child->get_value()).get(split); } screen_duck.color=(split? DUCK_COLOR_TANGENT_2 : DUCK_COLOR_TANGENT_1); } else screen_duck.color=DUCK_COLOR_TANGENT_1; } else { // All tangents are the same color screen_duck.color=((*iter)->get_scalar()<0 ? DUCK_COLOR_TANGENT_1 : DUCK_COLOR_TANGENT_1); } else if((*iter)->get_type()&Duck::TYPE_VERTEX) screen_duck.color=DUCK_COLOR_VERTEX; else if((*iter)->get_type()&Duck::TYPE_RADIUS) screen_duck.color=((*iter)->is_linear() ? DUCK_COLOR_LINEAR : DUCK_COLOR_RADIUS); else if((*iter)->get_type()&Duck::TYPE_WIDTH) screen_duck.color=DUCK_COLOR_WIDTH; else if((*iter)->get_type()&Duck::TYPE_ANGLE) screen_duck.color=(DUCK_COLOR_ANGLE); else if((*iter)->get_type()&Duck::TYPE_WIDTHPOINT_POSITION) screen_duck.color=(DUCK_COLOR_WIDTHPOINT_POSITION); else screen_duck.color=DUCK_COLOR_OTHER; screen_duck_list.push_front(screen_duck); if(has_connect) { cr->save(); cr->move_to(origin[0], origin[1]); cr->line_to(point[0], point[1]); if(solid_lines) { // Outside cr->set_line_width(3.0); cr->set_source_rgb(0,0,0); //DUCK_COLOR_CONNECT_OUTSIDE cr->stroke_preserve(); // Inside cr->set_line_width(1.0); cr->set_source_rgb(159.0/255,239.0/255,239.0/255); //DUCK_COLOR_CONNECT_INSIDE cr->stroke(); } else { // White background cr->set_line_width(1.0); cr->set_source_rgb(0,0,0); //DUCK_COLOR_CONNECT_OUTSIDE cr->stroke_preserve(); // Dashes on top of the background cr->set_source_rgb(159.0/255,239.0/255,239.0/255); //DUCK_COLOR_CONNECT_INSIDE std::valarray<double> dashes(2); dashes[0]=5.0; dashes[1]=5.0; cr->set_dash(dashes, 0); cr->stroke(); } cr->restore(); } if((*iter)->is_radius()) { if (!(*iter)->is_linear()) { const Real mag((point-origin).mag()); cr->save(); cr->arc( origin[0], origin[1], mag, 0, M_PI*2 ); if(solid_lines) { cr->set_line_width(3.0); cr->set_source_rgb(0,0,0); cr->stroke_preserve(); cr->set_source_rgb(175.0/255.0,175.0/255.0,175.0/255.0); } else { cr->set_source_rgb(1.0,1.0,1.0); // Operator difference was added in Cairo 1.9.4 // It currently isn't supported by Cairomm #if CAIRO_VERSION >= 10904 cairo_set_operator(cr->cobj(), CAIRO_OPERATOR_DIFFERENCE); #else // Fallback: set color to black cr->set_source_rgb(0,0,0); #endif } cr->set_line_width(1.0); cr->stroke(); cr->restore(); } if(hover) { Real mag; if ((*iter)->get_exponential()){ mag = log((*iter)->get_point().mag()); } else if (App::restrict_radius_ducks) { Point sub_trans_point((*iter)->get_sub_trans_point()); Point sub_trans_origin((*iter)->get_sub_trans_origin()); if (sub_trans_point[0] < sub_trans_origin[0]) sub_trans_point[0] = sub_trans_origin[0]; if (sub_trans_point[1] < sub_trans_origin[1]) sub_trans_point[1] = sub_trans_origin[1]; Point point((*iter)->get_transform_stack().perform(sub_trans_point)); Point origin((*iter)->get_transform_stack().perform(sub_trans_origin)); mag = (point-origin).mag(); } else mag = ((*iter)->get_trans_point()-(*iter)->get_trans_origin()).mag(); Distance real_mag(mag, Distance::SYSTEM_UNITS); if (!(*iter)->get_exponential()) real_mag.convert(App::distance_system,get_work_area()->get_rend_desc()); cr->save(); layout->set_text(real_mag.get_string()); cr->set_source_rgb(0,0,0); // DUCK_COLOR_WIDTH_TEXT_1 cr->move_to( point[0]+1+6, point[1]+1-8 ); layout->show_in_cairo_context(cr); cr->stroke(); cr->set_source_rgb(1,0,1); // DUCK_COLOR_WIDTH_TEXT_2 cr->move_to( point[0]+6, point[1]-8 ); layout->show_in_cairo_context(cr); cr->stroke(); cr->restore(); } } if((*iter)->get_type()&&Duck::TYPE_WIDTHPOINT_POSITION) { if(hover) { synfig::Canvas::Handle canvas_h(get_work_area()->get_canvas()); synfig::Time time(canvas_h?canvas_h->get_time():synfig::Time(0)); synfigapp::ValueDesc value_desc((*iter)->get_value_desc()); synfig::ValueNode_WPList::Handle wplist=NULL; ValueNode_Composite::Handle wpoint_composite=NULL; Real radius=0.0; Real new_value; Point p(sub_trans_point-sub_trans_origin); if(value_desc.parent_is_value_node()) wplist=synfig::ValueNode_WPList::Handle::cast_dynamic(value_desc.get_parent_value_node()); if(wplist) { bool wplistloop(wplist->get_loop()); synfig::ValueNode_BLine::Handle bline(synfig::ValueNode_BLine::Handle::cast_dynamic(wplist->get_bline())); wpoint_composite=ValueNode_Composite::Handle::cast_dynamic(value_desc.get_value_node()); if(bline && wpoint_composite) { bool blineloop(bline->get_loop()); bool homogeneous=false; // Retrieve the homogeneous layer parameter std::set<Node*>::iterator iter; for(iter=wplist->parent_set.begin();iter!=wplist->parent_set.end();++iter) { Layer::Handle layer; layer=Layer::Handle::cast_dynamic(*iter); if(layer && layer->get_name() == "advanced_outline") { homogeneous=layer->get_param("homogeneous").get(bool()); break; } } WidthPoint wp((*wpoint_composite)(time).get(WidthPoint())); if(wplistloop) { // The wplist is looped. This may require a position parameter // outside the range of 0-1, so make sure that the position doesn't // change drastically. // First normalise the current position Real value_old(wp.get_norm_position(wplistloop)); Real value_old_b(wp.get_bound_position(wplistloop)); // If it is homogeneous then convert it to standard value_old=homogeneous?hom_to_std((*bline)(time), value_old, wplistloop, blineloop):value_old; // grab a new position given by duck's position on the bline Real value_new = synfig::find_closest_point((*bline)(time), p , radius, blineloop); // calculate the difference between old and new positions Real difference = fmod( fmod(value_new - value_old, 1.0) + 1.0 , 1.0); //fmod is called twice to avoid negative values if (difference > 0.5) difference=difference-1.0; // calculate a new value for the position new_value=value_old+difference; // restore the homogeneous value if needed new_value = homogeneous?std_to_hom((*bline)(time), new_value, wplistloop, blineloop):new_value; // this is the difference between the new value and the old value inside the boundaries Real bound_diff((wp.get_lower_bound() + new_value*(wp.get_upper_bound()-wp.get_lower_bound()))-value_old_b); // add the new diff to the current value new_value = wp.get_position() + bound_diff; } else { // grab a new position given by duck's position on the bline new_value = synfig::find_closest_point((*bline)(time), p , radius, blineloop); // if it is homogeneous then convert to it new_value=homogeneous?std_to_hom((*bline)(time), new_value, wplistloop, blineloop):new_value; // convert the value inside the boundaries new_value = wp.get_lower_bound()+new_value*(wp.get_upper_bound()-wp.get_lower_bound()); } cr->save(); layout->set_text(strprintf("%2.3f", new_value)); cr->set_source_rgb(0,0,0); // DUCK_COLOR_WIDTH_TEXT_1 cr->move_to( point[0]+1+6, point[1]+1-18 ); layout->show_in_cairo_context(cr); cr->stroke(); cr->set_source_rgb(1,0,1); // DUCK_COLOR_WIDTH_TEXT_2 cr->move_to( point[0]+6, point[1]-18 ); layout->show_in_cairo_context(cr); cr->stroke(); cr->restore(); } } } } } for(;screen_duck_list.size();screen_duck_list.pop_front()) { Gdk::Color color(screen_duck_list.front().color); double radius = 4; double outline = 1; bool duck_alternative = alternative && screen_duck_list.front().has_alternative; // Draw the hovered duck last (on top of everything) if(screen_duck_list.front().hover && !screen_duck_list.back().hover && screen_duck_list.size()>1) { screen_duck_list.push_back(screen_duck_list.front()); continue; } cr->save(); if(!screen_duck_list.front().selected) { color.set_red(color.get_red()*2/3); color.set_green(color.get_green()*2/3); color.set_blue(color.get_blue()*2/3); } if(screen_duck_list.front().hover) { radius += 1; outline += 1; } cr->arc( screen_duck_list.front().pos[0], screen_duck_list.front().pos[1], radius, 0, M_PI*2 ); cr->set_source_rgba( color.get_red_p(), color.get_green_p(), color.get_blue_p(), duck_alternative ? 0.5 : 1.0 ); cr->fill_preserve(); cr->set_line_width(outline); cr->set_source_rgba(0,0,0,1); //DUCK_COLOR_OUTLINE cr->stroke(); cr->restore(); } }