#define INKSCAPE_LIVEPATHEFFECT_CPP /* * Copyright (C) Johan Engelen 2007 * * Released under GNU GPL, read the file 'COPYING' for more information */ #include "live_effects/effect.h" #include "display/display-forward.h" #include "xml/node-event-vector.h" #include "sp-object.h" #include "attributes.h" #include "message-stack.h" #include "desktop.h" #include "inkscape.h" #include "document.h" #include #include "live_effects/lpeobject.h" #include "live_effects/parameter/parameter.h" #include #include "live_effects/n-art-bpath-2geom.h" #include "display/curve.h" #include #include #include <2geom/sbasis-to-bezier.h> #include <2geom/matrix.h> // include effects: #include "live_effects/lpe-skeletalstrokes.h" #include "live_effects/lpe-pathalongpath.h" //here!! #include "live_effects/lpe-sketch.h" #include "live_effects/lpe-vonkoch.h" #include "live_effects/lpe-knot.h" #include "live_effects/lpe-slant.h" #include "live_effects/lpe-test-doEffect-stack.h" #include "live_effects/lpe-gears.h" #include "live_effects/lpe-curvestitch.h" #include "nodepath.h" namespace Inkscape { namespace LivePathEffect { const Util::EnumData LPETypeData[INVALID_LPE] = { // {constant defined in effect.h, N_("name of your effect"), "name of your effect in SVG"} {PATH_ALONG_PATH, N_("Bend Path"), "bend_path"}, {SKELETAL_STROKES, N_("Pattern Along Path"), "skeletal"}, {SKETCH, N_("Sketch"), "sketch"}, {VONKOCH, N_("VonKoch"), "vonkoch"}, {KNOT, N_("Knot"), "knot"}, #ifdef LPE_ENABLE_TEST_EFFECTS {SLANT, N_("Slant"), "slant"}, {DOEFFECTSTACK_TEST, N_("doEffect stack test"), "doeffectstacktest"}, #endif {GEARS, N_("Gears"), "gears"}, {CURVE_STITCH, N_("Stitch Sub-Paths"), "curvestitching"}, }; const Util::EnumDataConverter LPETypeConverter(LPETypeData, INVALID_LPE); Effect* Effect::New(EffectType lpenr, LivePathEffectObject *lpeobj) { Effect* neweffect = NULL; switch (lpenr) { case SKELETAL_STROKES: neweffect = (Effect*) new LPESkeletalStrokes(lpeobj); break; case PATH_ALONG_PATH: neweffect = (Effect*) new LPEPathAlongPath(lpeobj); break; //here!! case SKETCH: neweffect = (Effect*) new LPESketch(lpeobj); break; case VONKOCH: neweffect = (Effect*) new LPEVonKoch(lpeobj); break; case KNOT: neweffect = (Effect*) new LPEKnot(lpeobj); break; #ifdef LPE_ENABLE_TEST_EFFECTS case SLANT: neweffect = (Effect*) new LPESlant(lpeobj); break; case DOEFFECTSTACK_TEST: neweffect = (Effect*) new LPEdoEffectStackTest(lpeobj); break; #endif case GEARS: neweffect = (Effect*) new LPEGears(lpeobj); break; case CURVE_STITCH: neweffect = (Effect*) new LPECurveStitch(lpeobj); break; default: g_warning("LivePathEffect::Effect::New called with invalid patheffect type (%d)", lpenr); neweffect = NULL; break; } if (neweffect) { neweffect->readallParameters(SP_OBJECT_REPR(lpeobj)); } return neweffect; } Effect::Effect(LivePathEffectObject *lpeobject) { lpeobj = lpeobject; oncanvasedit_it = 0; } Effect::~Effect() { } Glib::ustring Effect::getName() { if (lpeobj->effecttype_set && lpeobj->effecttype < INVALID_LPE) return Glib::ustring( _(LPETypeConverter.get_label(lpeobj->effecttype).c_str()) ); else return Glib::ustring( _("No effect") ); } /* * Here be the doEffect function chain: */ void Effect::doEffect (SPCurve * curve) { NArtBpath *new_bpath = doEffect_nartbpath(SP_CURVE_BPATH(curve)); if (new_bpath && new_bpath != SP_CURVE_BPATH(curve)) { // FIXME, add function to SPCurve to change bpath? or a copy function? if (curve->_bpath) { g_free(curve->_bpath); //delete old bpath } curve->_bpath = new_bpath; } } NArtBpath * Effect::doEffect_nartbpath (NArtBpath * path_in) { try { std::vector orig_pathv = BPath_to_2GeomPath(path_in); std::vector result_pathv = doEffect_path(orig_pathv); NArtBpath *new_bpath = BPath_from_2GeomPath(result_pathv); return new_bpath; } catch (std::exception & e) { g_warning("Exception during LPE %s execution. \n %s", getName().c_str(), e.what()); SP_ACTIVE_DESKTOP->messageStack()->flash( Inkscape::WARNING_MESSAGE, _("An exception occurred during execution of the Path Effect.") ); NArtBpath *path_out; unsigned ret = 0; while ( path_in[ret].code != NR_END ) { ++ret; } unsigned len = ++ret; path_out = g_new(NArtBpath, len); memcpy(path_out, path_in, len * sizeof(NArtBpath)); return path_out; } } std::vector Effect::doEffect_path (std::vector & path_in) { Geom::Piecewise > pwd2_in; for (unsigned int i=0; i < path_in.size(); i++) { pwd2_in.concat( path_in[i].toPwSb() ); } Geom::Piecewise > pwd2_out = doEffect_pwd2(pwd2_in); std::vector path_out = Geom::path_from_piecewise( pwd2_out, LPE_CONVERSION_TOLERANCE); return path_out; } Geom::Piecewise > Effect::doEffect_pwd2 (Geom::Piecewise > & pwd2_in) { g_warning("Effect has no doEffect implementation"); return pwd2_in; } void Effect::readallParameters(Inkscape::XML::Node * repr) { std::vector::iterator it = param_vector.begin(); while (it != param_vector.end()) { Parameter * param = *it; const gchar * key = param->param_key.c_str(); const gchar * value = repr->attribute(key); if (value) { bool accepted = param->param_readSVGValue(value); if (!accepted) { g_warning("Effect::readallParameters - '%s' not accepted for %s", value, key); } } else { // set default value param->param_set_default(); } it++; } } /* This function does not and SHOULD NOT write to XML */ void Effect::setParameter(const gchar * key, const gchar * new_value) { Parameter * param = getParameter(key); if (param) { if (new_value) { bool accepted = param->param_readSVGValue(new_value); if (!accepted) { g_warning("Effect::setParameter - '%s' not accepted for %s", new_value, key); } } else { // set default value param->param_set_default(); } } } void Effect::registerParameter(Parameter * param) { param_vector.push_back(param); } /** * This *creates* a new widget, management of deletion should be done by the caller */ Gtk::Widget * Effect::newWidget(Gtk::Tooltips * tooltips) { // use manage here, because after deletion of Effect object, others might still be pointing to this widget. Gtk::VBox * vbox = Gtk::manage( new Gtk::VBox() ); vbox->set_border_width(5); std::vector::iterator it = param_vector.begin(); while (it != param_vector.end()) { Parameter * param = *it; Gtk::Widget * widg = param->param_newWidget(tooltips); Glib::ustring * tip = param->param_getTooltip(); if (widg) { vbox->pack_start(*widg, true, true, 2); if (tip != NULL) { tooltips->set_tip(*widg, *tip); } } it++; } return dynamic_cast(vbox); } Inkscape::XML::Node * Effect::getRepr() { return SP_OBJECT_REPR(lpeobj); } SPDocument * Effect::getSPDoc() { if (SP_OBJECT_DOCUMENT(lpeobj) == NULL) g_message("Effect::getSPDoc() returns NULL"); return SP_OBJECT_DOCUMENT(lpeobj); } Parameter * Effect::getParameter(const char * key) { Glib::ustring stringkey(key); std::vector::iterator it = param_vector.begin(); while (it != param_vector.end()) { Parameter * param = *it; if ( param->param_key == key) { return param; } it++; } return NULL; } Parameter * Effect::getNextOncanvasEditableParam() { oncanvasedit_it++; if (oncanvasedit_it == static_cast(param_vector.size())) { oncanvasedit_it = 0; } int old_it = oncanvasedit_it; do { Parameter * param = param_vector[oncanvasedit_it]; if(param && param->oncanvas_editable) { return param; } else { oncanvasedit_it++; if (oncanvasedit_it == static_cast(param_vector.size())) { // loop round the map oncanvasedit_it = 0; } } } while (oncanvasedit_it != old_it); // iterate until complete loop through map has been made return NULL; } void Effect::editNextParamOncanvas(SPItem * item, SPDesktop * desktop) { if (!desktop) return; Parameter * param = getNextOncanvasEditableParam(); if (param) { param->param_editOncanvas(item, desktop); gchar *message = g_strdup_printf(_("Editing parameter %s."), param->param_label.c_str()); desktop->messageStack()->flash(Inkscape::NORMAL_MESSAGE, message); g_free(message); } else { desktop->messageStack()->flash( Inkscape::WARNING_MESSAGE, _("None of the applied path effect's parameters can be edited on-canvas.") ); } } /* This function should reset the defaults and is used for example to initialize an effect right after it has been applied to a path * The nice thing about this is that this function can use knowledge of the original path and set things accordingly for example to the size or origin of the original path! */ void Effect::resetDefaults(SPItem * /*item*/) { // do nothing for simple effects } void Effect::setup_nodepath(Inkscape::NodePath::Path *np) { np->show_helperpath = true; np->helperpath_rgba = 0xff0000ff; np->helperpath_width = 1.0; } void Effect::transform_multiply(Geom::Matrix const& postmul, bool set) { // cycle through all parameters. Most parameters will not need transformation, but path and point params do. for (std::vector::iterator it = param_vector.begin(); it != param_vector.end(); it++) { Parameter * param = *it; param->param_transform_multiply(postmul, set); } } } /* 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 :