// SPDX-License-Identifier: GPL-2.0-or-later /* * Container for SPKnot visual handles. * * Authors: * Mitsuru Oka * bulia byak * Maximilian Albert * Abhishek Sharma * Jon A. Cruz * * Copyright (C) 2001-2008 authors * * Released under GNU GPL v2+, read the file 'COPYING' for more information. */ #include "knot-holder.h" #include "desktop.h" #include "document-undo.h" #include "document.h" #include "knot-holder-entity.h" #include "knot.h" #include "live_effects/effect.h" #include "live_effects/lpeobject.h" #include "object/box3d.h" #include "object/sp-ellipse.h" #include "object/sp-hatch.h" #include "object/sp-offset.h" #include "object/sp-pattern.h" #include "object/sp-rect.h" #include "object/sp-shape.h" #include "object/sp-spiral.h" #include "object/sp-star.h" #include "object/sp-marker.h" #include "object/filters/gaussian-blur.h" #include "style.h" #include "ui/icon-names.h" #include "ui/shape-editor.h" #include "ui/tools/arc-tool.h" #include "ui/tools/node-tool.h" #include "ui/tools/rect-tool.h" #include "ui/tools/spiral-tool.h" #include "ui/tools/tweak-tool.h" #include "display/control/snap-indicator.h" // TODO due to internal breakage in glibmm headers, this must be last: #include using Inkscape::DocumentUndo; class SPDesktop; KnotHolder::KnotHolder(SPDesktop *desktop, SPItem *item, SPKnotHolderReleasedFunc relhandler) : desktop(desktop), item(item), //XML Tree being used directly for item->getRepr() while it shouldn't be... repr(item ? item->getRepr() : nullptr), entity(), released(relhandler), local_change(FALSE), dragging(false), _edit_transform(Geom::identity()) { if (!desktop || !item) { g_warning ("Error! Throw an exception, please!"); } sp_object_ref(item); } KnotHolder::~KnotHolder() { sp_object_unref(item); for (auto & i : entity) { delete i; } entity.clear(); // is this necessary? } void KnotHolder::setEditTransform(Geom::Affine edit_transform) { _edit_transform = edit_transform; } void KnotHolder::update_knots() { for (auto e = entity.begin(); e != entity.end(); ) { // check if pattern was removed without deleting the knot if ((*e)->knot_missing()) { delete (*e); e = entity.erase(e); } else { (*e)->update_knot(); ++e; } } } /** * Returns true if at least one of the KnotHolderEntities has the mouse hovering above it. */ bool KnotHolder::knot_mouseover() const { for (auto i : entity) { const SPKnot *knot = i->knot; if (knot && knot->is_mouseover()) { return true; } } return false; } /** * Returns true if at least one of the KnotHolderEntities is selected */ bool KnotHolder::knot_selected() const { for (auto i : entity) { const SPKnot *knot = i->knot; if (knot && knot->is_selected()) { return true; } } return false; } void KnotHolder::knot_mousedown_handler(SPKnot *knot, guint state) { if (!(state & GDK_SHIFT_MASK)) { unselect_knots(); } for(auto e : this->entity) { if (!(state & GDK_SHIFT_MASK)) { e->knot->selectKnot(false); } if (e->knot == knot) { if (!(e->knot->is_selected()) || !(state & GDK_SHIFT_MASK)){ e->knot->selectKnot(true); } else { e->knot->selectKnot(false); } } } } void KnotHolder::knot_clicked_handler(SPKnot *knot, guint state) { SPItem *saved_item = this->item; for(auto e : this->entity) { if (e->knot == knot) // no need to test whether knot_click exists since it's virtual now e->knot_click(state); } { auto savedShape = cast(saved_item); if (savedShape) { savedShape->set_shape(); } } this->update_knots(); Glib::ustring icon_name; // TODO extract duplicated blocks; if (is(saved_item)) { icon_name = INKSCAPE_ICON("draw-rectangle"); } else if (is(saved_item)) { icon_name = INKSCAPE_ICON("draw-cuboid"); } else if (is(saved_item)) { icon_name = INKSCAPE_ICON("draw-ellipse"); } else if (is(saved_item)) { icon_name = INKSCAPE_ICON("draw-polygon-star"); } else if (is(saved_item)) { icon_name = INKSCAPE_ICON("draw-spiral"); } else if (is(saved_item)) { icon_name = INKSCAPE_ICON("tool-pointer"); } else { auto offset = cast(saved_item); if (offset) { if (offset->sourceHref) { icon_name = INKSCAPE_ICON("path-offset-linked"); } else { icon_name = INKSCAPE_ICON("path-offset-dynamic"); } } } // for drag, this is done by ungrabbed_handler, but for click we must do it here if (saved_item && saved_item->document) { // increasingly aggressive sanity checks DocumentUndo::done(saved_item->document, _("Change handle"), icon_name); } else { std::terminate(); } } void KnotHolder::transform_selected(Geom::Affine transform){ for (auto & i : entity) { SPKnot *knot = i->knot; if (knot->is_selected()) { knot_moved_handler(knot, knot->pos * transform , 0); knot->selectKnot(true); } } } void KnotHolder::unselect_knots(){ Inkscape::UI::Tools::NodeTool *nt = dynamic_cast(desktop->event_context); if (nt) { for (auto &_shape_editor : nt->_shape_editors) { Inkscape::UI::ShapeEditor *shape_editor = _shape_editor.second.get(); if (shape_editor && shape_editor->has_knotholder()) { KnotHolder * knotholder = shape_editor->knotholder; if (knotholder) { for (auto e : knotholder->entity) { if (e->knot->is_selected()) { e->knot->selectKnot(false); } } } } } } } /** Notifies an entity that its knot has just been grabbed. */ void KnotHolder::knot_grabbed_handler(SPKnot *knot, unsigned state) { auto grab_entity = std::find_if(entity.begin(), entity.end(), [=](KnotHolderEntity *khe) -> bool { return khe->knot == knot; }); if (grab_entity == entity.end()) { return; } auto const item_origin = (*grab_entity)->knot->drag_origin * item->dt2i_affine() * _edit_transform.inverse(); (*grab_entity)->knot_grabbed(item_origin, state); } void KnotHolder::knot_moved_handler(SPKnot *knot, Geom::Point const &p, guint state) { if (!dragging) { // The knot has just been grabbed knot_grabbed_handler(knot, state); dragging = true; } // this was a local change and the knotholder does not need to be recreated: this->local_change = TRUE; for(auto e : this->entity) { if (e->knot == knot) { Geom::Point const q = p * item->i2dt_affine().inverse() * _edit_transform.inverse(); e->knot_set(q, e->knot->drag_origin * item->i2dt_affine().inverse() * _edit_transform.inverse(), state); break; } } auto shape = cast(item); if (shape) { shape->set_shape(); } this->update_knots(); } void KnotHolder::knot_ungrabbed_handler(SPKnot *knot, guint state) { this->dragging = false; desktop->snapindicator->remove_snaptarget(); if (this->released) { this->released(this->item); } else { // if a point is dragged while not selected, it should select itself, // even if it was just unselected in the mousedown event handler. if (!(knot->is_selected())) { knot->selectKnot(true); } else { for(auto e : this->entity) { if (e->knot == knot) { e->knot_ungrabbed(e->knot->position(), e->knot->drag_origin * item->i2dt_affine().inverse() * _edit_transform.inverse(), state); if (e->knot->is_lpe) { return; } break; } } } SPObject *object = (SPObject *) this->item; // Caution: this call involves a screen update, which may process events, and as a // result the knotholder may be destructed. So, after the updateRepr, we cannot use any // fields of this knotholder (such as this->item), but only values we have saved beforehand // (such as object). object->updateRepr(); SPFilter *filter = (object->style) ? object->style->getFilter() : nullptr; if (filter) { filter->updateRepr(); } Glib::ustring icon_name; // TODO extract duplicated blocks; if (is(object)) { icon_name = INKSCAPE_ICON("draw-rectangle"); } else if (is(object)) { icon_name = INKSCAPE_ICON("draw-cuboid"); } else if (is(object)) { icon_name = INKSCAPE_ICON("draw-ellipse"); } else if (is(object)) { icon_name = INKSCAPE_ICON("draw-polygon-star"); } else if (is(object)) { icon_name = INKSCAPE_ICON("draw-spiral"); } else if (is(object)) { icon_name = INKSCAPE_ICON("tool-pointer"); } else { auto offset = cast(object); if (offset) { if (offset->sourceHref) { icon_name = INKSCAPE_ICON("path-offset-linked"); } else { icon_name = INKSCAPE_ICON("path-offset-dynamic"); } } } DocumentUndo::done(object->document, _("Move handle"), icon_name); } } void KnotHolder::add(KnotHolderEntity *e) { // g_message("Adding a knot at %p", e); entity.push_back(e); } void KnotHolder::add_pattern_knotholder() { if (is(item->style->getFillPaintServer())) { auto entity_xy = new PatternKnotHolderEntityXY(true); auto entity_angle = new PatternKnotHolderEntityAngle(true); auto entity_scale = new PatternKnotHolderEntityScale(true); entity_xy->create(desktop, item, this, Inkscape::CANVAS_ITEM_CTRL_TYPE_SIZER, "Pattern:Fill:xy", // TRANSLATORS: This refers to the pattern that's inside the object _("Move the pattern fill inside the object")); entity_scale->create(desktop, item, this, Inkscape::CANVAS_ITEM_CTRL_TYPE_SIZER, "Pattern:Fill:scale", _("Scale the pattern fill; uniformly if with Ctrl")); entity_angle->create(desktop, item, this, Inkscape::CANVAS_ITEM_CTRL_TYPE_ROTATE, "Pattern:Fill:angle", _("Rotate the pattern fill; with Ctrl to snap angle")); entity.push_back(entity_xy); entity.push_back(entity_angle); entity.push_back(entity_scale); } if (is(item->style->getStrokePaintServer())) { auto entity_xy = new PatternKnotHolderEntityXY(false); auto entity_angle = new PatternKnotHolderEntityAngle(false); auto entity_scale = new PatternKnotHolderEntityScale(false); entity_xy->create(desktop, item, this, Inkscape::CANVAS_ITEM_CTRL_TYPE_POINT, "Pattern:Stroke:xy", // TRANSLATORS: This refers to the pattern that's inside the object _("Move the stroke's pattern inside the object")); entity_scale->create(desktop, item, this, Inkscape::CANVAS_ITEM_CTRL_TYPE_SIZER, "Pattern:Stroke:scale", _("Scale the stroke's pattern; uniformly if with Ctrl")); entity_angle->create(desktop, item, this, Inkscape::CANVAS_ITEM_CTRL_TYPE_ROTATE, "Pattern:Stroke:angle", _("Rotate the stroke's pattern; with Ctrl to snap angle")); entity.push_back(entity_xy); entity.push_back(entity_angle); entity.push_back(entity_scale); } // watch patterns and update knots when they change install_modification_watch(); } void KnotHolder::add_hatch_knotholder() { if ((item->style->fill.isPaintserver()) && cast(item->style->getFillPaintServer())) { HatchKnotHolderEntityXY *entity_xy = new HatchKnotHolderEntityXY(true); HatchKnotHolderEntityAngle *entity_angle = new HatchKnotHolderEntityAngle(true); HatchKnotHolderEntityScale *entity_scale = new HatchKnotHolderEntityScale(true); entity_xy->create(desktop, item, this, Inkscape::CANVAS_ITEM_CTRL_TYPE_POINT, "Hatch:Fill:xy", // TRANSLATORS: This refers to the hatch that's inside the object _("Move the hatch fill inside the object")); entity_scale->create(desktop, item, this, Inkscape::CANVAS_ITEM_CTRL_TYPE_SIZER, "Hatch:Fill:scale", _("Scale the hatch fill; uniformly if with Ctrl")); entity_angle->create(desktop, item, this, Inkscape::CANVAS_ITEM_CTRL_TYPE_ROTATE, "Hatch:Fill:angle", _("Rotate the hatch fill; with Ctrl to snap angle")); entity.push_back(entity_xy); entity.push_back(entity_angle); entity.push_back(entity_scale); } if ((item->style->stroke.isPaintserver()) && cast(item->style->getStrokePaintServer())) { HatchKnotHolderEntityXY *entity_xy = new HatchKnotHolderEntityXY(false); HatchKnotHolderEntityAngle *entity_angle = new HatchKnotHolderEntityAngle(false); HatchKnotHolderEntityScale *entity_scale = new HatchKnotHolderEntityScale(false); entity_xy->create(desktop, item, this, Inkscape::CANVAS_ITEM_CTRL_TYPE_POINT, "Hatch:Stroke:xy", // TRANSLATORS: This refers to the pattern that's inside the object _("Move the hatch stroke inside the object")); entity_scale->create(desktop, item, this, Inkscape::CANVAS_ITEM_CTRL_TYPE_SIZER, "Hatch:Stroke:scale", _("Scale the hatch stroke; uniformly if with Ctrl")); entity_angle->create(desktop, item, this, Inkscape::CANVAS_ITEM_CTRL_TYPE_ROTATE, "Hatch:Stroke:angle", _("Rotate the hatch stroke; with Ctrl to snap angle")); entity.push_back(entity_xy); entity.push_back(entity_angle); entity.push_back(entity_scale); } } void KnotHolder::add_filter_knotholder() { if (auto filter = item->style->getFilter()) { if (!filter->auto_region) { auto entity_tl = new FilterKnotHolderEntity(true); auto entity_br = new FilterKnotHolderEntity(false); entity_tl->create(desktop, item, this, Inkscape::CANVAS_ITEM_CTRL_TYPE_POINT, "Filter:TopLeft", _("Resize the filter effect region")); entity_br->create(desktop, item, this, Inkscape::CANVAS_ITEM_CTRL_TYPE_POINT, "Filter:BottomRight", _("Resize the filter effect region")); entity.push_back(entity_tl); entity.push_back(entity_br); } } // always install blur nodes, they default to disabled. auto entity_x = new BlurKnotHolderEntity(Geom::X); auto entity_y = new BlurKnotHolderEntity(Geom::Y); entity_x->create(desktop, item, this, Inkscape::CANVAS_ITEM_CTRL_TYPE_ROTATE, "Filter:BlurX", _("Drag to adjust blur in x direction; Ctrl+Drag makes x equal to y; Shift+Ctrl+Drag scales blur proportionately ")); entity_y->create(desktop, item, this, Inkscape::CANVAS_ITEM_CTRL_TYPE_ROTATE, "Filter:BlurY", _("Drag to adjust blur in y direction; Ctrl+Drag makes y equal to x; Shift+Ctrl+Drag scales blur proportionately ")); entity.push_back(entity_x); entity.push_back(entity_y); } /** * When editing an object, this extra information tells out knots * where the user has clicked on the item. */ bool KnotHolder::set_item_clickpos(Geom::Point loc) { bool ret = false; for (auto i : entity) { ret = i->set_item_clickpos(loc) || ret; } return ret; } /** * When object being edited has some attributes changed (fill, stroke) * update what objects we watch */ void KnotHolder::install_modification_watch() { g_assert(item); if (auto pattern = cast(item->style->getFillPaintServer())) { _watch_fill = pattern->connectModified([=](SPObject*, unsigned int){ update_knots(); }); } else { _watch_fill.disconnect(); } if (auto pattern = cast(item->style->getStrokePaintServer())) { _watch_stroke = pattern->connectModified([=](SPObject*, unsigned int){ update_knots(); }); } else { _watch_stroke.disconnect(); } } /* 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 :