From cca66b9ec4e494c1d919bff0f71a820d8afab1fa Mon Sep 17 00:00:00 2001 From: Daniel Baumann Date: Sun, 7 Apr 2024 20:24:48 +0200 Subject: Adding upstream version 1.2.2. Signed-off-by: Daniel Baumann --- src/live_effects/lpe-patternalongpath.cpp | 396 ++++++++++++++++++++++++++++++ 1 file changed, 396 insertions(+) create mode 100644 src/live_effects/lpe-patternalongpath.cpp (limited to 'src/live_effects/lpe-patternalongpath.cpp') diff --git a/src/live_effects/lpe-patternalongpath.cpp b/src/live_effects/lpe-patternalongpath.cpp new file mode 100644 index 0000000..17a099c --- /dev/null +++ b/src/live_effects/lpe-patternalongpath.cpp @@ -0,0 +1,396 @@ +// SPDX-License-Identifier: GPL-2.0-or-later +/* + * Copyright (C) Johan Engelen 2007 + * + * Released under GNU GPL v2+, read the file 'COPYING' for more information. + */ + +#include +#include +#include + +#include <2geom/bezier-to-sbasis.h> + +#include "live_effects/lpe-patternalongpath.h" +#include "live_effects/lpeobject.h" + +#include "display/curve.h" + +#include "object/sp-shape.h" + +#include "ui/knot/knot-holder.h" +#include "ui/knot/knot-holder-entity.h" + +// TODO due to internal breakage in glibmm headers, this must be last: +#include + + +/* Theory in e-mail from J.F. Barraud +Let B be the skeleton path, and P the pattern (the path to be deformed). + +P is a map t --> P(t) = ( x(t), y(t) ). +B is a map t --> B(t) = ( a(t), b(t) ). + +The first step is to re-parametrize B by its arc length: this is the parametrization in which a point p on B is located by its distance s from start. One obtains a new map s --> U(s) = (a'(s),b'(s)), that still describes the same path B, but where the distance along B from start to +U(s) is s itself. + +We also need a unit normal to the path. This can be obtained by computing a unit tangent vector, and rotate it by 90�. Call this normal vector N(s). + +The basic deformation associated to B is then given by: + + (x,y) --> U(x)+y*N(x) + +(i.e. we go for distance x along the path, and then for distance y along the normal) + +Of course this formula needs some minor adaptations (as is it depends on the absolute position of P for instance, so a little translation is needed +first) but I think we can first forget about them. +*/ + +namespace Inkscape { +namespace LivePathEffect { + +namespace WPAP { + class KnotHolderEntityWidthPatternAlongPath : public LPEKnotHolderEntity { + public: + KnotHolderEntityWidthPatternAlongPath(LPEPatternAlongPath * effect) : LPEKnotHolderEntity(effect) {} + ~KnotHolderEntityWidthPatternAlongPath() override + { + LPEPatternAlongPath *lpe = dynamic_cast (_effect); + lpe->_knot_entity = nullptr; + } + void knot_set(Geom::Point const &p, Geom::Point const &origin, guint state) override; + Geom::Point knot_get() const override; + }; +} // WPAP + +static const Util::EnumData PAPCopyTypeData[PAPCT_END] = { + // clang-format off + {PAPCT_SINGLE, N_("Single"), "single"}, + {PAPCT_SINGLE_STRETCHED, N_("Single, stretched"), "single_stretched"}, + {PAPCT_REPEATED, N_("Repeated"), "repeated"}, + {PAPCT_REPEATED_STRETCHED, N_("Repeated, stretched"), "repeated_stretched"} + // clang-format on +}; +static const Util::EnumDataConverter PAPCopyTypeConverter(PAPCopyTypeData, PAPCT_END); + +LPEPatternAlongPath::LPEPatternAlongPath(LivePathEffectObject *lpeobject) : + Effect(lpeobject), + pattern(_("Pattern source:"), _("Path to put along the skeleton path"), "pattern", &wr, this, "M0,0 L1,0"), + original_height(0.0), + prop_scale(_("_Width:"), _("Width of the pattern"), "prop_scale", &wr, this, 1.0), + copytype(_("Pattern copies:"), _("How many pattern copies to place along the skeleton path"), + "copytype", PAPCopyTypeConverter, &wr, this, PAPCT_SINGLE_STRETCHED), + scale_y_rel(_("Wid_th in units of length"), + _("Scale the width of the pattern in units of its length"), + "scale_y_rel", &wr, this, false), + spacing(_("Spa_cing:"), + // xgettext:no-c-format + _("Space between copies of the pattern. Negative values allowed, but are limited to -90% of pattern width."), + "spacing", &wr, this, 0), + normal_offset(_("No_rmal offset:"), "", "normal_offset", &wr, this, 0), + tang_offset(_("Tan_gential offset:"), "", "tang_offset", &wr, this, 0), + prop_units(_("Offsets in _unit of pattern size"), + _("Spacing, tangential and normal offset are expressed as a ratio of width/height"), + "prop_units", &wr, this, false), + vertical_pattern(_("Pattern is _vertical"), _("Rotate pattern 90 deg before applying"), + "vertical_pattern", &wr, this, false), + hide_knot(_("Hide width knot"), _("Hide width knot"),"hide_knot", &wr, this, false), + fuse_tolerance(_("_Fuse nearby ends:"), _("Fuse ends closer than this number. 0 means don't fuse."), + "fuse_tolerance", &wr, this, 0) +{ + registerParameter(&pattern); + registerParameter(©type); + registerParameter(&prop_scale); + registerParameter(&scale_y_rel); + registerParameter(&spacing); + registerParameter(&normal_offset); + registerParameter(&tang_offset); + registerParameter(&prop_units); + registerParameter(&vertical_pattern); + registerParameter(&hide_knot); + registerParameter(&fuse_tolerance); + prop_scale.param_set_digits(3); + prop_scale.param_set_increments(0.01, 0.10); + _knot_entity = nullptr; + _provides_knotholder_entities = true; + +} + +LPEPatternAlongPath::~LPEPatternAlongPath() += default; + +bool +LPEPatternAlongPath::doOnOpen(SPLPEItem const *lpeitem) +{ + if (!is_load || is_applied) { + return false; + } + pattern.reload(); + return false; +} + +void LPEPatternAlongPath::transform_multiply(Geom::Affine const &postmul, bool /*set*/) +{ + if (sp_lpe_item && sp_lpe_item->pathEffectsEnabled() && sp_lpe_item->optimizeTransforms()) { + pattern.param_transform_multiply(postmul, false); + } +} + +void +LPEPatternAlongPath::doBeforeEffect (SPLPEItem const* lpeitem) +{ + // get the pattern bounding box + Geom::OptRect bbox = pattern.get_pathvector().boundsFast(); + if (bbox) { + original_height = (*bbox)[Geom::Y].max() - (*bbox)[Geom::Y].min(); + } + if (is_load) { + pattern.reload(); + } + if (_knot_entity) { + if (hide_knot) { + helper_path.clear(); + _knot_entity->knot->hide(); + } else { + _knot_entity->knot->show(); + } + _knot_entity->update_knot(); + } +} + +Geom::Piecewise > +LPEPatternAlongPath::doEffect_pwd2 (Geom::Piecewise > const & pwd2_in) +{ + using namespace Geom; + + // Don't allow empty path parameter: + if ( pattern.get_pathvector().empty() ) { + return pwd2_in; + } + +/* Much credit should go to jfb and mgsloan of lib2geom development for the code below! */ + Piecewise > output; + std::vector > > pre_output; + + PAPCopyType type = copytype.get_value(); + Geom::Affine affine = pattern.get_relative_affine(); + D2 > patternd2 = make_cuts_independent(pattern.get_pwd2() * affine); + Piecewise x0 = vertical_pattern.get_value() ? Piecewise(patternd2[1]) : Piecewise(patternd2[0]); + Piecewise y0 = vertical_pattern.get_value() ? Piecewise(patternd2[0]) : Piecewise(patternd2[1]); + OptInterval pattBndsX = bounds_exact(x0); + OptInterval pattBndsY = bounds_exact(y0); + if (pattBndsX && pattBndsY) { + x0 -= pattBndsX->min(); + y0 -= pattBndsY->middle(); + + double xspace = spacing; + double noffset = normal_offset; + double toffset = tang_offset; + if (prop_units.get_value()){ + xspace *= pattBndsX->extent(); + noffset *= pattBndsY->extent(); + toffset *= pattBndsX->extent(); + } + + //Prevent more than 90% overlap... + if (xspace < -pattBndsX->extent() * 0.9) { + xspace = -pattBndsX->extent() * 0.9; + } + //TODO: dynamical update of parameter ranges? + //if (prop_units.get_value()){ + // spacing.param_set_range(-.9, Geom::infinity()); + // }else{ + // spacing.param_set_range(-pattBndsX.extent()*.9, Geom::infinity()); + // } + + y0 += noffset; + + std::vector > > paths_in; + paths_in = split_at_discontinuities(pwd2_in); + + for (auto path_i : paths_in){ + Piecewise x = x0; + Piecewise y = y0; + Piecewise > uskeleton = arc_length_parametrization(path_i,2, 0.1); + uskeleton = remove_short_cuts(uskeleton, 0.01); + Piecewise > n = rot90(derivative(uskeleton)); + if (Geom::are_near(pwd2_in[0].at0(),pwd2_in[pwd2_in.size()-1].at1(), 0.01)) { + n = force_continuity(remove_short_cuts(n, 0.1), 0.01); + } else { + n = force_continuity(remove_short_cuts(n, 0.1)); + } + int nbCopies = 0; + double scaling = 1; + switch(type) { + case PAPCT_REPEATED: + nbCopies = static_cast(floor((uskeleton.domain().extent() - toffset + xspace)/(pattBndsX->extent()+xspace))); + pattBndsX = Interval(pattBndsX->min(),pattBndsX->max()+xspace); + break; + + case PAPCT_SINGLE: + nbCopies = (toffset + pattBndsX->extent() < uskeleton.domain().extent()) ? 1 : 0; + break; + + case PAPCT_SINGLE_STRETCHED: + nbCopies = 1; + scaling = (uskeleton.domain().extent() - toffset)/pattBndsX->extent(); + break; + + case PAPCT_REPEATED_STRETCHED: + // if uskeleton is closed: + if (are_near(path_i.segs.front().at0(), path_i.segs.back().at1())){ + nbCopies = std::max(1, static_cast(std::floor((uskeleton.domain().extent() - toffset)/(pattBndsX->extent()+xspace)))); + pattBndsX = Interval(pattBndsX->min(),pattBndsX->max()+xspace); + scaling = (uskeleton.domain().extent() - toffset)/(((double)nbCopies)*pattBndsX->extent()); + // if not closed: no space at the end + }else{ + nbCopies = std::max(1, static_cast(std::floor((uskeleton.domain().extent() - toffset + xspace)/(pattBndsX->extent()+xspace)))); + pattBndsX = Interval(pattBndsX->min(),pattBndsX->max()+xspace); + scaling = (uskeleton.domain().extent() - toffset)/(((double)nbCopies)*pattBndsX->extent() - xspace); + } + break; + + default: + return pwd2_in; + }; + + //Ceil to 6 decimals + scaling = ceil(scaling * 1000000) / 1000000; + double pattWidth = pattBndsX->extent() * scaling; + + x *= scaling; + if ( scale_y_rel.get_value() ) { + y *= prop_scale * scaling; + } else { + y *= prop_scale; + } + x += toffset; + + double offs = 0; + for (int i=0; i 0){ + Geom::Piecewise > output_piece = compose(uskeleton,x+offs)+y*compose(n,x+offs); + std::vector > > splited_output_piece = split_at_discontinuities(output_piece); + pre_output.insert(pre_output.end(), splited_output_piece.begin(), splited_output_piece.end() ); + }else{ + output.concat(compose(uskeleton,x+offs)+y*compose(n,x+offs)); + } + offs+=pattWidth; + } + } + if (fuse_tolerance > 0){ + pre_output = fuse_nearby_ends(pre_output, fuse_tolerance); + for (const auto & i : pre_output){ + output.concat(i); + } + } + return output; + } else { + return pwd2_in; + } +} + +void +LPEPatternAlongPath::addCanvasIndicators(SPLPEItem const */*lpeitem*/, std::vector &hp_vec) +{ + hp_vec.push_back(helper_path); +} + + +void +LPEPatternAlongPath::addKnotHolderEntities(KnotHolder *knotholder, SPItem *item) +{ + _knot_entity = new WPAP::KnotHolderEntityWidthPatternAlongPath(this); + _knot_entity->create(nullptr, item, knotholder, Inkscape::CANVAS_ITEM_CTRL_TYPE_LPE, "LPE:PatternAlongPath", + _("Change the width")); + knotholder->add(_knot_entity); + if (hide_knot) { + _knot_entity->knot->hide(); + _knot_entity->update_knot(); + } +} + +namespace WPAP { + +void +KnotHolderEntityWidthPatternAlongPath::knot_set(Geom::Point const &p, Geom::Point const& /*origin*/, guint state) +{ + LPEPatternAlongPath *lpe = dynamic_cast (_effect); + + Geom::Point const s = snap_knot_position(p, state); + SPShape const *sp_shape = dynamic_cast(SP_LPE_ITEM(item)); + if (sp_shape && lpe->original_height) { + auto curve_before = SPCurve::copy(sp_shape->curveForEdit()); + if (curve_before) { + Geom::Path const *path_in = curve_before->first_path(); + Geom::Point ptA = path_in->pointAt(Geom::PathTime(0, 0.0)); + Geom::Point B = path_in->pointAt(Geom::PathTime(1, 0.0)); + Geom::Curve const *first_curve = &path_in->curveAt(Geom::PathTime(0, 0.0)); + Geom::CubicBezier const *cubic = dynamic_cast(&*first_curve); + Geom::Ray ray(ptA, B); + if (cubic) { + ray.setPoints(ptA, (*cubic)[1]); + } + ray.setAngle(ray.angle() + Geom::rad_from_deg(90)); + Geom::Point knot_pos = this->knot->pos * item->i2dt_affine().inverse(); + Geom::Coord nearest_to_ray = ray.nearestTime(knot_pos); + if(nearest_to_ray == 0){ + lpe->prop_scale.param_set_value(-Geom::distance(s , ptA)/(lpe->original_height/2.0)); + } else { + lpe->prop_scale.param_set_value(Geom::distance(s , ptA)/(lpe->original_height/2.0)); + } + } + if (!lpe->original_height) { + lpe->prop_scale.param_set_value(0); + } + Inkscape::Preferences *prefs = Inkscape::Preferences::get(); + prefs->setDouble("/live_effects/skeletal/width", lpe->prop_scale); + } + sp_lpe_item_update_patheffect (SP_LPE_ITEM(item), false, true); +} + +Geom::Point +KnotHolderEntityWidthPatternAlongPath::knot_get() const +{ + LPEPatternAlongPath *lpe = dynamic_cast (_effect); + SPShape const *sp_shape = dynamic_cast(SP_LPE_ITEM(item)); + if (sp_shape) { + auto curve_before = SPCurve::copy(sp_shape->curveForEdit()); + if (curve_before) { + Geom::Path const *path_in = curve_before->first_path(); + Geom::Point ptA = path_in->pointAt(Geom::PathTime(0, 0.0)); + Geom::Point B = path_in->pointAt(Geom::PathTime(1, 0.0)); + Geom::Curve const *first_curve = &path_in->curveAt(Geom::PathTime(0, 0.0)); + Geom::CubicBezier const *cubic = dynamic_cast(&*first_curve); + Geom::Ray ray(ptA, B); + if (cubic) { + ray.setPoints(ptA, (*cubic)[1]); + } + ray.setAngle(ray.angle() + Geom::rad_from_deg(90)); + Geom::Point result_point = Geom::Point::polar(ray.angle(), (lpe->original_height/2.0) * lpe->prop_scale) + ptA; + lpe->helper_path.clear(); + if (!lpe->hide_knot) { + Geom::Path hp(result_point); + hp.appendNew(ptA); + lpe->helper_path.push_back(hp); + hp.clear(); + } + return result_point; + } + } + return Geom::Point(); +} +} // namespace WPAP +} // 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 : -- cgit v1.2.3