// SPDX-License-Identifier: GPL-2.0-or-later /** * @file * LPE sketch effect implementation. */ /* Authors: * Jean-Francois Barraud * Johan Engelen * * Copyright (C) 2007 Authors * * Released under GNU GPL v2+, read the file 'COPYING' for more information. */ #include "live_effects/lpe-sketch.h" // You might need to include other 2geom files. You can add them here: #include <2geom/sbasis-math.h> #include <2geom/bezier-to-sbasis.h> #include <2geom/path-intersection.h> // TODO due to internal breakage in glibmm headers, this must be last: #include namespace Inkscape { namespace LivePathEffect { LPESketch::LPESketch(LivePathEffectObject *lpeobject) : Effect(lpeobject), // initialise your parameters here: //testpointA(_("Test Point A"), _("Test A"), "ptA", &wr, this, Geom::Point(100,100)), nbiter_approxstrokes(_("Strokes:"), _("Draw that many approximating strokes"), "nbiter_approxstrokes", &wr, this, 5), strokelength(_("Max stroke length:"), _("Maximum length of approximating strokes"), "strokelength", &wr, this, 100.), strokelength_rdm(_("Stroke length variation:"), _("Random variation of stroke length (relative to maximum length)"), "strokelength_rdm", &wr, this, .3), strokeoverlap(_("Max. overlap:"), _("How much successive strokes should overlap (relative to maximum length)"), "strokeoverlap", &wr, this, .3), strokeoverlap_rdm(_("Overlap variation:"), _("Random variation of overlap (relative to maximum overlap)"), "strokeoverlap_rdm", &wr, this, .3), ends_tolerance(_("Max. end tolerance:"), _("Maximum distance between ends of original and approximating paths (relative to maximum length)"), "ends_tolerance", &wr, this, .1), parallel_offset(_("Average offset:"), _("Average distance each stroke is away from the original path"), "parallel_offset", &wr, this, 5.), tremble_size(_("Max. tremble:"), _("Maximum tremble magnitude"), "tremble_size", &wr, this, 5.), tremble_frequency(_("Tremble frequency:"), _("Average number of tremble periods in a stroke"), "tremble_frequency", &wr, this, 1.) #ifdef LPE_SKETCH_USE_CONSTRUCTION_LINES ,nbtangents(_("Construction lines:"), _("How many construction lines (tangents) to draw"), "nbtangents", &wr, this, 5), tgtscale(_("Scale:"), _("Scale factor relating curvature and length of construction lines (try 5*offset)"), "tgtscale", &wr, this, 10.0), tgtlength(_("Max. length:"), _("Maximum length of construction lines"), "tgtlength", &wr, this, 100.0), tgtlength_rdm(_("Length variation:"), _("Random variation of the length of construction lines"), "tgtlength_rdm", &wr, this, .3), tgt_places_rdmness(_("Placement randomness:"), _("0: evenly distributed construction lines, 1: purely random placement"), "tgt_places_rdmness", &wr, this, 1.) #ifdef LPE_SKETCH_USE_CURVATURE ,min_curvature(_("k_min:"), _("min curvature"), "k_min", &wr, this, 4.0) ,max_curvature(_("k_max:"), _("max curvature"), "k_max", &wr, this, 1000.0) #endif #endif { // register all your parameters here, so Inkscape knows which parameters this effect has: //Add some comment in the UI: *warning* the precise output of this effect might change in future releases! //convert to path if you want to keep exact output unchanged in future releases... //registerParameter(&testpointA) ); registerParameter(&nbiter_approxstrokes); registerParameter(&strokelength); registerParameter(&strokelength_rdm); registerParameter(&strokeoverlap); registerParameter(&strokeoverlap_rdm); registerParameter(&ends_tolerance); registerParameter(¶llel_offset); registerParameter(&tremble_size); registerParameter(&tremble_frequency); #ifdef LPE_SKETCH_USE_CONSTRUCTION_LINES registerParameter(&nbtangents); registerParameter(&tgt_places_rdmness); registerParameter(&tgtscale); registerParameter(&tgtlength); registerParameter(&tgtlength_rdm); #ifdef LPE_SKETCH_USE_CURVATURE registerParameter(&min_curvature); registerParameter(&max_curvature); #endif #endif nbiter_approxstrokes.param_make_integer(); nbiter_approxstrokes.param_set_range(0, std::numeric_limits::max()); strokelength.param_set_range(1, std::numeric_limits::max()); strokelength.param_set_increments(1., 5.); strokelength_rdm.param_set_range(0, 1.); strokeoverlap.param_set_range(0, 1.); strokeoverlap.param_set_increments(0.1, 0.30); ends_tolerance.param_set_range(0., 1.); parallel_offset.param_set_range(0, std::numeric_limits::max()); tremble_frequency.param_set_range(0.01, 100.); tremble_frequency.param_set_increments(.5, 1.5); strokeoverlap_rdm.param_set_range(0, 1.); #ifdef LPE_SKETCH_USE_CONSTRUCTION_LINES nbtangents.param_make_integer(); nbtangents.param_set_range(0, std::numeric_limits::max()); tgtscale.param_set_range(0, std::numeric_limits::max()); tgtscale.param_set_increments(.1, .5); tgtlength.param_set_range(0, std::numeric_limits::max()); tgtlength.param_set_increments(1., 5.); tgtlength_rdm.param_set_range(0, 1.); tgt_places_rdmness.param_set_range(0, 1.); //this is not very smart, but required to avoid having lot of tangents stacked on short components. //Note: we could specify a density instead of an absolute number, but this would be scale dependent. concatenate_before_pwd2 = true; #endif } LPESketch::~LPESketch() = default; /* Geom::Piecewise > addLinearEnds (Geom::Piecewise > & m){ using namespace Geom; Piecewise > output; Piecewise > start; Piecewise > end; double x,y,vx,vy; x = m.segs.front()[0].at0(); y = m.segs.front()[1].at0(); vx = m.segs.front()[0][1][0]+Tri(m.segs.front()[0][0]); vy = m.segs.front()[1][1][0]+Tri(m.segs.front()[1][0]); start = Piecewise >(D2(Linear (x-vx,x),Linear (y-vy,y))); start.offsetDomain(m.cuts.front()-1.); x = m.segs.back()[0].at1(); y = m.segs.back()[1].at1(); vx = -m.segs.back()[0][1][1]+Tri(m.segs.back()[0][0]);; vy = -m.segs.back()[1][1][1]+Tri(m.segs.back()[1][0]);; end = Piecewise >(D2(Linear (x,x+vx),Linear (y,y+vy))); //end.offsetDomain(m.cuts.back()); output = start; output.concat(m); output.concat(end); return output; } */ //This returns a random perturbation. Notice the domain is [s0,s0+first multiple of period>s1]... Geom::Piecewise > LPESketch::computePerturbation (double s0, double s1){ using namespace Geom; Piecewise >res; //global offset for this stroke. double offsetX = 2*parallel_offset-parallel_offset.get_value(); double offsetY = 2*parallel_offset-parallel_offset.get_value(); Point A,dA,B,dB,offset = Point(offsetX,offsetY); //start point A for (unsigned dim=0; dim<2; dim++){ A[dim] = offset[dim] + 2*tremble_size-tremble_size.get_value(); dA[dim] = 2*tremble_size-tremble_size.get_value(); } //compute howmany deg 3 sbasis to concat according to frequency. unsigned count = unsigned((s1-s0)/strokelength*tremble_frequency)+1; //unsigned count = unsigned((s1-s0)/tremble_frequency)+1; for (unsigned i=0; i perturb = D2(SBasis(2, Linear()), SBasis(2, Linear())); for (unsigned dim=0; dim<2; dim++){ B[dim] = offset[dim] + 2*tremble_size-tremble_size.get_value(); perturb[dim][0] = Linear(A[dim],B[dim]); dA[dim] = dA[dim]-B[dim]+A[dim]; //avoid dividing by 0. Very short strokes will have ends parallel to the curve... if ( s1-s0 > 1e-2) dB[dim] = -(2*tremble_size-tremble_size.get_value())/(s0-s1)-B[dim]+A[dim]; else dB[dim] = -(2*tremble_size-tremble_size.get_value())-B[dim]+A[dim]; perturb[dim][1] = Linear(dA[dim],dB[dim]); } dA = B-A-dB; A = B; //dA = B-A-dB; res.concat(Piecewise >(perturb)); } res.setDomain(Interval(s0,s0+count*strokelength/tremble_frequency)); //res.setDomain(Interval(s0,s0+count*tremble_frequency)); return res; } // Main effect body... Geom::Piecewise > LPESketch::doEffect_pwd2 (Geom::Piecewise > const & pwd2_in) { using namespace Geom; //If the input path is empty, do nothing. //Note: this happens when duplicating a 3d box... dunno why. if (pwd2_in.size()==0) return pwd2_in; Piecewise > output; // some variables for futur use (for construction lines; compute arclength only once...) // notations will be : t = path time, s = distance from start along the path. Piecewise pathlength; double total_length = 0; //TODO: split Construction Lines/Approximated Strokes into two separate effects? //----- Approximated Strokes. std::vector > > pieces_in = split_at_discontinuities (pwd2_in); //work separately on each component. for (auto piece : pieces_in){ Piecewise piecelength = arcLengthSb(piece,.1); double piece_total_length = piecelength.segs.back().at1()-piecelength.segs.front().at0(); pathlength.concat(piecelength + total_length); total_length += piece_total_length; //TODO: better check this on the Geom::Path. bool closed = piece.segs.front().at0() == piece.segs.back().at1(); if (closed){ piece.concat(piece); piecelength.concat(piecelength+piece_total_length); } for (unsigned i = 0; ipiece_total_length - ends_tolerance.get_value()*strokelength) break; if ( closed && s0>piece_total_length + s0_initial) break; std::vector times; times = roots(piecelength-s0); t0 = times.at(0);//there should be one and only one solution!! // pick a new end point (s1 = s0 + strokelength). s1 = s0 + strokelength*(1-strokelength_rdm); // don't let it go beyond the end of the original path. // TODO/FIXME: this might result in short strokes near the end... if (!closed && s1>piece_total_length-ends_tolerance.get_value()*strokelength){ done = true; //!!the root solver might miss s1==piece_total_length... if (s1>piece_total_length){s1 = piece_total_length - ends_tolerance*strokelength-0.0001;} } if (closed && s1>piece_total_length + s0_initial){ done = true; if (closed && s1>2*piece_total_length){ s1 = 2*piece_total_length - strokeoverlap*(1-strokeoverlap_rdm)*strokelength-0.0001; } } times = roots(piecelength-s1); if (times.empty()) break;//we should not be there. t1 = times[0]; //pick a rdm perturbation, and collect the perturbed piece into output. Piecewise > pwperturb = computePerturbation(s0-0.01,s1+0.01); pwperturb = compose(pwperturb,portion(piecelength,t0,t1)); output.concat(portion(piece,t0,t1)+pwperturb); //step points: s0 = s1 - overlap. //TODO: make sure this has to end? s0 = s1 - strokeoverlap*(1-strokeoverlap_rdm)*(s1-s0); } } } #ifdef LPE_SKETCH_USE_CONSTRUCTION_LINES //----- Construction lines. //TODO: choose places according to curvature?. //at this point we should have: //pathlength = arcLengthSb(pwd2_in,.1); //total_length = pathlength.segs.back().at1()-pathlength.segs.front().at0(); Piecewise > m = pwd2_in; Piecewise > v = derivative(pwd2_in); Piecewise > a = derivative(v); #ifdef LPE_SKETCH_USE_CURVATURE //---- curvature experiment...(enable Piecewise k = curvature(pwd2_in); OptInterval k_bnds = bounds_exact(abs(k)); double k_min = k_bnds->min() + k_bnds->extent() * min_curvature; double k_max = k_bnds->min() + k_bnds->extent() * max_curvature; Piecewise bump; //SBasis bump_seg = SBasis( 2, Linear(0) ); //bump_seg[1] = Linear( 4. ); SBasis bump_seg = SBasis( 1, Linear(1) ); bump.push_cut( k_bnds->min() - 1 ); bump.push( Linear(0), k_min ); bump.push(bump_seg,k_max); bump.push( Linear(0), k_bnds->max()+1 ); Piecewise repartition = compose( bump, k ); repartition = integral(repartition); //------------------------------- #endif for (unsigned i=0; i times; times = roots(repartition - proba); double t = times.at(0);//there should be one and only one solution! #else //double s = total_length * ( i + tgtlength_rdm ) / (nbtangents+1.); double reg_place = total_length * ( i + .5) / ( nbtangents ); double rdm_place = total_length * tgt_places_rdmness; double s = ( 1.- tgt_places_rdmness.get_value() ) * reg_place + rdm_place ; std::vector times; times = roots(pathlength-s); double t = times.at(0);//there should be one and only one solution! #endif Point m_t = m(t), v_t = v(t), a_t = a(t); //Compute tgt length according to curvature (not exceeding tgtlength) so that // dist to original curve ~ 4 * (parallel_offset+tremble_size). //TODO: put this 4 as a parameter in the UI... //TODO: what if with v=0? double l = tgtlength*(1-tgtlength_rdm)/v_t.length(); double r = std::pow(v_t.length(), 3) / cross(v_t, a_t); r = sqrt((2*fabs(r)-tgtscale)*tgtscale)/v_t.length(); l=(r tgt = D2(); for (unsigned dim=0; dim<2; dim++){ tgt[dim] = SBasis(Linear(m_t[dim]-v_t[dim]*l, m_t[dim]+v_t[dim]*l)); } output.concat(Piecewise >(tgt)); } #endif return output; } void LPESketch::doBeforeEffect (SPLPEItem const*/*lpeitem*/) { //init random parameters. parallel_offset.resetRandomizer(); strokelength_rdm.resetRandomizer(); strokeoverlap_rdm.resetRandomizer(); ends_tolerance.resetRandomizer(); tremble_size.resetRandomizer(); #ifdef LPE_SKETCH_USE_CONSTRUCTION_LINES tgtlength_rdm.resetRandomizer(); tgt_places_rdmness.resetRandomizer(); #endif } /* ######################## */ } //namespace LivePathEffect (setq default-directory "c:/Documents And Settings/jf/Mes Documents/InkscapeSVN") } /* 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:fileencoding=utf-8:textwidth=99 :