// SPDX-License-Identifier: GPL-2.0-or-later /** * @file * Transform dialog - implementation. */ /* Authors: * Bryce W. Harrington * buliabyak@gmail.com * Abhishek Sharma * * Copyright (C) 2004, 2005 Authors * Released under GNU GPL v2+, read the file 'COPYING' for more information. */ #include "transformation.h" #include #include <2geom/transforms.h> #include "desktop.h" #include "document-undo.h" #include "document.h" #include "inkscape.h" #include "message-stack.h" #include "selection-chemistry.h" #include "object/algorithms/bboxsort.h" #include "object/sp-item-transform.h" #include "object/sp-namedview.h" #include "ui/icon-loader.h" #include "ui/icon-names.h" namespace Inkscape { namespace UI { namespace Dialog { /*######################################################################## # C O N S T R U C T O R ########################################################################*/ Transformation::Transformation() : DialogBase("/dialogs/transformation", "Transform"), _page_move (4, 2), _page_scale (4, 2), _page_rotate (4, 2), _page_skew (4, 2), _page_transform (3, 3), _scalar_move_horizontal (_("_Horizontal:"), _("Horizontal displacement (relative) or position (absolute)"), UNIT_TYPE_LINEAR, "", "transform-move-horizontal", &_units_move), _scalar_move_vertical (_("_Vertical:"), _("Vertical displacement (relative) or position (absolute)"), UNIT_TYPE_LINEAR, "", "transform-move-vertical", &_units_move), _scalar_scale_horizontal(_("_Width:"), _("Horizontal size (absolute or percentage of current)"), UNIT_TYPE_DIMENSIONLESS, "", "transform-scale-horizontal", &_units_scale), _scalar_scale_vertical (_("_Height:"), _("Vertical size (absolute or percentage of current)"), UNIT_TYPE_DIMENSIONLESS, "", "transform-scale-vertical", &_units_scale), _scalar_rotate (_("A_ngle:"), _("Rotation angle (positive = counterclockwise)"), UNIT_TYPE_RADIAL, "", "transform-rotate", &_units_rotate), _scalar_skew_horizontal (_("_Horizontal:"), _("Horizontal skew angle (positive = counterclockwise), or absolute displacement, or percentage displacement"), UNIT_TYPE_LINEAR, "", "transform-skew-horizontal", &_units_skew), _scalar_skew_vertical (_("_Vertical:"), _("Vertical skew angle (positive = clockwise), or absolute displacement, or percentage displacement"), UNIT_TYPE_LINEAR, "", "transform-skew-vertical", &_units_skew), _scalar_transform_a ("", _("Transformation matrix element A")), _scalar_transform_b ("", _("Transformation matrix element B")), _scalar_transform_c ("", _("Transformation matrix element C")), _scalar_transform_d ("", _("Transformation matrix element D")), _scalar_transform_e ("", _("Transformation matrix element E"), UNIT_TYPE_LINEAR, "", "", &_units_transform), _scalar_transform_f ("", _("Transformation matrix element F"), UNIT_TYPE_LINEAR, "", "", &_units_transform), _counterclockwise_rotate (), _clockwise_rotate (), _check_move_relative (_("Rela_tive move")), _check_scale_proportional (_("_Scale proportionally")), _check_apply_separately (_("Apply to each _object separately")), _check_replace_matrix (_("Edit c_urrent matrix")) { _check_move_relative.set_use_underline(); _check_move_relative.set_tooltip_text(_("Add the specified relative displacement to the current position; otherwise, edit the current absolute position directly")); _check_scale_proportional.set_use_underline(); _check_scale_proportional.set_tooltip_text(_("Preserve the width/height ratio of the scaled objects")); _check_apply_separately.set_use_underline(); _check_apply_separately.set_tooltip_text(_("Apply the scale/rotate/skew to each selected object separately; otherwise, transform the selection as a whole")); _check_replace_matrix.set_use_underline(); _check_replace_matrix.set_tooltip_text(_("Edit the current transform= matrix; otherwise, post-multiply transform= by this matrix")); set_spacing(0); // Notebook for individual transformations pack_start(_notebook, false, false); _page_move.set_halign(Gtk::ALIGN_START); _notebook.append_page(_page_move, _("_Move"), true); layoutPageMove(); _page_scale.set_halign(Gtk::ALIGN_START); _notebook.append_page(_page_scale, _("_Scale"), true); layoutPageScale(); _page_rotate.set_halign(Gtk::ALIGN_START); _notebook.append_page(_page_rotate, _("_Rotate"), true); layoutPageRotate(); _page_skew.set_halign(Gtk::ALIGN_START); _notebook.append_page(_page_skew, _("Ske_w"), true); layoutPageSkew(); _page_transform.set_halign(Gtk::ALIGN_START); _notebook.append_page(_page_transform, _("Matri_x"), true); layoutPageTransform(); _tabSwitchConn = _notebook.signal_switch_page().connect(sigc::mem_fun(*this, &Transformation::onSwitchPage)); // Apply separately pack_start(_check_apply_separately, false, false); Inkscape::Preferences *prefs = Inkscape::Preferences::get(); _check_apply_separately.set_active(prefs->getBool("/dialogs/transformation/applyseparately")); _check_apply_separately.signal_toggled().connect(sigc::mem_fun(*this, &Transformation::onApplySeparatelyToggled)); // make sure all spinbuttons activate Apply on pressing Enter ((Gtk::Entry *) (_scalar_move_horizontal.getWidget()))->signal_activate().connect(sigc::mem_fun(*this, &Transformation::_apply)); ((Gtk::Entry *) (_scalar_move_vertical.getWidget()))->signal_activate().connect(sigc::mem_fun(*this, &Transformation::_apply)); ((Gtk::Entry *) (_scalar_scale_horizontal.getWidget()))->signal_activate().connect(sigc::mem_fun(*this, &Transformation::_apply)); ((Gtk::Entry *) (_scalar_scale_vertical.getWidget()))->signal_activate().connect(sigc::mem_fun(*this, &Transformation::_apply)); ((Gtk::Entry *) (_scalar_rotate.getWidget()))->signal_activate().connect(sigc::mem_fun(*this, &Transformation::_apply)); ((Gtk::Entry *) (_scalar_skew_horizontal.getWidget()))->signal_activate().connect(sigc::mem_fun(*this, &Transformation::_apply)); ((Gtk::Entry *) (_scalar_skew_vertical.getWidget()))->signal_activate().connect(sigc::mem_fun(*this, &Transformation::_apply)); resetButton = Gtk::manage(new Gtk::Button()); resetButton->set_image_from_icon_name("reset-settings-symbolic"); resetButton->set_size_request(30, -1); resetButton->set_halign(Gtk::ALIGN_CENTER); resetButton->set_use_underline(); resetButton->set_tooltip_text(_("Reset the values on the current tab to defaults")); resetButton->set_sensitive(true); resetButton->signal_clicked().connect(sigc::mem_fun(*this, &Transformation::onClear)); applyButton = Gtk::manage(new Gtk::Button(_("_Apply"))); applyButton->set_use_underline(); applyButton->set_halign(Gtk::ALIGN_CENTER); applyButton->set_tooltip_text(_("Apply transformation to selection")); applyButton->set_sensitive(false); applyButton->signal_clicked().connect(sigc::mem_fun(*this, &Transformation::_apply)); applyButton->get_style_context()->add_class("wide-apply-button"); auto button_box = Gtk::manage(new Gtk::Box()); button_box->set_margin_top(4); button_box->set_spacing(8); button_box->set_halign(Gtk::ALIGN_CENTER); button_box->pack_start(*applyButton); button_box->pack_start(*resetButton); pack_start(*button_box, Gtk::PACK_SHRINK, 0); show_all_children(); } Transformation::~Transformation() { _tabSwitchConn.disconnect(); } void Transformation::selectionChanged(Inkscape::Selection *selection) { updateSelection((Inkscape::UI::Dialog::Transformation::PageType)getCurrentPage(), selection); } void Transformation::selectionModified(Inkscape::Selection *selection, guint flags) { selectionChanged(selection); } /*######################################################################## # U T I L I T Y ########################################################################*/ void Transformation::presentPage(Transformation::PageType page) { _notebook.set_current_page(page); show(); } /*######################################################################## # S E T U P L A Y O U T ########################################################################*/ void Transformation::layoutPageMove() { _units_move.setUnitType(UNIT_TYPE_LINEAR); _scalar_move_horizontal.initScalar(-1e6, 1e6); _scalar_move_horizontal.setDigits(3); _scalar_move_horizontal.setIncrements(0.1, 1.0); _scalar_move_horizontal.set_hexpand(); _scalar_move_horizontal.setWidthChars(7); _scalar_move_vertical.initScalar(-1e6, 1e6); _scalar_move_vertical.setDigits(3); _scalar_move_vertical.setIncrements(0.1, 1.0); _scalar_move_vertical.set_hexpand(); _scalar_move_vertical.setWidthChars(7); //_scalar_move_vertical.set_label_image( INKSCAPE_STOCK_ARROWS_HOR ); _page_move.table().attach(_scalar_move_horizontal, 0, 0, 2, 1); _page_move.table().attach(_units_move, 2, 0, 1, 1); _scalar_move_horizontal.signal_value_changed() .connect(sigc::mem_fun(*this, &Transformation::onMoveValueChanged)); //_scalar_move_vertical.set_label_image( INKSCAPE_STOCK_ARROWS_VER ); _page_move.table().attach(_scalar_move_vertical, 0, 1, 2, 1); _scalar_move_vertical.signal_value_changed() .connect(sigc::mem_fun(*this, &Transformation::onMoveValueChanged)); // Relative moves _page_move.table().attach(_check_move_relative, 0, 2, 2, 1); _check_move_relative.set_active(true); _check_move_relative.signal_toggled() .connect(sigc::mem_fun(*this, &Transformation::onMoveRelativeToggled)); } void Transformation::layoutPageScale() { _units_scale.setUnitType(UNIT_TYPE_DIMENSIONLESS); _units_scale.setUnitType(UNIT_TYPE_LINEAR); _scalar_scale_horizontal.initScalar(-1e6, 1e6); _scalar_scale_horizontal.setValue(100.0, "%"); _scalar_scale_horizontal.setDigits(3); _scalar_scale_horizontal.setIncrements(0.1, 1.0); _scalar_scale_horizontal.setAbsoluteIsIncrement(true); _scalar_scale_horizontal.setPercentageIsIncrement(true); _scalar_scale_horizontal.set_hexpand(); _scalar_scale_horizontal.setWidthChars(7); _scalar_scale_vertical.initScalar(-1e6, 1e6); _scalar_scale_vertical.setValue(100.0, "%"); _scalar_scale_vertical.setDigits(3); _scalar_scale_vertical.setIncrements(0.1, 1.0); _scalar_scale_vertical.setAbsoluteIsIncrement(true); _scalar_scale_vertical.setPercentageIsIncrement(true); _scalar_scale_vertical.set_hexpand(); _scalar_scale_vertical.setWidthChars(7); _page_scale.table().attach(_scalar_scale_horizontal, 0, 0, 2, 1); _scalar_scale_horizontal.signal_value_changed() .connect(sigc::mem_fun(*this, &Transformation::onScaleXValueChanged)); _page_scale.table().attach(_units_scale, 2, 0, 1, 1); _page_scale.table().attach(_scalar_scale_vertical, 0, 1, 2, 1); _scalar_scale_vertical.signal_value_changed() .connect(sigc::mem_fun(*this, &Transformation::onScaleYValueChanged)); _page_scale.table().attach(_check_scale_proportional, 0, 2, 2, 1); _check_scale_proportional.set_active(false); _check_scale_proportional.signal_toggled() .connect(sigc::mem_fun(*this, &Transformation::onScaleProportionalToggled)); //TODO: add a widget for selecting the fixed point in scaling, or honour rotation center? } void Transformation::layoutPageRotate() { _units_rotate.setUnitType(UNIT_TYPE_RADIAL); _scalar_rotate.initScalar(-360.0, 360.0); _scalar_rotate.setDigits(3); _scalar_rotate.setIncrements(0.1, 1.0); _scalar_rotate.set_hexpand(); auto object_rotate_left_icon = Gtk::manage(sp_get_icon_image("object-rotate-left", Gtk::ICON_SIZE_SMALL_TOOLBAR)); _counterclockwise_rotate.add(*object_rotate_left_icon); _counterclockwise_rotate.set_mode(false); _counterclockwise_rotate.set_relief(Gtk::RELIEF_NONE); _counterclockwise_rotate.set_tooltip_text(_("Rotate in a counterclockwise direction")); auto object_rotate_right_icon = Gtk::manage(sp_get_icon_image("object-rotate-right", Gtk::ICON_SIZE_SMALL_TOOLBAR)); _clockwise_rotate.add(*object_rotate_right_icon); _clockwise_rotate.set_mode(false); _clockwise_rotate.set_relief(Gtk::RELIEF_NONE); _clockwise_rotate.set_tooltip_text(_("Rotate in a clockwise direction")); Gtk::RadioButton::Group group = _counterclockwise_rotate.get_group(); _clockwise_rotate.set_group(group); auto box = Gtk::make_managed(); _counterclockwise_rotate.set_halign(Gtk::ALIGN_START); _clockwise_rotate.set_halign(Gtk::ALIGN_START); box->pack_start(_counterclockwise_rotate); box->pack_start(_clockwise_rotate); _page_rotate.table().attach(_scalar_rotate, 0, 0, 1, 1); _page_rotate.table().attach(_units_rotate, 1, 0, 1, 1); _page_rotate.table().attach(*box, 1, 1, 1, 1); _scalar_rotate.signal_value_changed() .connect(sigc::mem_fun(*this, &Transformation::onRotateValueChanged)); _counterclockwise_rotate.signal_clicked().connect(sigc::mem_fun(*this, &Transformation::onRotateCounterclockwiseClicked)); _clockwise_rotate.signal_clicked().connect(sigc::mem_fun(*this, &Transformation::onRotateClockwiseClicked)); //TODO: honour rotation center? } void Transformation::layoutPageSkew() { _units_skew.setUnitType(UNIT_TYPE_LINEAR); _units_skew.setUnitType(UNIT_TYPE_DIMENSIONLESS); _units_skew.setUnitType(UNIT_TYPE_RADIAL); _scalar_skew_horizontal.initScalar(-1e6, 1e6); _scalar_skew_horizontal.setDigits(3); _scalar_skew_horizontal.setIncrements(0.1, 1.0); _scalar_skew_horizontal.set_hexpand(); _scalar_skew_horizontal.setWidthChars(7); _scalar_skew_vertical.initScalar(-1e6, 1e6); _scalar_skew_vertical.setDigits(3); _scalar_skew_vertical.setIncrements(0.1, 1.0); _scalar_skew_vertical.set_hexpand(); _scalar_skew_vertical.setWidthChars(7); _page_skew.table().attach(_scalar_skew_horizontal, 0, 0, 2, 1); _page_skew.table().attach(_units_skew, 2, 0, 1, 1); _page_skew.table().attach(_scalar_skew_vertical, 0, 1, 2, 1); _scalar_skew_horizontal.signal_value_changed() .connect(sigc::mem_fun(*this, &Transformation::onSkewValueChanged)); _scalar_skew_vertical.signal_value_changed() .connect(sigc::mem_fun(*this, &Transformation::onSkewValueChanged)); //TODO: honour rotation center? } void Transformation::layoutPageTransform() { _units_transform.setUnitType(UNIT_TYPE_LINEAR); _units_transform.set_tooltip_text(_("E and F units")); _units_transform.set_halign(Gtk::ALIGN_END); _units_transform.set_margin_top(3); _units_transform.set_margin_bottom(3); UI::Widget::Scalar* labels[] = {&_scalar_transform_a, &_scalar_transform_b, &_scalar_transform_c, &_scalar_transform_d, &_scalar_transform_e, &_scalar_transform_f}; for (auto label : labels) { label->hide_label(); label->set_margin_start(2); label->set_margin_end(2); } _page_transform.table().set_column_spacing(0); _page_transform.table().set_row_spacing(1); _page_transform.table().set_column_homogeneous(true); _scalar_transform_a.setWidgetSizeRequest(65, -1); _scalar_transform_a.setRange(-1e10, 1e10); _scalar_transform_a.setDigits(3); _scalar_transform_a.setIncrements(0.1, 1.0); _scalar_transform_a.setValue(1.0); _scalar_transform_a.setWidthChars(6); _scalar_transform_a.set_hexpand(); _page_transform.table().attach(*Gtk::make_managed("A:"), 0, 0, 1, 1); _page_transform.table().attach(_scalar_transform_a, 0, 1, 1, 1); _scalar_transform_a.signal_value_changed() .connect(sigc::mem_fun(*this, &Transformation::onTransformValueChanged)); _scalar_transform_b.setWidgetSizeRequest(65, -1); _scalar_transform_b.setRange(-1e10, 1e10); _scalar_transform_b.setDigits(3); _scalar_transform_b.setIncrements(0.1, 1.0); _scalar_transform_b.setValue(0.0); _scalar_transform_b.setWidthChars(6); _scalar_transform_b.set_hexpand(); _page_transform.table().attach(*Gtk::make_managed("B:"), 0, 2, 1, 1); _page_transform.table().attach(_scalar_transform_b, 0, 3, 1, 1); _scalar_transform_b.signal_value_changed() .connect(sigc::mem_fun(*this, &Transformation::onTransformValueChanged)); _scalar_transform_c.setWidgetSizeRequest(65, -1); _scalar_transform_c.setRange(-1e10, 1e10); _scalar_transform_c.setDigits(3); _scalar_transform_c.setIncrements(0.1, 1.0); _scalar_transform_c.setValue(0.0); _scalar_transform_c.setWidthChars(6); _scalar_transform_c.set_hexpand(); _page_transform.table().attach(*Gtk::make_managed("C:"), 1, 0, 1, 1); _page_transform.table().attach(_scalar_transform_c, 1, 1, 1, 1); _scalar_transform_c.signal_value_changed() .connect(sigc::mem_fun(*this, &Transformation::onTransformValueChanged)); _scalar_transform_d.setWidgetSizeRequest(65, -1); _scalar_transform_d.setRange(-1e10, 1e10); _scalar_transform_d.setDigits(3); _scalar_transform_d.setIncrements(0.1, 1.0); _scalar_transform_d.setValue(1.0); _scalar_transform_d.setWidthChars(6); _scalar_transform_d.set_hexpand(); _page_transform.table().attach(*Gtk::make_managed("D:"), 1, 2, 1, 1); _page_transform.table().attach(_scalar_transform_d, 1, 3, 1, 1); _scalar_transform_d.signal_value_changed() .connect(sigc::mem_fun(*this, &Transformation::onTransformValueChanged)); _scalar_transform_e.setWidgetSizeRequest(65, -1); _scalar_transform_e.setRange(-1e10, 1e10); _scalar_transform_e.setDigits(3); _scalar_transform_e.setIncrements(0.1, 1.0); _scalar_transform_e.setValue(0.0); _scalar_transform_e.setWidthChars(6); _scalar_transform_e.set_hexpand(); _page_transform.table().attach(*Gtk::make_managed("E:"), 2, 0, 1, 1); _page_transform.table().attach(_scalar_transform_e, 2, 1, 1, 1); _scalar_transform_e.signal_value_changed() .connect(sigc::mem_fun(*this, &Transformation::onTransformValueChanged)); _scalar_transform_f.setWidgetSizeRequest(65, -1); _scalar_transform_f.setRange(-1e10, 1e10); _scalar_transform_f.setDigits(3); _scalar_transform_f.setIncrements(0.1, 1.0); _scalar_transform_f.setValue(0.0); _scalar_transform_f.setWidthChars(6); _scalar_transform_f.set_hexpand(); _page_transform.table().attach(*Gtk::make_managed("F:"), 2, 2, 1, 1); _page_transform.table().attach(_scalar_transform_f, 2, 3, 1, 1); auto img = Gtk::make_managed(); img->set_from_icon_name("matrix-2d", Gtk::ICON_SIZE_BUTTON); img->set_pixel_size(52); img->set_margin_top(4); img->set_margin_bottom(4); _page_transform.table().attach(*img, 0, 5, 1, 1); auto descr = Gtk::make_managed(); descr->set_line_wrap(); descr->set_line_wrap_mode(Pango::WRAP_WORD); descr->set_text( "" "" "2D transformation matrix that combines translation (E,F), scaling (A,D)," " rotation (A-D) and shearing (B,C)." "" ); descr->set_use_markup(); _page_transform.table().attach(*descr, 1, 5, 2, 1); _page_transform.table().attach(_units_transform, 2, 4, 1, 1); _scalar_transform_f.signal_value_changed() .connect(sigc::mem_fun(*this, &Transformation::onTransformValueChanged)); // Edit existing matrix _page_transform.table().attach(_check_replace_matrix, 0, 4, 2, 1); _check_replace_matrix.set_active(false); _check_replace_matrix.signal_toggled() .connect(sigc::mem_fun(*this, &Transformation::onReplaceMatrixToggled)); } /*######################################################################## # U P D A T E ########################################################################*/ void Transformation::updateSelection(PageType page, Inkscape::Selection *selection) { applyButton->set_sensitive(selection && !selection->isEmpty()); if (!selection || selection->isEmpty()) return; switch (page) { case PAGE_MOVE: { updatePageMove(selection); break; } case PAGE_SCALE: { updatePageScale(selection); break; } case PAGE_ROTATE: { updatePageRotate(selection); break; } case PAGE_SKEW: { updatePageSkew(selection); break; } case PAGE_TRANSFORM: { updatePageTransform(selection); break; } case PAGE_QTY: { break; } } } void Transformation::onSwitchPage(Gtk::Widget * /*page*/, guint pagenum) { if (!getDesktop()) { return; } updateSelection((PageType)pagenum, getDesktop()->getSelection()); } void Transformation::updatePageMove(Inkscape::Selection *selection) { if (selection && !selection->isEmpty()) { if (!_check_move_relative.get_active()) { Geom::OptRect bbox = selection->preferredBounds(); if (bbox) { double x = bbox->min()[Geom::X]; double y = bbox->min()[Geom::Y]; double conversion = _units_move.getConversion("px"); _scalar_move_horizontal.setValue(x / conversion); _scalar_move_vertical.setValue(y / conversion); } } else { // do nothing, so you can apply the same relative move to many objects in turn } _page_move.set_sensitive(true); } else { _page_move.set_sensitive(false); } } void Transformation::updatePageScale(Inkscape::Selection *selection) { if (selection && !selection->isEmpty()) { Geom::OptRect bbox = selection->preferredBounds(); if (bbox) { double w = bbox->dimensions()[Geom::X]; double h = bbox->dimensions()[Geom::Y]; _scalar_scale_horizontal.setHundredPercent(w); _scalar_scale_vertical.setHundredPercent(h); onScaleXValueChanged(); // to update x/y proportionality if switch is on _page_scale.set_sensitive(true); } else { _page_scale.set_sensitive(false); } } else { _page_scale.set_sensitive(false); } } void Transformation::updatePageRotate(Inkscape::Selection *selection) { if (selection && !selection->isEmpty()) { _page_rotate.set_sensitive(true); } else { _page_rotate.set_sensitive(false); } } void Transformation::updatePageSkew(Inkscape::Selection *selection) { if (selection && !selection->isEmpty()) { Geom::OptRect bbox = selection->preferredBounds(); if (bbox) { double w = bbox->dimensions()[Geom::X]; double h = bbox->dimensions()[Geom::Y]; _scalar_skew_vertical.setHundredPercent(w); _scalar_skew_horizontal.setHundredPercent(h); _page_skew.set_sensitive(true); } else { _page_skew.set_sensitive(false); } } else { _page_skew.set_sensitive(false); } } void Transformation::updatePageTransform(Inkscape::Selection *selection) { if (selection && !selection->isEmpty()) { if (_check_replace_matrix.get_active()) { Geom::Affine current (selection->items().front()->transform); // take from the first item in selection Geom::Affine new_displayed = current; _scalar_transform_a.setValue(new_displayed[0]); _scalar_transform_b.setValue(new_displayed[1]); _scalar_transform_c.setValue(new_displayed[2]); _scalar_transform_d.setValue(new_displayed[3]); _scalar_transform_e.setValue(new_displayed[4], "px"); _scalar_transform_f.setValue(new_displayed[5], "px"); } else { // do nothing, so you can apply the same matrix to many objects in turn } _page_transform.set_sensitive(true); } else { _page_transform.set_sensitive(false); } } /*######################################################################## # A P P L Y ########################################################################*/ void Transformation::_apply() { auto selection = getSelection(); if (!selection || selection->isEmpty()) return; int const page = _notebook.get_current_page(); switch (page) { case PAGE_MOVE: { applyPageMove(selection); break; } case PAGE_ROTATE: { applyPageRotate(selection); break; } case PAGE_SCALE: { applyPageScale(selection); break; } case PAGE_SKEW: { applyPageSkew(selection); break; } case PAGE_TRANSFORM: { applyPageTransform(selection); break; } } // Let's play with never turning this off applyButton->set_sensitive(false); } void Transformation::applyPageMove(Inkscape::Selection *selection) { double x = _scalar_move_horizontal.getValue("px"); double y = _scalar_move_vertical.getValue("px"); if (_check_move_relative.get_active()) { y *= getDesktop()->yaxisdir(); } Inkscape::Preferences *prefs = Inkscape::Preferences::get(); if (!prefs->getBool("/dialogs/transformation/applyseparately")) { // move selection as a whole if (_check_move_relative.get_active()) { selection->moveRelative(x, y); } else { Geom::OptRect bbox = selection->preferredBounds(); if (bbox) { selection->moveRelative(x - bbox->min()[Geom::X], y - bbox->min()[Geom::Y]); } } } else { if (_check_move_relative.get_active()) { // shift each object relatively to the previous one std::vector selected(selection->items().begin(), selection->items().end()); if (selected.empty()) return; if (fabs(x) > 1e-6) { std::vector< BBoxSort > sorted; for (auto item : selected) { Geom::OptRect bbox = item->desktopPreferredBounds(); if (bbox) { sorted.emplace_back(item, *bbox, Geom::X, x > 0? 1. : 0., x > 0? 0. : 1.); } } //sort bbox by anchors std::stable_sort(sorted.begin(), sorted.end()); double move = x; for ( std::vector ::iterator it (sorted.begin()); it < sorted.end(); ++it ) { it->item->move_rel(Geom::Translate(move, 0)); // move each next object by x relative to previous move += x; } } if (fabs(y) > 1e-6) { std::vector< BBoxSort > sorted; for (auto item : selected) { Geom::OptRect bbox = item->desktopPreferredBounds(); if (bbox) { sorted.emplace_back(item, *bbox, Geom::Y, y > 0? 1. : 0., y > 0? 0. : 1.); } } //sort bbox by anchors std::stable_sort(sorted.begin(), sorted.end()); double move = y; for ( std::vector ::iterator it (sorted.begin()); it < sorted.end(); ++it ) { it->item->move_rel(Geom::Translate(0, move)); // move each next object by x relative to previous move += y; } } } else { Geom::OptRect bbox = selection->preferredBounds(); if (bbox) { selection->moveRelative(x - bbox->min()[Geom::X], y - bbox->min()[Geom::Y]); } } } DocumentUndo::done( selection->desktop()->getDocument(), _("Move"), INKSCAPE_ICON("dialog-transform")); } void Transformation::applyPageScale(Inkscape::Selection *selection) { double scaleX = _scalar_scale_horizontal.getValue("px"); double scaleY = _scalar_scale_vertical.getValue("px"); Inkscape::Preferences *prefs = Inkscape::Preferences::get(); bool transform_stroke = prefs->getBool("/options/transform/stroke", true); bool preserve = prefs->getBool("/options/preservetransform/value", false); if (prefs->getBool("/dialogs/transformation/applyseparately")) { auto tmp= selection->items(); for(auto i=tmp.begin();i!=tmp.end();++i){ SPItem *item = *i; Geom::OptRect bbox_pref = item->desktopPreferredBounds(); Geom::OptRect bbox_geom = item->desktopGeometricBounds(); if (bbox_pref && bbox_geom) { double new_width = scaleX; double new_height = scaleY; // the values are increments! if (!_units_scale.isAbsolute()) { // Relative scaling, i.e in percent new_width = scaleX/100 * bbox_pref->width(); new_height = scaleY/100 * bbox_pref->height(); } if (fabs(new_width) < 1e-6) new_width = 1e-6; // not 0, as this would result in a nasty no-bbox object if (fabs(new_height) < 1e-6) new_height = 1e-6; double x0 = bbox_pref->midpoint()[Geom::X] - new_width/2; double y0 = bbox_pref->midpoint()[Geom::Y] - new_height/2; double x1 = bbox_pref->midpoint()[Geom::X] + new_width/2; double y1 = bbox_pref->midpoint()[Geom::Y] + new_height/2; Geom::Affine scaler = get_scale_transform_for_variable_stroke (*bbox_pref, *bbox_geom, transform_stroke, preserve, x0, y0, x1, y1); item->set_i2d_affine(item->i2dt_affine() * scaler); item->doWriteTransform(item->transform); } } } else { Geom::OptRect bbox_pref = selection->preferredBounds(); Geom::OptRect bbox_geom = selection->geometricBounds(); if (bbox_pref && bbox_geom) { // the values are increments! double new_width = scaleX; double new_height = scaleY; if (!_units_scale.isAbsolute()) { // Relative scaling, i.e in percent new_width = scaleX/100 * bbox_pref->width(); new_height = scaleY/100 * bbox_pref->height(); } if (fabs(new_width) < 1e-6) new_width = 1e-6; if (fabs(new_height) < 1e-6) new_height = 1e-6; double x0 = bbox_pref->midpoint()[Geom::X] - new_width/2; double y0 = bbox_pref->midpoint()[Geom::Y] - new_height/2; double x1 = bbox_pref->midpoint()[Geom::X] + new_width/2; double y1 = bbox_pref->midpoint()[Geom::Y] + new_height/2; Geom::Affine scaler = get_scale_transform_for_variable_stroke (*bbox_pref, *bbox_geom, transform_stroke, preserve, x0, y0, x1, y1); selection->applyAffine(scaler); } } DocumentUndo::done(selection->desktop()->getDocument(), _("Scale"), INKSCAPE_ICON("dialog-transform")); } void Transformation::applyPageRotate(Inkscape::Selection *selection) { double angle = _scalar_rotate.getValue(DEG); Inkscape::Preferences *prefs = Inkscape::Preferences::get(); if (!prefs->getBool("/dialogs/transformation/rotateCounterClockwise", TRUE)) { angle *= -1; } if (prefs->getBool("/dialogs/transformation/applyseparately")) { auto tmp= selection->items(); for(auto i=tmp.begin();i!=tmp.end();++i){ SPItem *item = *i; item->rotate_rel(Geom::Rotate (angle*M_PI/180.0)); } } else { std::optional center = selection->center(); if (center) { selection->rotateRelative(*center, angle); } } DocumentUndo::done(selection->desktop()->getDocument(), _("Rotate"), INKSCAPE_ICON("dialog-transform")); } void Transformation::applyPageSkew(Inkscape::Selection *selection) { Inkscape::Preferences *prefs = Inkscape::Preferences::get(); if (prefs->getBool("/dialogs/transformation/applyseparately")) { auto items = selection->items(); for(auto i = items.begin();i!=items.end();++i){ SPItem *item = *i; if (!_units_skew.isAbsolute()) { // percentage double skewX = _scalar_skew_horizontal.getValue("%"); double skewY = _scalar_skew_vertical.getValue("%"); skewY *= getDesktop()->yaxisdir(); if (fabs(0.01*skewX*0.01*skewY - 1.0) < Geom::EPSILON) { getDesktop()->getMessageStack()->flash(Inkscape::WARNING_MESSAGE, _("Transform matrix is singular, not used.")); return; } item->skew_rel(0.01*skewX, 0.01*skewY); } else if (_units_skew.isRadial()) { //deg or rad double angleX = _scalar_skew_horizontal.getValue("rad"); double angleY = _scalar_skew_vertical.getValue("rad"); if ((fabs(angleX - angleY + M_PI/2) < Geom::EPSILON) || (fabs(angleX - angleY - M_PI/2) < Geom::EPSILON) || (fabs((angleX - angleY)/3 + M_PI/2) < Geom::EPSILON) || (fabs((angleX - angleY)/3 - M_PI/2) < Geom::EPSILON)) { getDesktop()->getMessageStack()->flash(Inkscape::WARNING_MESSAGE, _("Transform matrix is singular, not used.")); return; } double skewX = tan(angleX); double skewY = tan(angleY); skewX *= getDesktop()->yaxisdir(); skewY *= getDesktop()->yaxisdir(); item->skew_rel(skewX, skewY); } else { // absolute displacement double skewX = _scalar_skew_horizontal.getValue("px"); double skewY = _scalar_skew_vertical.getValue("px"); skewY *= getDesktop()->yaxisdir(); Geom::OptRect bbox = item->desktopPreferredBounds(); if (bbox) { double width = bbox->dimensions()[Geom::X]; double height = bbox->dimensions()[Geom::Y]; if (fabs(skewX*skewY - width*height) < Geom::EPSILON) { getDesktop()->getMessageStack()->flash(Inkscape::WARNING_MESSAGE, _("Transform matrix is singular, not used.")); return; } item->skew_rel(skewX/height, skewY/width); } } } } else { // transform whole selection Geom::OptRect bbox = selection->preferredBounds(); std::optional center = selection->center(); if ( bbox && center ) { double width = bbox->dimensions()[Geom::X]; double height = bbox->dimensions()[Geom::Y]; if (!_units_skew.isAbsolute()) { // percentage double skewX = _scalar_skew_horizontal.getValue("%"); double skewY = _scalar_skew_vertical.getValue("%"); skewY *= getDesktop()->yaxisdir(); if (fabs(0.01*skewX*0.01*skewY - 1.0) < Geom::EPSILON) { getDesktop()->getMessageStack()->flash(Inkscape::WARNING_MESSAGE, _("Transform matrix is singular, not used.")); return; } selection->skewRelative(*center, 0.01 * skewX, 0.01 * skewY); } else if (_units_skew.isRadial()) { //deg or rad double angleX = _scalar_skew_horizontal.getValue("rad"); double angleY = _scalar_skew_vertical.getValue("rad"); if ((fabs(angleX - angleY + M_PI/2) < Geom::EPSILON) || (fabs(angleX - angleY - M_PI/2) < Geom::EPSILON) || (fabs((angleX - angleY)/3 + M_PI/2) < Geom::EPSILON) || (fabs((angleX - angleY)/3 - M_PI/2) < Geom::EPSILON)) { getDesktop()->getMessageStack()->flash(Inkscape::WARNING_MESSAGE, _("Transform matrix is singular, not used.")); return; } double skewX = tan(angleX); double skewY = tan(angleY); skewX *= getDesktop()->yaxisdir(); skewY *= getDesktop()->yaxisdir(); selection->skewRelative(*center, skewX, skewY); } else { // absolute displacement double skewX = _scalar_skew_horizontal.getValue("px"); double skewY = _scalar_skew_vertical.getValue("px"); skewY *= getDesktop()->yaxisdir(); if (fabs(skewX*skewY - width*height) < Geom::EPSILON) { getDesktop()->getMessageStack()->flash(Inkscape::WARNING_MESSAGE, _("Transform matrix is singular, not used.")); return; } selection->skewRelative(*center, skewX / height, skewY / width); } } } DocumentUndo::done(selection->desktop()->getDocument(), _("Skew"), INKSCAPE_ICON("dialog-transform")); } void Transformation::applyPageTransform(Inkscape::Selection *selection) { double a = _scalar_transform_a.getValue(); double b = _scalar_transform_b.getValue(); double c = _scalar_transform_c.getValue(); double d = _scalar_transform_d.getValue(); double e = _scalar_transform_e.getValue("px"); double f = _scalar_transform_f.getValue("px"); Geom::Affine displayed(a, b, c, d, e, f); if (displayed.isSingular()) { getDesktop()->getMessageStack()->flash(Inkscape::WARNING_MESSAGE, _("Transform matrix is singular, not used.")); return; } if (_check_replace_matrix.get_active()) { auto tmp = selection->items(); for(auto i=tmp.begin();i!=tmp.end();++i){ SPItem *item = *i; item->set_item_transform(displayed); item->updateRepr(); } } else { selection->applyAffine(displayed); // post-multiply each object's transform } DocumentUndo::done(selection->desktop()->getDocument(), _("Edit transformation matrix"), INKSCAPE_ICON("dialog-transform")); } /*######################################################################## # V A L U E - C H A N G E D C A L L B A C K S ########################################################################*/ void Transformation::onMoveValueChanged() { applyButton->set_sensitive(true); } void Transformation::onMoveRelativeToggled() { auto selection = getSelection(); if (!selection || selection->isEmpty()) return; double x = _scalar_move_horizontal.getValue("px"); double y = _scalar_move_vertical.getValue("px"); double conversion = _units_move.getConversion("px"); //g_message("onMoveRelativeToggled: %f, %f px\n", x, y); Geom::OptRect bbox = selection->preferredBounds(); if (bbox) { if (_check_move_relative.get_active()) { // From absolute to relative _scalar_move_horizontal.setValue((x - bbox->min()[Geom::X]) / conversion); _scalar_move_vertical.setValue(( y - bbox->min()[Geom::Y]) / conversion); } else { // From relative to absolute _scalar_move_horizontal.setValue((bbox->min()[Geom::X] + x) / conversion); _scalar_move_vertical.setValue(( bbox->min()[Geom::Y] + y) / conversion); } } applyButton->set_sensitive(true); } void Transformation::onScaleXValueChanged() { if (_scalar_scale_horizontal.setProgrammatically) { _scalar_scale_horizontal.setProgrammatically = false; return; } applyButton->set_sensitive(true); if (_check_scale_proportional.get_active()) { if (!_units_scale.isAbsolute()) { // percentage, just copy over _scalar_scale_vertical.setValue(_scalar_scale_horizontal.getValue("%")); } else { double scaleXPercentage = _scalar_scale_horizontal.getAsPercentage(); _scalar_scale_vertical.setFromPercentage (scaleXPercentage); } } } void Transformation::onScaleYValueChanged() { if (_scalar_scale_vertical.setProgrammatically) { _scalar_scale_vertical.setProgrammatically = false; return; } applyButton->set_sensitive(true); if (_check_scale_proportional.get_active()) { if (!_units_scale.isAbsolute()) { // percentage, just copy over _scalar_scale_horizontal.setValue(_scalar_scale_vertical.getValue("%")); } else { double scaleYPercentage = _scalar_scale_vertical.getAsPercentage(); _scalar_scale_horizontal.setFromPercentage (scaleYPercentage); } } } void Transformation::onRotateValueChanged() { applyButton->set_sensitive(true); } void Transformation::onRotateCounterclockwiseClicked() { _scalar_rotate.setTooltipText(_("Rotation angle (positive = counterclockwise)")); Inkscape::Preferences *prefs = Inkscape::Preferences::get(); prefs->setBool("/dialogs/transformation/rotateCounterClockwise", !getDesktop()->is_yaxisdown()); } void Transformation::onRotateClockwiseClicked() { _scalar_rotate.setTooltipText(_("Rotation angle (positive = clockwise)")); Inkscape::Preferences *prefs = Inkscape::Preferences::get(); prefs->setBool("/dialogs/transformation/rotateCounterClockwise", getDesktop()->is_yaxisdown()); } void Transformation::onSkewValueChanged() { applyButton->set_sensitive(true); } void Transformation::onTransformValueChanged() { /* double a = _scalar_transform_a.getValue(); double b = _scalar_transform_b.getValue(); double c = _scalar_transform_c.getValue(); double d = _scalar_transform_d.getValue(); double e = _scalar_transform_e.getValue(); double f = _scalar_transform_f.getValue(); //g_message("onTransformValueChanged: (%f, %f, %f, %f, %f, %f)\n", // a, b, c, d, e ,f); */ applyButton->set_sensitive(true); } void Transformation::onReplaceMatrixToggled() { auto selection = getSelection(); if (!selection || selection->isEmpty()) return; double a = _scalar_transform_a.getValue(); double b = _scalar_transform_b.getValue(); double c = _scalar_transform_c.getValue(); double d = _scalar_transform_d.getValue(); double e = _scalar_transform_e.getValue("px"); double f = _scalar_transform_f.getValue("px"); Geom::Affine displayed (a, b, c, d, e, f); Geom::Affine current = selection->items().front()->transform; // take from the first item in selection Geom::Affine new_displayed; if (_check_replace_matrix.get_active()) { new_displayed = current; } else { new_displayed = current.inverse() * displayed; } _scalar_transform_a.setValue(new_displayed[0]); _scalar_transform_b.setValue(new_displayed[1]); _scalar_transform_c.setValue(new_displayed[2]); _scalar_transform_d.setValue(new_displayed[3]); _scalar_transform_e.setValue(new_displayed[4], "px"); _scalar_transform_f.setValue(new_displayed[5], "px"); } void Transformation::onScaleProportionalToggled() { onScaleXValueChanged(); if (_scalar_scale_vertical.setProgrammatically) { _scalar_scale_vertical.setProgrammatically = false; } } void Transformation::onClear() { int const page = _notebook.get_current_page(); switch (page) { case PAGE_MOVE: { auto selection = getSelection(); if (!selection || selection->isEmpty() || _check_move_relative.get_active()) { _scalar_move_horizontal.setValue(0); _scalar_move_vertical.setValue(0); } else { Geom::OptRect bbox = selection->preferredBounds(); if (bbox) { _scalar_move_horizontal.setValue(bbox->min()[Geom::X], "px"); _scalar_move_vertical.setValue(bbox->min()[Geom::Y], "px"); } } break; } case PAGE_ROTATE: { _scalar_rotate.setValue(0); break; } case PAGE_SCALE: { _scalar_scale_horizontal.setValue(100, "%"); _scalar_scale_vertical.setValue(100, "%"); break; } case PAGE_SKEW: { _scalar_skew_horizontal.setValue(0); _scalar_skew_vertical.setValue(0); break; } case PAGE_TRANSFORM: { _scalar_transform_a.setValue(1); _scalar_transform_b.setValue(0); _scalar_transform_c.setValue(0); _scalar_transform_d.setValue(1); _scalar_transform_e.setValue(0, "px"); _scalar_transform_f.setValue(0, "px"); break; } } } void Transformation::onApplySeparatelyToggled() { Inkscape::Preferences *prefs = Inkscape::Preferences::get(); prefs->setBool("/dialogs/transformation/applyseparately", _check_apply_separately.get_active()); } void Transformation::desktopReplaced() { // Setting default unit to document unit if (auto desktop = getDesktop()) { SPNamedView *nv = desktop->getNamedView(); if (nv->display_units) { _units_move.setUnit(nv->display_units->abbr); _units_transform.setUnit(nv->display_units->abbr); } Inkscape::Preferences *prefs = Inkscape::Preferences::get(); if (prefs->getBool("/dialogs/transformation/rotateCounterClockwise", true) != desktop->is_yaxisdown()) { _counterclockwise_rotate.set_active(); onRotateCounterclockwiseClicked(); } else { _clockwise_rotate.set_active(); onRotateClockwiseClicked(); } updateSelection(PAGE_MOVE, getSelection()); } } } // namespace Dialog } // namespace UI } // 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 :