/** \file * LPE interpolate implementation */ /* * Authors: * Johan Engelen * * Copyright (C) Johan Engelen 2007-2008 * * Released under GNU GPL, read the file 'COPYING' for more information */ #include "live_effects/lpe-interpolate.h" #include <2geom/sbasis-to-bezier.h> #include "sp-path.h" #include "display/curve.h" // TODO due to internal breakage in glibmm headers, this must be last: #include namespace Inkscape { namespace LivePathEffect { LPEInterpolate::LPEInterpolate(LivePathEffectObject *lpeobject) : Effect(lpeobject), trajectory_path(_("Trajectory:"), _("Path along which intermediate steps are created."), "trajectory", &wr, this, "M0,0 L0,0"), number_of_steps(_("Steps_:"), _("Determines the number of steps from start to end path."), "steps", &wr, this, 5), equidistant_spacing(_("E_quidistant spacing"), _("If true, the spacing between intermediates is constant along the length of the path. If false, the distance depends on the location of the nodes of the trajectory path."), "equidistant_spacing", &wr, this, true) { show_orig_path = true; registerParameter(&trajectory_path); registerParameter(&equidistant_spacing); registerParameter(&number_of_steps); number_of_steps.param_make_integer(); number_of_steps.param_set_range(2, Geom::infinity()); } LPEInterpolate::~LPEInterpolate() { } /* * interpolate path_in[0] to path_in[1] */ Geom::PathVector LPEInterpolate::doEffect_path (Geom::PathVector const & path_in) { if ( (path_in.size() < 2) || (number_of_steps < 2)) { return path_in; } // Don't allow empty path parameter: if ( trajectory_path.get_pathvector().empty() ) { return path_in; } Geom::PathVector path_out; Geom::Piecewise > pwd2_A = path_in[0].toPwSb(); Geom::Piecewise > pwd2_B = path_in[1].toPwSb(); // Transform both paths to (0,0) midpoint, so they can easily be positioned along interpolate_path if (Geom::OptRect bounds = Geom::bounds_exact(pwd2_A)) { pwd2_A -= bounds->midpoint(); } if (Geom::OptRect bounds = Geom::bounds_exact(pwd2_B)) { pwd2_B -= bounds->midpoint(); } // Make sure both paths have the same number of segments and cuts at the same locations pwd2_B.setDomain(pwd2_A.domain()); Geom::Piecewise > pA = Geom::partition(pwd2_A, pwd2_B.cuts); Geom::Piecewise > pB = Geom::partition(pwd2_B, pwd2_A.cuts); Geom::Piecewise > trajectory = trajectory_path.get_pathvector()[0].toPwSb(); if (equidistant_spacing) trajectory = Geom::arc_length_parametrization(trajectory); Geom::Interval trajectory_domain = trajectory.domain(); for (int i = 0; i < number_of_steps; ++i) { double fraction = i / (number_of_steps-1); Geom::Piecewise > pResult = pA*(1-fraction) + pB*fraction; pResult += trajectory.valueAt(trajectory_domain.min() + fraction*trajectory_domain.extent()); Geom::PathVector pathv = Geom::path_from_piecewise(pResult, LPE_CONVERSION_TOLERANCE); path_out.push_back( pathv[0] ); } return path_out; } void LPEInterpolate::resetDefaults(SPItem const* item) { Effect::resetDefaults(item); if (!SP_IS_PATH(item)) return; SPCurve const *crv = SP_PATH(item)->get_curve_reference(); Geom::PathVector const &pathv = crv->get_pathvector(); if ( (pathv.size() < 2) ) return; Geom::OptRect bounds_A = pathv[0].boundsExact(); Geom::OptRect bounds_B = pathv[1].boundsExact(); if (bounds_A && bounds_B) { Geom::PathVector traj_pathv; traj_pathv.push_back( Geom::Path() ); traj_pathv[0].start( bounds_A->midpoint() ); traj_pathv[0].appendNew( bounds_B->midpoint() ); trajectory_path.set_new_value( traj_pathv, true ); } else { trajectory_path.param_set_and_write_default(); } } } //namespace LivePathEffect } /* namespace Inkscape */ /* Local Variables: mode:c++ c-file-style:"stroustrup" c-file-offsets:((innamespace . 0)(inline-open . 0)(case-label . +)) indent-tabs-mode:nil fill-column:99 End: */ // vim: filetype=cpp:expandtab:shiftwidth=4:tabstop=8:softtabstop=4 :