// SPDX-License-Identifier: GPL-2.0-or-later /* * Gradient aux toolbar * * Authors: * bulia byak * Johan Engelen * Abhishek Sharma * Tavmjong Bah * * Copyright (C) 2012 Tavmjong Bah * Copyright (C) 2007 Johan Engelen * Copyright (C) 2005 authors * * Released under GNU GPL v2+, read the file 'COPYING' for more information. */ #include "mesh-toolbar.h" #include #include #include #include #include #include "desktop-style.h" #include "desktop.h" #include "document-undo.h" #include "gradient-chemistry.h" #include "gradient-drag.h" #include "inkscape.h" #include "object/sp-defs.h" #include "object/sp-mesh-gradient.h" #include "object/sp-stop.h" #include "style.h" #include "svg/css-ostringstream.h" #include "ui/icon-names.h" #include "ui/simple-pref-pusher.h" #include "ui/tools/gradient-tool.h" #include "ui/tools/mesh-tool.h" #include "ui/widget/canvas.h" #include "ui/widget/color-preview.h" #include "ui/widget/combo-tool-item.h" #include "ui/widget/gradient-image.h" #include "ui/widget/spin-button-tool-item.h" using Inkscape::DocumentUndo; using Inkscape::UI::Tools::MeshTool; static bool blocked = false; // Get a list of selected meshes taking into account fill/stroke toggles std::vector ms_get_dt_selected_gradients(Inkscape::Selection *selection) { std::vector ms_selected; Inkscape::Preferences *prefs = Inkscape::Preferences::get(); bool edit_fill = prefs->getBool("/tools/mesh/edit_fill", true); bool edit_stroke = prefs->getBool("/tools/mesh/edit_stroke", true); auto itemlist= selection->items(); for(auto i=itemlist.begin();i!=itemlist.end();++i){ SPItem *item = *i;// get the items gradient, not the getVector() version SPStyle *style = item->style; if (style) { if (edit_fill && style->fill.isPaintserver()) { SPPaintServer *server = item->style->getFillPaintServer(); SPMeshGradient *mesh = dynamic_cast(server); if (mesh) { ms_selected.push_back(mesh); } } if (edit_stroke && style->stroke.isPaintserver()) { SPPaintServer *server = item->style->getStrokePaintServer(); SPMeshGradient *mesh = dynamic_cast(server); if (mesh) { ms_selected.push_back(mesh); } } } } return ms_selected; } /* * Get the current selection status from the desktop */ void ms_read_selection( Inkscape::Selection *selection, SPMeshGradient *&ms_selected, bool &ms_selected_multi, SPMeshType &ms_type, bool &ms_type_multi ) { ms_selected = nullptr; ms_selected_multi = false; ms_type = SP_MESH_TYPE_COONS; ms_type_multi = false; bool first = true; // Read desktop selection, taking into account fill/stroke toggles std::vector meshes = ms_get_dt_selected_gradients( selection ); for (auto & meshe : meshes) { if (first) { ms_selected = meshe; ms_type = meshe->type; first = false; } else { if (ms_selected != meshe) { ms_selected_multi = true; } if (ms_type != meshe->type) { ms_type_multi = true; } } } } /* * Callback functions for user actions */ /** Temporary hack: Returns the mesh tool in the active desktop. * Will go away during tool refactoring. */ static MeshTool *get_mesh_tool() { MeshTool *tool = nullptr; if (SP_ACTIVE_DESKTOP ) { Inkscape::UI::Tools::ToolBase *ec = SP_ACTIVE_DESKTOP->event_context; if (SP_IS_MESH_CONTEXT(ec)) { tool = static_cast(ec); } } return tool; } namespace Inkscape { namespace UI { namespace Toolbar { MeshToolbar::MeshToolbar(SPDesktop *desktop) : Toolbar(desktop), _edit_fill_pusher(nullptr) { Inkscape::Preferences *prefs = Inkscape::Preferences::get(); /* New mesh: normal or conical */ { add_label(_("New:")); Gtk::RadioToolButton::Group new_type_group; auto normal_type_btn = Gtk::manage(new Gtk::RadioToolButton(new_type_group, _("normal"))); normal_type_btn->set_tooltip_text(_("Create mesh gradient")); normal_type_btn->set_icon_name(INKSCAPE_ICON("paint-gradient-mesh")); _new_type_buttons.push_back(normal_type_btn); auto conical_type_btn = Gtk::manage(new Gtk::RadioToolButton(new_type_group, _("conical"))); conical_type_btn->set_tooltip_text(_("Create conical gradient")); conical_type_btn->set_icon_name(INKSCAPE_ICON("paint-gradient-conical")); _new_type_buttons.push_back(conical_type_btn); int btn_idx = 0; for (auto btn : _new_type_buttons) { add(*btn); btn->set_sensitive(); btn->signal_clicked().connect(sigc::bind(sigc::mem_fun(*this, &MeshToolbar::new_geometry_changed), btn_idx++)); } gint mode = prefs->getInt("/tools/mesh/mesh_geometry", SP_MESH_GEOMETRY_NORMAL); _new_type_buttons[mode]->set_active(); } /* New gradient on fill or stroke*/ { Gtk::RadioToolButton::Group new_fillstroke_group; auto fill_button = Gtk::manage(new Gtk::RadioToolButton(new_fillstroke_group, _("fill"))); fill_button->set_tooltip_text(_("Create gradient in the fill")); fill_button->set_icon_name(INKSCAPE_ICON("object-fill")); _new_fillstroke_buttons.push_back(fill_button); auto stroke_btn = Gtk::manage(new Gtk::RadioToolButton(new_fillstroke_group, _("stroke"))); stroke_btn->set_tooltip_text(_("Create gradient in the stroke")); stroke_btn->set_icon_name(INKSCAPE_ICON("object-stroke")); _new_fillstroke_buttons.push_back(stroke_btn); int btn_idx = 0; for(auto btn : _new_fillstroke_buttons) { add(*btn); btn->set_sensitive(true); btn->signal_clicked().connect(sigc::bind(sigc::mem_fun(*this, &MeshToolbar::new_fillstroke_changed), btn_idx++)); } gint mode = prefs->getInt("/tools/mesh/newfillorstroke"); _new_fillstroke_buttons[mode]->set_active(); } /* Number of mesh rows */ { std::vector values = {1, 2, 3, 4, 5, 6, 7, 8, 9, 10}; auto rows_val = prefs->getDouble("/tools/mesh/mesh_rows", 1); _row_adj = Gtk::Adjustment::create(rows_val, 1, 20, 1, 1); auto row_item = Gtk::manage(new UI::Widget::SpinButtonToolItem("mesh-row", _("Rows:"), _row_adj, 1.0, 0)); row_item->set_tooltip_text(_("Number of rows in new mesh")); row_item->set_custom_numeric_menu_data(values); row_item->set_focus_widget(desktop->canvas); _row_adj->signal_value_changed().connect(sigc::mem_fun(*this, &MeshToolbar::row_changed)); add(*row_item); row_item->set_sensitive(true); } /* Number of mesh columns */ { std::vector values = {1, 2, 3, 4, 5, 6, 7, 8, 9, 10}; auto col_val = prefs->getDouble("/tools/mesh/mesh_cols", 1); _col_adj = Gtk::Adjustment::create(col_val, 1, 20, 1, 1); auto col_item = Gtk::manage(new UI::Widget::SpinButtonToolItem("mesh-col", _("Columns:"), _col_adj, 1.0, 0)); col_item->set_tooltip_text(_("Number of columns in new mesh")); col_item->set_custom_numeric_menu_data(values); col_item->set_focus_widget(desktop->canvas); _col_adj->signal_value_changed().connect(sigc::mem_fun(*this, &MeshToolbar::col_changed)); add(*col_item); col_item->set_sensitive(true); } add(* Gtk::manage(new Gtk::SeparatorToolItem())); // TODO: These were disabled in the UI file. Either activate or delete #if 0 /* Edit fill mesh */ { _edit_fill_item = add_toggle_button(_("Edit Fill"), _("Edit fill mesh")); _edit_fill_item->set_icon_name(INKSCAPE_ICON("object-fill")); _edit_fill_pusher.reset(new UI::SimplePrefPusher(_edit_fill_item, "/tools/mesh/edit_fill")); _edit_fill_item->signal_toggled().connect(sigc::mem_fun(*this, &MeshToolbar::toggle_fill_stroke)); } /* Edit stroke mesh */ { _edit_stroke_item = add_toggle_button(_("Edit Stroke"), _("Edit stroke mesh")); _edit_stroke_item->set_icon_name(INKSCAPE_ICON("object-stroke")); _edit_stroke_pusher.reset(new UI::SimplePrefPusher(_edit_stroke_item, "/tools/mesh/edit_stroke")); _edit_stroke_item->signal_toggled().connect(sigc::mem_fun(*this, &MeshToolbar::toggle_fill_stroke)); } /* Show/hide side and tensor handles */ { auto show_handles_item = add_toggle_button(_("Show Handles"), _("Show handles")); show_handles_item->set_icon_name(INKSCAPE_ICON("show-node-handles")); _show_handles_pusher.reset(new UI::SimplePrefPusher(show_handles_item, "/tools/mesh/show_handles")); show_handles_item->signal_toggled().connect(sigc::mem_fun(*this, &MeshToolbar::toggle_handles)); } #endif desktop->connectEventContextChanged(sigc::mem_fun(*this, &MeshToolbar::watch_ec)); { auto btn = Gtk::manage(new Gtk::ToolButton(_("Toggle Sides"))); btn->set_tooltip_text(_("Toggle selected sides between Beziers and lines.")); btn->set_icon_name(INKSCAPE_ICON("node-segment-line")); btn->signal_clicked().connect(sigc::mem_fun(*this, &MeshToolbar::toggle_sides)); add(*btn); } { auto btn = Gtk::manage(new Gtk::ToolButton(_("Make elliptical"))); btn->set_tooltip_text(_("Make selected sides elliptical by changing length of handles. Works best if handles already approximate ellipse.")); btn->set_icon_name(INKSCAPE_ICON("node-segment-curve")); btn->signal_clicked().connect(sigc::mem_fun(*this, &MeshToolbar::make_elliptical)); add(*btn); } { auto btn = Gtk::manage(new Gtk::ToolButton(_("Pick colors:"))); btn->set_tooltip_text(_("Pick colors for selected corner nodes from underneath mesh.")); btn->set_icon_name(INKSCAPE_ICON("color-picker")); btn->signal_clicked().connect(sigc::mem_fun(*this, &MeshToolbar::pick_colors)); add(*btn); } { auto btn = Gtk::manage(new Gtk::ToolButton(_("Scale mesh to bounding box:"))); btn->set_tooltip_text(_("Scale mesh to fit inside bounding box.")); btn->set_icon_name(INKSCAPE_ICON("mesh-gradient-fit")); btn->signal_clicked().connect(sigc::mem_fun(*this, &MeshToolbar::fit_mesh)); add(*btn); } add(* Gtk::manage(new Gtk::SeparatorToolItem())); /* Warning */ { auto btn = Gtk::manage(new Gtk::ToolButton(_("WARNING: Mesh SVG Syntax Subject to Change"))); btn->set_tooltip_text(_("WARNING: Mesh SVG Syntax Subject to Change")); btn->set_icon_name(INKSCAPE_ICON("dialog-warning")); add(*btn); btn->signal_clicked().connect(sigc::mem_fun(*this, &MeshToolbar::warning_popup)); btn->set_sensitive(true); } /* Type */ { UI::Widget::ComboToolItemColumns columns; Glib::RefPtr store = Gtk::ListStore::create(columns); Gtk::TreeModel::Row row; row = *(store->append()); row[columns.col_label ] = C_("Type", "Coons"); row[columns.col_sensitive] = true; row = *(store->append()); row[columns.col_label ] = _("Bicubic"); row[columns.col_sensitive] = true; _select_type_item = Gtk::manage(UI::Widget::ComboToolItem::create(_("Smoothing"), // TRANSLATORS: Type of Smoothing. See https://en.wikipedia.org/wiki/Coons_patch _("Coons: no smoothing. Bicubic: smoothing across patch boundaries."), "Not Used", store)); _select_type_item->use_group_label(true); _select_type_item->set_active(0); _select_type_item->signal_changed().connect(sigc::mem_fun(*this, &MeshToolbar::type_changed)); add(*_select_type_item); } show_all(); } /** * Mesh auxiliary toolbar construction and setup. * Don't forget to add to XML in widgets/toolbox.cpp! * */ GtkWidget * MeshToolbar::create(SPDesktop * desktop) { auto toolbar = new MeshToolbar(desktop); return GTK_WIDGET(toolbar->gobj()); } void MeshToolbar::new_geometry_changed(int mode) { Inkscape::Preferences *prefs = Inkscape::Preferences::get(); prefs->setInt("/tools/mesh/mesh_geometry", mode); } void MeshToolbar::new_fillstroke_changed(int mode) { Inkscape::Preferences *prefs = Inkscape::Preferences::get(); prefs->setInt("/tools/mesh/newfillorstroke", mode); } void MeshToolbar::row_changed() { if (blocked) { return; } blocked = TRUE; int rows = _row_adj->get_value(); Inkscape::Preferences *prefs = Inkscape::Preferences::get(); prefs->setInt("/tools/mesh/mesh_rows", rows); blocked = FALSE; } void MeshToolbar::col_changed() { if (blocked) { return; } blocked = TRUE; int cols = _col_adj->get_value(); Inkscape::Preferences *prefs = Inkscape::Preferences::get(); prefs->setInt("/tools/mesh/mesh_cols", cols); blocked = FALSE; } void MeshToolbar::toggle_fill_stroke() { auto prefs = Inkscape::Preferences::get(); prefs->setBool("tools/mesh/edit_fill", _edit_fill_item->get_active()); prefs->setBool("tools/mesh/edit_stroke", _edit_stroke_item->get_active()); MeshTool *mt = get_mesh_tool(); if (mt) { GrDrag *drag = mt->get_drag(); drag->updateDraggers(); drag->updateLines(); drag->updateLevels(); selection_changed(nullptr); // Need to update Type widget } } void MeshToolbar::toggle_handles() { MeshTool *mt = get_mesh_tool(); if (mt) { GrDrag *drag = mt->get_drag(); drag->refreshDraggers(); } } void MeshToolbar::watch_ec(SPDesktop* desktop, Inkscape::UI::Tools::ToolBase* ec) { if (SP_IS_MESH_CONTEXT(ec)) { // connect to selection modified and changed signals Inkscape::Selection *selection = desktop->getSelection(); SPDocument *document = desktop->getDocument(); c_selection_changed = selection->connectChanged(sigc::mem_fun(*this, &MeshToolbar::selection_changed)); c_selection_modified = selection->connectModified(sigc::mem_fun(*this, &MeshToolbar::selection_modified)); c_subselection_changed = desktop->connectToolSubselectionChanged(sigc::mem_fun(*this, &MeshToolbar::drag_selection_changed)); c_defs_release = document->getDefs()->connectRelease(sigc::mem_fun(*this, &MeshToolbar::defs_release)); c_defs_modified = document->getDefs()->connectModified(sigc::mem_fun(*this, &MeshToolbar::defs_modified)); selection_changed(selection); } else { if (c_selection_changed) c_selection_changed.disconnect(); if (c_selection_modified) c_selection_modified.disconnect(); if (c_subselection_changed) c_subselection_changed.disconnect(); if (c_defs_release) c_defs_release.disconnect(); if (c_defs_modified) c_defs_modified.disconnect(); } } void MeshToolbar::selection_modified(Inkscape::Selection *selection, guint /*flags*/) { selection_changed(selection); } void MeshToolbar::drag_selection_changed(gpointer /*dragger*/) { selection_changed(nullptr); } void MeshToolbar::defs_release(SPObject * /*defs*/) { selection_changed(nullptr); } void MeshToolbar::defs_modified(SPObject * /*defs*/, guint /*flags*/) { selection_changed(nullptr); } /* * Core function, setup all the widgets whenever something changes on the desktop */ void MeshToolbar::selection_changed(Inkscape::Selection * /* selection */) { // std::cout << "ms_tb_selection_changed" << std::endl; if (blocked) return; if (!_desktop) { return; } Inkscape::Selection *selection = _desktop->getSelection(); // take from desktop, not from args if (selection) { // ToolBase *ev = sp_desktop_event_context(desktop); // GrDrag *drag = NULL; // if (ev) { // drag = ev->get_drag(); // // Hide/show handles? // } SPMeshGradient *ms_selected = nullptr; SPMeshType ms_type = SP_MESH_TYPE_COONS; bool ms_selected_multi = false; bool ms_type_multi = false; ms_read_selection( selection, ms_selected, ms_selected_multi, ms_type, ms_type_multi ); // std::cout << " type: " << ms_type << std::endl; if (_select_type_item) { _select_type_item->set_sensitive(!ms_type_multi); blocked = TRUE; _select_type_item->set_active(ms_type); blocked = FALSE; } } } void MeshToolbar::warning_popup() { char *msg = _("Mesh gradients are part of SVG 2:\n" "* Syntax may change.\n" "* Web browser implementation is not guaranteed.\n" "\n" "For web: convert to bitmap (Edit->Make bitmap copy).\n" "For print: export to PDF."); Gtk::MessageDialog dialog(msg, false, Gtk::MESSAGE_WARNING, Gtk::BUTTONS_OK, true); dialog.run(); } /** * Sets mesh type: Coons, Bicubic */ void MeshToolbar::type_changed(int mode) { if (blocked) { return; } Inkscape::Selection *selection = _desktop->getSelection(); std::vector meshes = ms_get_dt_selected_gradients(selection); SPMeshType type = (SPMeshType) mode; for (auto & meshe : meshes) { meshe->type = type; meshe->type_set = true; meshe->updateRepr(); } if (!meshes.empty() ) { DocumentUndo::done(_desktop->getDocument(), _("Set mesh type"), INKSCAPE_ICON("mesh-gradient")); } } void MeshToolbar::toggle_sides() { if (MeshTool *mt = get_mesh_tool()) { mt->corner_operation(MG_CORNER_SIDE_TOGGLE); } } void MeshToolbar::make_elliptical() { if (MeshTool *mt = get_mesh_tool()) { mt->corner_operation(MG_CORNER_SIDE_ARC); } } void MeshToolbar::pick_colors() { if (MeshTool *mt = get_mesh_tool()) { mt->corner_operation(MG_CORNER_COLOR_PICK); } } void MeshToolbar::fit_mesh() { if (MeshTool *mt = get_mesh_tool()) { mt->fit_mesh_in_bbox(); } } } } } /* 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 :