diff options
author | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-07 18:24:48 +0000 |
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committer | Daniel Baumann <daniel.baumann@progress-linux.org> | 2024-04-07 18:24:48 +0000 |
commit | cca66b9ec4e494c1d919bff0f71a820d8afab1fa (patch) | |
tree | 146f39ded1c938019e1ed42d30923c2ac9e86789 /src/ui/dialog/clonetiler.cpp | |
parent | Initial commit. (diff) | |
download | inkscape-upstream/1.2.2.tar.xz inkscape-upstream/1.2.2.zip |
Adding upstream version 1.2.2.upstream/1.2.2upstream
Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>
Diffstat (limited to 'src/ui/dialog/clonetiler.cpp')
-rw-r--r-- | src/ui/dialog/clonetiler.cpp | 2819 |
1 files changed, 2819 insertions, 0 deletions
diff --git a/src/ui/dialog/clonetiler.cpp b/src/ui/dialog/clonetiler.cpp new file mode 100644 index 0000000..9769018 --- /dev/null +++ b/src/ui/dialog/clonetiler.cpp @@ -0,0 +1,2819 @@ +// SPDX-License-Identifier: GPL-2.0-or-later + +/** + * @file + * Clone tiling dialog + */ +/* Authors: + * bulia byak <buliabyak@users.sf.net> + * Johan Engelen <goejendaagh@zonnet.nl> + * Jon A. Cruz <jon@joncruz.org> + * Abhishek Sharma + * Romain de Bossoreille + * + * Copyright (C) 2004-2011 Authors + * Released under GNU GPL v2+, read the file 'COPYING' for more information. + */ + +#include "clonetiler.h" + +#include <glibmm/i18n.h> + +#include <gtkmm/adjustment.h> +#include <gtkmm/checkbutton.h> +#include <gtkmm/combobox.h> +#include <gtkmm/grid.h> +#include <gtkmm/liststore.h> +#include <gtkmm/notebook.h> +#include <gtkmm/radiobutton.h> +#include <gtkmm/sizegroup.h> + +#include <2geom/transforms.h> + +#include "desktop.h" +#include "document-undo.h" +#include "document.h" +#include "filter-chemistry.h" +#include "inkscape.h" +#include "message-stack.h" + +#include "display/cairo-utils.h" +#include "display/drawing-context.h" +#include "display/drawing.h" + +#include "ui/icon-loader.h" + +#include "object/algorithms/unclump.h" + +#include "object/sp-item.h" +#include "object/sp-namedview.h" +#include "object/sp-root.h" +#include "object/sp-use.h" + +#include "ui/icon-names.h" +#include "ui/widget/spinbutton.h" +#include "ui/widget/unit-menu.h" + +#include "svg/svg-color.h" +#include "svg/svg.h" + +using Inkscape::DocumentUndo; +using Inkscape::Util::unit_table; + +namespace Inkscape { +namespace UI { + +namespace Widget { +/** + * Simple extension of Gtk::CheckButton, which adds a flag + * to indicate whether the box should be unticked when reset + */ +class CheckButtonInternal : public Gtk::CheckButton { + private: + bool _uncheckable = false; + public: + CheckButtonInternal() = default; + + CheckButtonInternal(const Glib::ustring &label) + : Gtk::CheckButton(label) + {} + + void set_uncheckable(const bool val = true) { _uncheckable = val; } + bool get_uncheckable() const { return _uncheckable; } +}; +} + +namespace Dialog { + +#define SB_MARGIN 1 +#define VB_MARGIN 4 + +static Glib::ustring const prefs_path = "/dialogs/clonetiler/"; + +static Inkscape::Drawing *trace_drawing = nullptr; +static unsigned trace_visionkey; +static gdouble trace_zoom; +static SPDocument *trace_doc = nullptr; + +CloneTiler::CloneTiler() + : DialogBase("/dialogs/clonetiler/", "CloneTiler") + , table_row_labels(nullptr) +{ + set_spacing(0); + + { + auto prefs = Inkscape::Preferences::get(); + + auto mainbox = Gtk::manage(new Gtk::Box(Gtk::ORIENTATION_VERTICAL, 4)); + mainbox->set_homogeneous(false); + mainbox->set_border_width(6); + + pack_start(*mainbox, true, true, 0); + + nb = Gtk::manage(new Gtk::Notebook()); + mainbox->pack_start(*nb, false, false, 0); + + + // Symmetry + { + auto vb = new_tab(nb, _("_Symmetry")); + + /* TRANSLATORS: For the following 17 symmetry groups, see + * http://www.bib.ulb.ac.be/coursmath/doc/17.htm (visual examples); + * http://www.clarku.edu/~djoyce/wallpaper/seventeen.html (English vocabulary); or + * http://membres.lycos.fr/villemingerard/Geometri/Sym1D.htm (French vocabulary). + */ + struct SymGroups { + gint group; + Glib::ustring label; + } const sym_groups[] = { + // TRANSLATORS: "translation" means "shift" / "displacement" here. + {TILE_P1, _("<b>P1</b>: simple translation")}, + {TILE_P2, _("<b>P2</b>: 180° rotation")}, + {TILE_PM, _("<b>PM</b>: reflection")}, + // TRANSLATORS: "glide reflection" is a reflection and a translation combined. + // For more info, see http://mathforum.org/sum95/suzanne/symsusan.html + {TILE_PG, _("<b>PG</b>: glide reflection")}, + {TILE_CM, _("<b>CM</b>: reflection + glide reflection")}, + {TILE_PMM, _("<b>PMM</b>: reflection + reflection")}, + {TILE_PMG, _("<b>PMG</b>: reflection + 180° rotation")}, + {TILE_PGG, _("<b>PGG</b>: glide reflection + 180° rotation")}, + {TILE_CMM, _("<b>CMM</b>: reflection + reflection + 180° rotation")}, + {TILE_P4, _("<b>P4</b>: 90° rotation")}, + {TILE_P4M, _("<b>P4M</b>: 90° rotation + 45° reflection")}, + {TILE_P4G, _("<b>P4G</b>: 90° rotation + 90° reflection")}, + {TILE_P3, _("<b>P3</b>: 120° rotation")}, + {TILE_P31M, _("<b>P31M</b>: reflection + 120° rotation, dense")}, + {TILE_P3M1, _("<b>P3M1</b>: reflection + 120° rotation, sparse")}, + {TILE_P6, _("<b>P6</b>: 60° rotation")}, + {TILE_P6M, _("<b>P6M</b>: reflection + 60° rotation")}, + }; + + gint current = prefs->getInt(prefs_path + "symmetrygroup", 0); + + // Add a new combo box widget with the list of symmetry groups to the vbox + auto combo = Gtk::manage(new Gtk::ComboBoxText()); + combo->set_tooltip_text(_("Select one of the 17 symmetry groups for the tiling")); + + // Hack to add markup support + auto cell_list = gtk_cell_layout_get_cells(GTK_CELL_LAYOUT(combo->gobj())); + gtk_cell_layout_set_attributes(GTK_CELL_LAYOUT(combo->gobj()), + GTK_CELL_RENDERER(cell_list->data), + "markup", 0, nullptr); + + for (const auto & sg : sym_groups) { + // Add the description of the symgroup to a new row + combo->append(sg.label); + } + + vb->pack_start(*combo, false, false, SB_MARGIN); + + combo->set_active(current); + combo->signal_changed().connect(sigc::bind(sigc::mem_fun(*this, &CloneTiler::symgroup_changed), combo)); + } + + table_row_labels = Gtk::SizeGroup::create(Gtk::SIZE_GROUP_HORIZONTAL); + + // Shift + { + auto vb = new_tab(nb, _("S_hift")); + + auto table = table_x_y_rand (3); + vb->pack_start(*table, false, false, 0); + + // X + { + auto l = Gtk::manage(new Gtk::Label("")); + // TRANSLATORS: "shift" means: the tiles will be shifted (offset) horizontally by this amount + // xgettext:no-c-format + l->set_markup(_("<b>Shift X:</b>")); + l->set_xalign(0.0); + table_row_labels->add_widget(*l); + table_attach (table, l, 1, 2, 1); + } + + { + auto l = spinbox ( + // xgettext:no-c-format + _("Horizontal shift per row (in % of tile width)"), "shiftx_per_j", + -10000, 10000, "%"); + table_attach (table, l, 0, 2, 2); + } + + { + auto l = spinbox ( + // xgettext:no-c-format + _("Horizontal shift per column (in % of tile width)"), "shiftx_per_i", + -10000, 10000, "%"); + table_attach (table, l, 0, 2, 3); + } + + { + auto l = spinbox (_("Randomize the horizontal shift by this percentage"), "shiftx_rand", + 0, 1000, "%"); + table_attach (table, l, 0, 2, 4); + } + + // Y + { + auto l = Gtk::manage(new Gtk::Label("")); + // TRANSLATORS: "shift" means: the tiles will be shifted (offset) vertically by this amount + // xgettext:no-c-format + l->set_markup(_("<b>Shift Y:</b>")); + l->set_xalign(0.0); + table_row_labels->add_widget(*l); + table_attach (table, l, 1, 3, 1); + } + + { + auto l = spinbox ( + // xgettext:no-c-format + _("Vertical shift per row (in % of tile height)"), "shifty_per_j", + -10000, 10000, "%"); + table_attach (table, l, 0, 3, 2); + } + + { + auto l = spinbox ( + // xgettext:no-c-format + _("Vertical shift per column (in % of tile height)"), "shifty_per_i", + -10000, 10000, "%"); + table_attach (table, l, 0, 3, 3); + } + + { + auto l = spinbox ( + _("Randomize the vertical shift by this percentage"), "shifty_rand", + 0, 1000, "%"); + table_attach (table, l, 0, 3, 4); + } + + // Exponent + { + auto l = Gtk::manage(new Gtk::Label("")); + l->set_markup(_("<b>Exponent:</b>")); + l->set_xalign(0.0); + table_row_labels->add_widget(*l); + table_attach (table, l, 1, 4, 1); + } + + { + auto l = spinbox ( + _("Whether rows are spaced evenly (1), converge (<1) or diverge (>1)"), "shifty_exp", + 0, 10, "", true); + table_attach (table, l, 0, 4, 2); + } + + { + auto l = spinbox ( + _("Whether columns are spaced evenly (1), converge (<1) or diverge (>1)"), "shiftx_exp", + 0, 10, "", true); + table_attach (table, l, 0, 4, 3); + } + + { // alternates + auto l = Gtk::manage(new Gtk::Label("")); + // TRANSLATORS: "Alternate" is a verb here + l->set_markup(_("<small>Alternate:</small>")); + l->set_xalign(0.0); + table_row_labels->add_widget(*l); + table_attach (table, l, 1, 5, 1); + } + + { + auto l = checkbox (_("Alternate the sign of shifts for each row"), "shifty_alternate"); + table_attach (table, l, 0, 5, 2); + } + + { + auto l = checkbox (_("Alternate the sign of shifts for each column"), "shiftx_alternate"); + table_attach (table, l, 0, 5, 3); + } + + { // Cumulate + auto l = Gtk::manage(new Gtk::Label("")); + // TRANSLATORS: "Cumulate" is a verb here + l->set_markup(_("<small>Cumulate:</small>")); + l->set_xalign(0.0); + table_row_labels->add_widget(*l); + table_attach (table, l, 1, 6, 1); + } + + { + auto l = checkbox (_("Cumulate the shifts for each row"), "shifty_cumulate"); + table_attach (table, l, 0, 6, 2); + } + + { + auto l = checkbox (_("Cumulate the shifts for each column"), "shiftx_cumulate"); + table_attach (table, l, 0, 6, 3); + } + + { // Exclude tile width and height in shift + auto l = Gtk::manage(new Gtk::Label("")); + // TRANSLATORS: "Cumulate" is a verb here + l->set_markup(_("<small>Exclude tile:</small>")); + l->set_xalign(0.0); + table_row_labels->add_widget(*l); + table_attach (table, l, 1, 7, 1); + } + + { + auto l = checkbox (_("Exclude tile height in shift"), "shifty_excludeh"); + table_attach (table, l, 0, 7, 2); + } + + { + auto l = checkbox (_("Exclude tile width in shift"), "shiftx_excludew"); + table_attach (table, l, 0, 7, 3); + } + + } + + + // Scale + { + auto vb = new_tab(nb, _("Sc_ale")); + + auto table = table_x_y_rand(2); + vb->pack_start(*table, false, false, 0); + + // X + { + auto l = Gtk::manage(new Gtk::Label("")); + l->set_markup(_("<b>Scale X:</b>")); + l->set_xalign(0.0); + table_row_labels->add_widget(*l); + table_attach (table, l, 1, 2, 1); + } + + { + auto l = spinbox ( + // xgettext:no-c-format + _("Horizontal scale per row (in % of tile width)"), "scalex_per_j", + -100, 1000, "%"); + table_attach (table, l, 0, 2, 2); + } + + { + auto l = spinbox ( + // xgettext:no-c-format + _("Horizontal scale per column (in % of tile width)"), "scalex_per_i", + -100, 1000, "%"); + table_attach (table, l, 0, 2, 3); + } + + { + auto l = spinbox (_("Randomize the horizontal scale by this percentage"), "scalex_rand", + 0, 1000, "%"); + table_attach (table, l, 0, 2, 4); + } + + // Y + { + auto l = Gtk::manage(new Gtk::Label("")); + l->set_markup(_("<b>Scale Y:</b>")); + l->set_xalign(0.0); + table_row_labels->add_widget(*l); + table_attach (table, l, 1, 3, 1); + } + + { + auto l = spinbox ( + // xgettext:no-c-format + _("Vertical scale per row (in % of tile height)"), "scaley_per_j", + -100, 1000, "%"); + table_attach (table, l, 0, 3, 2); + } + + { + auto l = spinbox ( + // xgettext:no-c-format + _("Vertical scale per column (in % of tile height)"), "scaley_per_i", + -100, 1000, "%"); + table_attach (table, l, 0, 3, 3); + } + + { + auto l = spinbox (_("Randomize the vertical scale by this percentage"), "scaley_rand", + 0, 1000, "%"); + table_attach (table, l, 0, 3, 4); + } + + // Exponent + { + auto l = Gtk::manage(new Gtk::Label("")); + l->set_markup(_("<b>Exponent:</b>")); + l->set_xalign(0.0); + table_row_labels->add_widget(*l); + table_attach (table, l, 1, 4, 1); + } + + { + auto l = spinbox (_("Whether row scaling is uniform (1), converge (<1) or diverge (>1)"), "scaley_exp", + 0, 10, "", true); + table_attach (table, l, 0, 4, 2); + } + + { + auto l = spinbox (_("Whether column scaling is uniform (1), converge (<1) or diverge (>1)"), "scalex_exp", + 0, 10, "", true); + table_attach (table, l, 0, 4, 3); + } + + // Logarithmic (as in logarithmic spiral) + { + auto l = Gtk::manage(new Gtk::Label("")); + l->set_markup(_("<b>Base:</b>")); + l->set_xalign(0.0); + table_row_labels->add_widget(*l); + table_attach (table, l, 1, 5, 1); + } + + { + auto l = spinbox (_("Base for a logarithmic spiral: not used (0), converge (<1), or diverge (>1)"), "scaley_log", + 0, 10, "", false); + table_attach (table, l, 0, 5, 2); + } + + { + auto l = spinbox (_("Base for a logarithmic spiral: not used (0), converge (<1), or diverge (>1)"), "scalex_log", + 0, 10, "", false); + table_attach (table, l, 0, 5, 3); + } + + { // alternates + auto l = Gtk::manage(new Gtk::Label("")); + // TRANSLATORS: "Alternate" is a verb here + l->set_markup(_("<small>Alternate:</small>")); + l->set_xalign(0.0); + table_row_labels->add_widget(*l); + table_attach (table, l, 1, 6, 1); + } + + { + auto l = checkbox (_("Alternate the sign of scales for each row"), "scaley_alternate"); + table_attach (table, l, 0, 6, 2); + } + + { + auto l = checkbox (_("Alternate the sign of scales for each column"), "scalex_alternate"); + table_attach (table, l, 0, 6, 3); + } + + { // Cumulate + auto l = Gtk::manage(new Gtk::Label("")); + // TRANSLATORS: "Cumulate" is a verb here + l->set_markup(_("<small>Cumulate:</small>")); + l->set_xalign(0.0); + table_row_labels->add_widget(*l); + table_attach (table, l, 1, 7, 1); + } + + { + auto l = checkbox (_("Cumulate the scales for each row"), "scaley_cumulate"); + table_attach (table, l, 0, 7, 2); + } + + { + auto l = checkbox (_("Cumulate the scales for each column"), "scalex_cumulate"); + table_attach (table, l, 0, 7, 3); + } + + } + + + // Rotation + { + auto vb = new_tab(nb, _("_Rotation")); + + auto table = table_x_y_rand (1); + vb->pack_start(*table, false, false, 0); + + // Angle + { + auto l = Gtk::manage(new Gtk::Label("")); + l->set_markup(_("<b>Angle:</b>")); + l->set_xalign(0.0); + table_row_labels->add_widget(*l); + table_attach (table, l, 1, 2, 1); + } + + { + auto l = spinbox ( + // xgettext:no-c-format + _("Rotate tiles by this angle for each row"), "rotate_per_j", + -180, 180, "°"); + table_attach (table, l, 0, 2, 2); + } + + { + auto l = spinbox ( + // xgettext:no-c-format + _("Rotate tiles by this angle for each column"), "rotate_per_i", + -180, 180, "°"); + table_attach (table, l, 0, 2, 3); + } + + { + auto l = spinbox (_("Randomize the rotation angle by this percentage"), "rotate_rand", + 0, 100, "%"); + table_attach (table, l, 0, 2, 4); + } + + { // alternates + auto l = Gtk::manage(new Gtk::Label("")); + // TRANSLATORS: "Alternate" is a verb here + l->set_markup(_("<small>Alternate:</small>")); + l->set_xalign(0.0); + table_row_labels->add_widget(*l); + table_attach (table, l, 1, 3, 1); + } + + { + auto l = checkbox (_("Alternate the rotation direction for each row"), "rotate_alternatej"); + table_attach (table, l, 0, 3, 2); + } + + { + auto l = checkbox (_("Alternate the rotation direction for each column"), "rotate_alternatei"); + table_attach (table, l, 0, 3, 3); + } + + { // Cumulate + auto l = Gtk::manage(new Gtk::Label("")); + // TRANSLATORS: "Cumulate" is a verb here + l->set_markup(_("<small>Cumulate:</small>")); + l->set_xalign(0.0); + table_row_labels->add_widget(*l); + table_attach (table, l, 1, 4, 1); + } + + { + auto l = checkbox (_("Cumulate the rotation for each row"), "rotate_cumulatej"); + table_attach (table, l, 0, 4, 2); + } + + { + auto l = checkbox (_("Cumulate the rotation for each column"), "rotate_cumulatei"); + table_attach (table, l, 0, 4, 3); + } + + } + + + // Blur and opacity + { + auto vb = new_tab(nb, _("_Blur & opacity")); + + auto table = table_x_y_rand(1); + vb->pack_start(*table, false, false, 0); + + + // Blur + { + auto l = Gtk::manage(new Gtk::Label("")); + l->set_markup(_("<b>Blur:</b>")); + l->set_xalign(0.0); + table_row_labels->add_widget(*l); + table_attach (table, l, 1, 2, 1); + } + + { + auto l = spinbox (_("Blur tiles by this percentage for each row"), "blur_per_j", + 0, 100, "%"); + table_attach (table, l, 0, 2, 2); + } + + { + auto l = spinbox (_("Blur tiles by this percentage for each column"), "blur_per_i", + 0, 100, "%"); + table_attach (table, l, 0, 2, 3); + } + + { + auto l = spinbox (_("Randomize the tile blur by this percentage"), "blur_rand", + 0, 100, "%"); + table_attach (table, l, 0, 2, 4); + } + + { // alternates + auto l = Gtk::manage(new Gtk::Label("")); + // TRANSLATORS: "Alternate" is a verb here + l->set_markup(_("<small>Alternate:</small>")); + l->set_xalign(0.0); + table_row_labels->add_widget(*l); + table_attach (table, l, 1, 3, 1); + } + + { + auto l = checkbox (_("Alternate the sign of blur change for each row"), "blur_alternatej"); + table_attach (table, l, 0, 3, 2); + } + + { + auto l = checkbox (_("Alternate the sign of blur change for each column"), "blur_alternatei"); + table_attach (table, l, 0, 3, 3); + } + + + + // Dissolve + { + auto l = Gtk::manage(new Gtk::Label("")); + l->set_markup(_("<b>Opacity:</b>")); + l->set_xalign(0.0); + table_row_labels->add_widget(*l); + table_attach (table, l, 1, 4, 1); + } + + { + auto l = spinbox (_("Decrease tile opacity by this percentage for each row"), "opacity_per_j", + 0, 100, "%"); + table_attach (table, l, 0, 4, 2); + } + + { + auto l = spinbox (_("Decrease tile opacity by this percentage for each column"), "opacity_per_i", + 0, 100, "%"); + table_attach (table, l, 0, 4, 3); + } + + { + auto l = spinbox (_("Randomize the tile opacity by this percentage"), "opacity_rand", + 0, 100, "%"); + table_attach (table, l, 0, 4, 4); + } + + { // alternates + auto l = Gtk::manage(new Gtk::Label("")); + // TRANSLATORS: "Alternate" is a verb here + l->set_markup(_("<small>Alternate:</small>")); + l->set_xalign(0.0); + table_row_labels->add_widget(*l); + table_attach (table, l, 1, 5, 1); + } + + { + auto l = checkbox (_("Alternate the sign of opacity change for each row"), "opacity_alternatej"); + table_attach (table, l, 0, 5, 2); + } + + { + auto l = checkbox (_("Alternate the sign of opacity change for each column"), "opacity_alternatei"); + table_attach (table, l, 0, 5, 3); + } + } + + + // Color + { + auto vb = new_tab(nb, _("Co_lor")); + + { + auto hb = Gtk::manage(new Gtk::Box(Gtk::ORIENTATION_HORIZONTAL, 0)); + hb->set_homogeneous(false); + + auto l = Gtk::manage(new Gtk::Label(_("Initial color: "))); + hb->pack_start(*l, false, false, 0); + + guint32 rgba = 0x000000ff | sp_svg_read_color (prefs->getString(prefs_path + "initial_color").data(), 0x000000ff); + color_picker = new Inkscape::UI::Widget::ColorPicker (*new Glib::ustring(_("Initial color of tiled clones")), *new Glib::ustring(_("Initial color for clones (works only if the original has unset fill or stroke or on spray tool in copy mode)")), rgba, false); + color_changed_connection = color_picker->connectChanged(sigc::mem_fun(*this, &CloneTiler::on_picker_color_changed)); + + hb->pack_start(*color_picker, false, false, 0); + + vb->pack_start(*hb, false, false, 0); + } + + + auto table = table_x_y_rand(3); + vb->pack_start(*table, false, false, 0); + + // Hue + { + auto l = Gtk::manage(new Gtk::Label("")); + l->set_markup(_("<b>H:</b>")); + l->set_xalign(0.0); + table_row_labels->add_widget(*l); + table_attach (table, l, 1, 2, 1); + } + + { + auto l = spinbox (_("Change the tile hue by this percentage for each row"), "hue_per_j", + -100, 100, "%"); + table_attach (table, l, 0, 2, 2); + } + + { + auto l = spinbox (_("Change the tile hue by this percentage for each column"), "hue_per_i", + -100, 100, "%"); + table_attach (table, l, 0, 2, 3); + } + + { + auto l = spinbox (_("Randomize the tile hue by this percentage"), "hue_rand", + 0, 100, "%"); + table_attach (table, l, 0, 2, 4); + } + + + // Saturation + { + auto l = Gtk::manage(new Gtk::Label("")); + l->set_markup(_("<b>S:</b>")); + l->set_xalign(0.0); + table_row_labels->add_widget(*l); + table_attach (table, l, 1, 3, 1); + } + + { + auto l = spinbox (_("Change the color saturation by this percentage for each row"), "saturation_per_j", + -100, 100, "%"); + table_attach (table, l, 0, 3, 2); + } + + { + auto l = spinbox (_("Change the color saturation by this percentage for each column"), "saturation_per_i", + -100, 100, "%"); + table_attach (table, l, 0, 3, 3); + } + + { + auto l = spinbox (_("Randomize the color saturation by this percentage"), "saturation_rand", + 0, 100, "%"); + table_attach (table, l, 0, 3, 4); + } + + // Lightness + { + auto l = Gtk::manage(new Gtk::Label("")); + l->set_markup(_("<b>L:</b>")); + l->set_xalign(0.0); + table_row_labels->add_widget(*l); + table_attach (table, l, 1, 4, 1); + } + + { + auto l = spinbox (_("Change the color lightness by this percentage for each row"), "lightness_per_j", + -100, 100, "%"); + table_attach (table, l, 0, 4, 2); + } + + { + auto l = spinbox (_("Change the color lightness by this percentage for each column"), "lightness_per_i", + -100, 100, "%"); + table_attach (table, l, 0, 4, 3); + } + + { + auto l = spinbox (_("Randomize the color lightness by this percentage"), "lightness_rand", + 0, 100, "%"); + table_attach (table, l, 0, 4, 4); + } + + + { // alternates + auto l = Gtk::manage(new Gtk::Label("")); + l->set_markup(_("<small>Alternate:</small>")); + l->set_xalign(0.0); + table_row_labels->add_widget(*l); + table_attach (table, l, 1, 5, 1); + } + + { + auto l = checkbox (_("Alternate the sign of color changes for each row"), "color_alternatej"); + table_attach (table, l, 0, 5, 2); + } + + { + auto l = checkbox (_("Alternate the sign of color changes for each column"), "color_alternatei"); + table_attach (table, l, 0, 5, 3); + } + + } + + // Trace + { + auto vb = new_tab(nb, _("_Trace")); + { + auto hb = Gtk::manage(new Gtk::Box(Gtk::ORIENTATION_HORIZONTAL, VB_MARGIN)); + hb->set_border_width(4); + hb->set_homogeneous(false); + vb->pack_start(*hb, false, false, 0); + + _b = Gtk::manage(new UI::Widget::CheckButtonInternal(_("Trace the drawing under the clones/sprayed items"))); + _b->set_uncheckable(); + bool old = prefs->getBool(prefs_path + "dotrace"); + _b->set_active(old); + _b->set_tooltip_text(_("For each clone/sprayed item, pick a value from the drawing in its location and apply it")); + hb->pack_start(*_b, false, false, 0); + _b->signal_toggled().connect(sigc::mem_fun(*this, &CloneTiler::do_pick_toggled)); + } + + { + auto vvb = Gtk::manage(new Gtk::Box(Gtk::ORIENTATION_VERTICAL, 0)); + vvb->set_homogeneous(false); + vb->pack_start(*vvb, false, false, 0); + _dotrace = vvb; + + { + auto frame = Gtk::manage(new Gtk::Frame(_("1. Pick from the drawing:"))); + frame->set_shadow_type(Gtk::SHADOW_NONE); + vvb->pack_start(*frame, false, false, 0); + + auto table = Gtk::manage(new Gtk::Grid()); + table->set_row_spacing(4); + table->set_column_spacing(6); + table->set_border_width(4); + frame->add(*table); + + Gtk::RadioButtonGroup rb_group; + { + auto radio = Gtk::manage(new Gtk::RadioButton(rb_group, _("Color"))); + radio->set_tooltip_text(_("Pick the visible color and opacity")); + table_attach(table, radio, 0.0, 1, 1); + radio->signal_toggled().connect(sigc::bind(sigc::mem_fun(*this, &CloneTiler::pick_switched), PICK_COLOR)); + radio->set_active(prefs->getInt(prefs_path + "pick", 0) == PICK_COLOR); + } + { + auto radio = Gtk::manage(new Gtk::RadioButton(rb_group, _("Opacity"))); + radio->set_tooltip_text(_("Pick the total accumulated opacity")); + table_attach (table, radio, 0.0, 2, 1); + radio->signal_toggled().connect(sigc::bind(sigc::mem_fun(*this, &CloneTiler::pick_switched), PICK_OPACITY)); + radio->set_active(prefs->getInt(prefs_path + "pick", 0) == PICK_OPACITY); + } + { + auto radio = Gtk::manage(new Gtk::RadioButton(rb_group, _("R"))); + radio->set_tooltip_text(_("Pick the Red component of the color")); + table_attach (table, radio, 0.0, 1, 2); + radio->signal_toggled().connect(sigc::bind(sigc::mem_fun(*this, &CloneTiler::pick_switched), PICK_R)); + radio->set_active(prefs->getInt(prefs_path + "pick", 0) == PICK_R); + } + { + auto radio = Gtk::manage(new Gtk::RadioButton(rb_group, _("G"))); + radio->set_tooltip_text(_("Pick the Green component of the color")); + table_attach (table, radio, 0.0, 2, 2); + radio->signal_toggled().connect(sigc::bind(sigc::mem_fun(*this, &CloneTiler::pick_switched), PICK_G)); + radio->set_active(prefs->getInt(prefs_path + "pick", 0) == PICK_G); + } + { + auto radio = Gtk::manage(new Gtk::RadioButton(rb_group, _("B"))); + radio->set_tooltip_text(_("Pick the Blue component of the color")); + table_attach (table, radio, 0.0, 3, 2); + radio->signal_toggled().connect(sigc::bind(sigc::mem_fun(*this, &CloneTiler::pick_switched), PICK_B)); + radio->set_active(prefs->getInt(prefs_path + "pick", 0) == PICK_B); + } + { + auto radio = Gtk::manage(new Gtk::RadioButton(rb_group, C_("Clonetiler color hue", "H"))); + radio->set_tooltip_text(_("Pick the hue of the color")); + table_attach (table, radio, 0.0, 1, 3); + radio->signal_toggled().connect(sigc::bind(sigc::mem_fun(*this, &CloneTiler::pick_switched), PICK_H)); + radio->set_active(prefs->getInt(prefs_path + "pick", 0) == PICK_H); + } + { + auto radio = Gtk::manage(new Gtk::RadioButton(rb_group, C_("Clonetiler color saturation", "S"))); + radio->set_tooltip_text(_("Pick the saturation of the color")); + table_attach (table, radio, 0.0, 2, 3); + radio->signal_toggled().connect(sigc::bind(sigc::mem_fun(*this, &CloneTiler::pick_switched), PICK_S)); + radio->set_active(prefs->getInt(prefs_path + "pick", 0) == PICK_S); + } + { + auto radio = Gtk::manage(new Gtk::RadioButton(rb_group, C_("Clonetiler color lightness", "L"))); + radio->set_tooltip_text(_("Pick the lightness of the color")); + table_attach (table, radio, 0.0, 3, 3); + radio->signal_toggled().connect(sigc::bind(sigc::mem_fun(*this, &CloneTiler::pick_switched), PICK_L)); + radio->set_active(prefs->getInt(prefs_path + "pick", 0) == PICK_L); + } + + } + + { + auto frame = Gtk::manage(new Gtk::Frame(_("2. Tweak the picked value:"))); + frame->set_shadow_type(Gtk::SHADOW_NONE); + vvb->pack_start(*frame, false, false, VB_MARGIN); + + auto table = Gtk::manage(new Gtk::Grid()); + table->set_row_spacing(4); + table->set_column_spacing(6); + table->set_border_width(4); + frame->add(*table); + + { + auto l = Gtk::manage(new Gtk::Label("")); + l->set_markup(_("Gamma-correct:")); + table_attach (table, l, 1.0, 1, 1); + } + { + auto l = spinbox (_("Shift the mid-range of the picked value upwards (>0) or downwards (<0)"), "gamma_picked", + -10, 10, ""); + table_attach (table, l, 0.0, 1, 2); + } + + { + auto l = Gtk::manage(new Gtk::Label("")); + l->set_markup(_("Randomize:")); + table_attach (table, l, 1.0, 1, 3); + } + { + auto l = spinbox (_("Randomize the picked value by this percentage"), "rand_picked", + 0, 100, "%"); + table_attach (table, l, 0.0, 1, 4); + } + + { + auto l = Gtk::manage(new Gtk::Label("")); + l->set_markup(_("Invert:")); + table_attach (table, l, 1.0, 2, 1); + } + { + auto l = checkbox (_("Invert the picked value"), "invert_picked"); + table_attach (table, l, 0.0, 2, 2); + } + } + + { + auto frame = Gtk::manage(new Gtk::Frame(_("3. Apply the value to the clones':"))); + frame->set_shadow_type(Gtk::SHADOW_NONE); + vvb->pack_start(*frame, false, false, 0); + + auto table = Gtk::manage(new Gtk::Grid()); + table->set_row_spacing(4); + table->set_column_spacing(6); + table->set_border_width(4); + frame->add(*table); + + { + auto b = Gtk::manage(new Gtk::CheckButton(_("Presence"))); + bool old = prefs->getBool(prefs_path + "pick_to_presence", true); + b->set_active(old); + b->set_tooltip_text(_("Each clone is created with the probability determined by the picked value in that point")); + table_attach (table, b, 0.0, 1, 1); + b->signal_toggled().connect(sigc::bind(sigc::mem_fun(*this, &CloneTiler::pick_to), b, "pick_to_presence")); + } + + { + auto b = Gtk::manage(new Gtk::CheckButton(_("Size"))); + bool old = prefs->getBool(prefs_path + "pick_to_size"); + b->set_active(old); + b->set_tooltip_text(_("Each clone's size is determined by the picked value in that point")); + table_attach (table, b, 0.0, 2, 1); + b->signal_toggled().connect(sigc::bind(sigc::mem_fun(*this, &CloneTiler::pick_to), b, "pick_to_size")); + } + + { + auto b = Gtk::manage(new Gtk::CheckButton(_("Color"))); + bool old = prefs->getBool(prefs_path + "pick_to_color", false); + b->set_active(old); + b->set_tooltip_text(_("Each clone is painted by the picked color (the original must have unset fill or stroke)")); + table_attach (table, b, 0.0, 1, 2); + b->signal_toggled().connect(sigc::bind(sigc::mem_fun(*this, &CloneTiler::pick_to), b, "pick_to_color")); + } + + { + auto b = Gtk::manage(new Gtk::CheckButton(_("Opacity"))); + bool old = prefs->getBool(prefs_path + "pick_to_opacity", false); + b->set_active(old); + b->set_tooltip_text(_("Each clone's opacity is determined by the picked value in that point")); + table_attach (table, b, 0.0, 2, 2); + b->signal_toggled().connect(sigc::bind(sigc::mem_fun(*this, &CloneTiler::pick_to), b, "pick_to_opacity")); + } + } + vvb->set_sensitive(prefs->getBool(prefs_path + "dotrace")); + } + } + + { + auto hb = Gtk::manage(new Gtk::Box(Gtk::ORIENTATION_HORIZONTAL, VB_MARGIN)); + hb->set_homogeneous(false); + mainbox->pack_start(*hb, false, false, 0); + auto l = Gtk::manage(new Gtk::Label("")); + l->set_markup(_("Apply to tiled clones:")); + hb->pack_start(*l, false, false, 0); + } + // Rows/columns, width/height + { + auto table = Gtk::manage(new Gtk::Grid()); + table->set_row_spacing(4); + table->set_column_spacing(6); + + table->set_border_width(VB_MARGIN); + mainbox->pack_start(*table, false, false, 0); + + { + { + auto a = Gtk::Adjustment::create(0.0, 1, 500, 1, 10, 0); + int value = prefs->getInt(prefs_path + "jmax", 2); + a->set_value (value); + + auto sb = new Inkscape::UI::Widget::SpinButton(a, 1.0, 0); + sb->set_tooltip_text (_("How many rows in the tiling")); + sb->set_width_chars (7); + sb->set_name("row"); + table_attach(table, sb, 0.0f, 1, 2); + _rowscols.push_back(sb); + + a->signal_value_changed().connect(sigc::bind(sigc::mem_fun(*this, &CloneTiler::xy_changed), a, "jmax")); + } + + { + auto l = Gtk::manage(new Gtk::Label("")); + l->set_markup("×"); + table_attach(table, l, 0.0f, 1, 3); + _rowscols.push_back(l); + } + + { + auto a = Gtk::Adjustment::create(0.0, 1, 500, 1, 10, 0); + int value = prefs->getInt(prefs_path + "imax", 2); + a->set_value (value); + + auto sb = new Inkscape::UI::Widget::SpinButton(a, 1.0, 0); + sb->set_tooltip_text (_("How many columns in the tiling")); + sb->set_width_chars (7); + table_attach(table, sb, 0.0f, 1, 4); + _rowscols.push_back(sb); + + a->signal_value_changed().connect(sigc::bind(sigc::mem_fun(*this, &CloneTiler::xy_changed), a, "imax")); + } + } + + { + // unitmenu + unit_menu = new Inkscape::UI::Widget::UnitMenu(); + unit_menu->setUnitType(Inkscape::Util::UNIT_TYPE_LINEAR); + unit_menu->setUnit(SP_ACTIVE_DESKTOP->getNamedView()->display_units->abbr); + unitChangedConn = unit_menu->signal_changed().connect(sigc::mem_fun(*this, &CloneTiler::unit_changed)); + + { + // Width spinbutton + fill_width = Gtk::Adjustment::create(0.0, -1e6, 1e6, 1.0, 10.0, 0); + + double value = prefs->getDouble(prefs_path + "fillwidth", 50.0); + Inkscape::Util::Unit const *unit = unit_menu->getUnit(); + gdouble const units = Inkscape::Util::Quantity::convert(value, "px", unit); + fill_width->set_value (units); + + auto e = new Inkscape::UI::Widget::SpinButton(fill_width, 1.0, 2); + e->set_tooltip_text (_("Width of the rectangle to be filled")); + e->set_width_chars (7); + e->set_digits (4); + table_attach(table, e, 0.0f, 2, 2); + _widthheight.push_back(e); + fill_width->signal_value_changed().connect(sigc::mem_fun(*this, &CloneTiler::fill_width_changed)); + } + { + auto l = Gtk::manage(new Gtk::Label("")); + l->set_markup("×"); + table_attach(table, l, 0.0f, 2, 3); + _widthheight.push_back(l); + } + + { + // Height spinbutton + fill_height = Gtk::Adjustment::create(0.0, -1e6, 1e6, 1.0, 10.0, 0); + + double value = prefs->getDouble(prefs_path + "fillheight", 50.0); + Inkscape::Util::Unit const *unit = unit_menu->getUnit(); + gdouble const units = Inkscape::Util::Quantity::convert(value, "px", unit); + fill_height->set_value (units); + + auto e = new Inkscape::UI::Widget::SpinButton(fill_height, 1.0, 2); + e->set_tooltip_text (_("Height of the rectangle to be filled")); + e->set_width_chars (7); + e->set_digits (4); + table_attach(table, e, 0.0f, 2, 4); + _widthheight.push_back(e); + fill_height->signal_value_changed().connect(sigc::mem_fun(*this, &CloneTiler::fill_height_changed)); + } + + table_attach(table, unit_menu, 0.0f, 2, 5); + _widthheight.push_back(unit_menu); + } + + // Switch + Gtk::RadioButtonGroup rb_group; + { + auto radio = Gtk::manage(new Gtk::RadioButton(rb_group, _("Rows, columns: "))); + radio->set_tooltip_text(_("Create the specified number of rows and columns")); + table_attach(table, radio, 0.0, 1, 1); + + if (!prefs->getBool(prefs_path + "fillrect")) { + radio->set_active(true); + switch_to_create(); + } + radio->signal_toggled().connect(sigc::mem_fun(*this, &CloneTiler::switch_to_create)); + } + { + auto radio = Gtk::manage(new Gtk::RadioButton(rb_group, _("Width, height: "))); + radio->set_tooltip_text(_("Fill the specified width and height with the tiling")); + table_attach(table, radio, 0.0, 2, 1); + + if (prefs->getBool(prefs_path + "fillrect")) { + radio->set_active(true); + switch_to_fill(); + } + radio->signal_toggled().connect(sigc::mem_fun(*this, &CloneTiler::switch_to_fill)); + } + } + + + // Use saved pos + { + auto hb = Gtk::manage(new Gtk::Box(Gtk::ORIENTATION_HORIZONTAL, VB_MARGIN)); + mainbox->pack_start(*hb, false, false, 0); + + _cb_keep_bbox = Gtk::manage(new UI::Widget::CheckButtonInternal(_("Use saved size and position of the tile"))); + auto keepbbox = prefs->getBool(prefs_path + "keepbbox", true); + _cb_keep_bbox->set_active(keepbbox); + _cb_keep_bbox->set_tooltip_text(_("Pretend that the size and position of the tile are the same " + "as the last time you tiled it (if any), instead of using the " + "current size")); + hb->pack_start(*_cb_keep_bbox, false, false, 0); + _cb_keep_bbox->signal_toggled().connect(sigc::mem_fun(*this, &CloneTiler::keep_bbox_toggled)); + } + + // Statusbar + { + auto hb = Gtk::manage(new Gtk::Box(Gtk::ORIENTATION_HORIZONTAL, VB_MARGIN)); + hb->set_homogeneous(false); + mainbox->pack_end(*hb, false, false, 0); + auto l = Gtk::manage(new Gtk::Label("")); + _status = l; + hb->pack_start(*l, false, false, 0); + } + + // Buttons + { + auto hb = Gtk::manage(new Gtk::Box(Gtk::ORIENTATION_HORIZONTAL, VB_MARGIN)); + hb->set_homogeneous(false); + mainbox->pack_start(*hb, false, false, 0); + + { + auto b = Gtk::manage(new Gtk::Button()); + auto l = Gtk::manage(new Gtk::Label("")); + l->set_markup_with_mnemonic(_(" <b>_Create</b> ")); + b->add(*l); + b->set_tooltip_text(_("Create and tile the clones of the selection")); + b->signal_clicked().connect(sigc::mem_fun(*this, &CloneTiler::apply)); + hb->pack_end(*b, false, false, 0); + } + + { // buttons which are enabled only when there are tiled clones + auto sb = Gtk::manage(new Gtk::Box(Gtk::ORIENTATION_HORIZONTAL, 4)); + sb->set_homogeneous(false); + hb->pack_end(*sb, false, false, 0); + _buttons_on_tiles = sb; + { + // TRANSLATORS: if a group of objects are "clumped" together, then they + // are unevenly spread in the given amount of space - as shown in the + // diagrams on the left in the following screenshot: + // http://www.inkscape.org/screenshots/gallery/inkscape-0.42-CVS-tiles-unclump.png + // So unclumping is the process of spreading a number of objects out more evenly. + auto b = Gtk::manage(new Gtk::Button(_(" _Unclump "), true)); + b->set_tooltip_text(_("Spread out clones to reduce clumping; can be applied repeatedly")); + b->signal_clicked().connect(sigc::mem_fun(*this, &CloneTiler::unclump)); + sb->pack_end(*b, false, false, 0); + } + + { + auto b = Gtk::manage(new Gtk::Button(_(" Re_move "), true)); + b->set_tooltip_text(_("Remove existing tiled clones of the selected object (siblings only)")); + b->signal_clicked().connect(sigc::mem_fun(*this, &CloneTiler::on_remove_button_clicked)); + sb->pack_end(*b, false, false, 0); + } + + // connect to global selection changed signal (so we can change desktops) and + // external_change (so we're not fooled by undo) + selectChangedConn = INKSCAPE.signal_selection_changed.connect(sigc::mem_fun(*this, &CloneTiler::change_selection)); + externChangedConn = INKSCAPE.signal_external_change.connect(sigc::mem_fun(*this, &CloneTiler::external_change)); + + // update now + change_selection(SP_ACTIVE_DESKTOP->getSelection()); + } + + { + auto b = Gtk::manage(new Gtk::Button(_(" R_eset "), true)); + // TRANSLATORS: "change" is a noun here + b->set_tooltip_text(_("Reset all shifts, scales, rotates, opacity and color changes in the dialog to zero")); + b->signal_clicked().connect(sigc::mem_fun(*this, &CloneTiler::reset)); + hb->pack_start(*b, false, false, 0); + } + } + + mainbox->show_all(); + } + + show_all(); +} + +CloneTiler::~CloneTiler () +{ + selectChangedConn.disconnect(); + externChangedConn.disconnect(); + color_changed_connection.disconnect(); +} + +void CloneTiler::on_picker_color_changed(guint rgba) +{ + static bool is_updating = false; + if (is_updating || !SP_ACTIVE_DESKTOP) + return; + + is_updating = true; + + gchar c[32]; + sp_svg_write_color(c, sizeof(c), rgba); + Inkscape::Preferences *prefs = Inkscape::Preferences::get(); + prefs->setString(prefs_path + "initial_color", c); + + is_updating = false; +} + +void CloneTiler::change_selection(Inkscape::Selection *selection) +{ + if (selection->isEmpty()) { + _buttons_on_tiles->set_sensitive(false); + _status->set_markup(_("<small>Nothing selected.</small>")); + return; + } + + if (boost::distance(selection->items()) > 1) { + _buttons_on_tiles->set_sensitive(false); + _status->set_markup(_("<small>More than one object selected.</small>")); + return; + } + + guint n = number_of_clones(selection->singleItem()); + if (n > 0) { + _buttons_on_tiles->set_sensitive(true); + gchar *sta = g_strdup_printf (_("<small>Object has <b>%d</b> tiled clones.</small>"), n); + _status->set_markup(sta); + g_free (sta); + } else { + _buttons_on_tiles->set_sensitive(false); + _status->set_markup(_("<small>Object has no tiled clones.</small>")); + } +} + +void CloneTiler::external_change() +{ + change_selection(SP_ACTIVE_DESKTOP->getSelection()); +} + +Geom::Affine CloneTiler::get_transform( + // symmetry group + int type, + + // row, column + int i, int j, + + // center, width, height of the tile + double cx, double cy, + double w, double h, + + // values from the dialog: + // Shift + double shiftx_per_i, double shifty_per_i, + double shiftx_per_j, double shifty_per_j, + double shiftx_rand, double shifty_rand, + double shiftx_exp, double shifty_exp, + int shiftx_alternate, int shifty_alternate, + int shiftx_cumulate, int shifty_cumulate, + int shiftx_excludew, int shifty_excludeh, + + // Scale + double scalex_per_i, double scaley_per_i, + double scalex_per_j, double scaley_per_j, + double scalex_rand, double scaley_rand, + double scalex_exp, double scaley_exp, + double scalex_log, double scaley_log, + int scalex_alternate, int scaley_alternate, + int scalex_cumulate, int scaley_cumulate, + + // Rotation + double rotate_per_i, double rotate_per_j, + double rotate_rand, + int rotate_alternatei, int rotate_alternatej, + int rotate_cumulatei, int rotate_cumulatej + ) +{ + + // Shift (in units of tile width or height) ------------- + double delta_shifti = 0.0; + double delta_shiftj = 0.0; + + if( shiftx_alternate ) { + delta_shifti = (double)(i%2); + } else { + if( shiftx_cumulate ) { // Should the delta shifts be cumulative (i.e. 1, 1+2, 1+2+3, ...) + delta_shifti = (double)(i*i); + } else { + delta_shifti = (double)i; + } + } + + if( shifty_alternate ) { + delta_shiftj = (double)(j%2); + } else { + if( shifty_cumulate ) { + delta_shiftj = (double)(j*j); + } else { + delta_shiftj = (double)j; + } + } + + // Random shift, only calculate if non-zero. + double delta_shiftx_rand = 0.0; + double delta_shifty_rand = 0.0; + if( shiftx_rand != 0.0 ) delta_shiftx_rand = shiftx_rand * g_random_double_range (-1, 1); + if( shifty_rand != 0.0 ) delta_shifty_rand = shifty_rand * g_random_double_range (-1, 1); + + + // Delta shift (units of tile width/height) + double di = shiftx_per_i * delta_shifti + shiftx_per_j * delta_shiftj + delta_shiftx_rand; + double dj = shifty_per_i * delta_shifti + shifty_per_j * delta_shiftj + delta_shifty_rand; + + // Shift in actual x and y, used below + double dx = w * di; + double dy = h * dj; + + double shifti = di; + double shiftj = dj; + + // Include tile width and height in shift if required + if( !shiftx_excludew ) shifti += i; + if( !shifty_excludeh ) shiftj += j; + + // Add exponential shift if necessary + double shifti_sign = (shifti > 0.0) ? 1.0 : -1.0; + shifti = shifti_sign * pow(fabs(shifti), shiftx_exp); + double shiftj_sign = (shiftj > 0.0) ? 1.0 : -1.0; + shiftj = shiftj_sign * pow(fabs(shiftj), shifty_exp); + + // Final shift + Geom::Affine rect_translate (Geom::Translate (w * shifti, h * shiftj)); + + // Rotation (in degrees) ------------ + double delta_rotationi = 0.0; + double delta_rotationj = 0.0; + + if( rotate_alternatei ) { + delta_rotationi = (double)(i%2); + } else { + if( rotate_cumulatei ) { + delta_rotationi = (double)(i*i + i)/2.0; + } else { + delta_rotationi = (double)i; + } + } + + if( rotate_alternatej ) { + delta_rotationj = (double)(j%2); + } else { + if( rotate_cumulatej ) { + delta_rotationj = (double)(j*j + j)/2.0; + } else { + delta_rotationj = (double)j; + } + } + + double delta_rotate_rand = 0.0; + if( rotate_rand != 0.0 ) delta_rotate_rand = rotate_rand * 180.0 * g_random_double_range (-1, 1); + + double dr = rotate_per_i * delta_rotationi + rotate_per_j * delta_rotationj + delta_rotate_rand; + + // Scale (times the original) ----------- + double delta_scalei = 0.0; + double delta_scalej = 0.0; + + if( scalex_alternate ) { + delta_scalei = (double)(i%2); + } else { + if( scalex_cumulate ) { // Should the delta scales be cumulative (i.e. 1, 1+2, 1+2+3, ...) + delta_scalei = (double)(i*i + i)/2.0; + } else { + delta_scalei = (double)i; + } + } + + if( scaley_alternate ) { + delta_scalej = (double)(j%2); + } else { + if( scaley_cumulate ) { + delta_scalej = (double)(j*j + j)/2.0; + } else { + delta_scalej = (double)j; + } + } + + // Random scale, only calculate if non-zero. + double delta_scalex_rand = 0.0; + double delta_scaley_rand = 0.0; + if( scalex_rand != 0.0 ) delta_scalex_rand = scalex_rand * g_random_double_range (-1, 1); + if( scaley_rand != 0.0 ) delta_scaley_rand = scaley_rand * g_random_double_range (-1, 1); + // But if random factors are same, scale x and y proportionally + if( scalex_rand == scaley_rand ) delta_scalex_rand = delta_scaley_rand; + + // Total delta scale + double scalex = 1.0 + scalex_per_i * delta_scalei + scalex_per_j * delta_scalej + delta_scalex_rand; + double scaley = 1.0 + scaley_per_i * delta_scalei + scaley_per_j * delta_scalej + delta_scaley_rand; + + if( scalex < 0.0 ) scalex = 0.0; + if( scaley < 0.0 ) scaley = 0.0; + + // Add exponential scale if necessary + if ( scalex_exp != 1.0 ) scalex = pow( scalex, scalex_exp ); + if ( scaley_exp != 1.0 ) scaley = pow( scaley, scaley_exp ); + + // Add logarithmic factor if necessary + if ( scalex_log > 0.0 ) scalex = pow( scalex_log, scalex - 1.0 ); + if ( scaley_log > 0.0 ) scaley = pow( scaley_log, scaley - 1.0 ); + // Alternative using rotation angle + //if ( scalex_log != 1.0 ) scalex *= pow( scalex_log, M_PI*dr/180 ); + //if ( scaley_log != 1.0 ) scaley *= pow( scaley_log, M_PI*dr/180 ); + + + // Calculate transformation matrices, translating back to "center of tile" (rotation center) before transforming + Geom::Affine drot_c = Geom::Translate(-cx, -cy) * Geom::Rotate (M_PI*dr/180) * Geom::Translate(cx, cy); + + Geom::Affine dscale_c = Geom::Translate(-cx, -cy) * Geom::Scale (scalex, scaley) * Geom::Translate(cx, cy); + + Geom::Affine d_s_r = dscale_c * drot_c; + + Geom::Affine rotate_180_c = Geom::Translate(-cx, -cy) * Geom::Rotate (M_PI) * Geom::Translate(cx, cy); + + Geom::Affine rotate_90_c = Geom::Translate(-cx, -cy) * Geom::Rotate (-M_PI/2) * Geom::Translate(cx, cy); + Geom::Affine rotate_m90_c = Geom::Translate(-cx, -cy) * Geom::Rotate ( M_PI/2) * Geom::Translate(cx, cy); + + Geom::Affine rotate_120_c = Geom::Translate(-cx, -cy) * Geom::Rotate (-2*M_PI/3) * Geom::Translate(cx, cy); + Geom::Affine rotate_m120_c = Geom::Translate(-cx, -cy) * Geom::Rotate ( 2*M_PI/3) * Geom::Translate(cx, cy); + + Geom::Affine rotate_60_c = Geom::Translate(-cx, -cy) * Geom::Rotate (-M_PI/3) * Geom::Translate(cx, cy); + Geom::Affine rotate_m60_c = Geom::Translate(-cx, -cy) * Geom::Rotate ( M_PI/3) * Geom::Translate(cx, cy); + + Geom::Affine flip_x = Geom::Translate(-cx, -cy) * Geom::Scale (-1, 1) * Geom::Translate(cx, cy); + Geom::Affine flip_y = Geom::Translate(-cx, -cy) * Geom::Scale (1, -1) * Geom::Translate(cx, cy); + + + // Create tile with required symmetry + const double cos60 = cos(M_PI/3); + const double sin60 = sin(M_PI/3); + const double cos30 = cos(M_PI/6); + const double sin30 = sin(M_PI/6); + + switch (type) { + + case TILE_P1: + return d_s_r * rect_translate; + break; + + case TILE_P2: + if (i % 2 == 0) { + return d_s_r * rect_translate; + } else { + return d_s_r * rotate_180_c * rect_translate; + } + break; + + case TILE_PM: + if (i % 2 == 0) { + return d_s_r * rect_translate; + } else { + return d_s_r * flip_x * rect_translate; + } + break; + + case TILE_PG: + if (j % 2 == 0) { + return d_s_r * rect_translate; + } else { + return d_s_r * flip_x * rect_translate; + } + break; + + case TILE_CM: + if ((i + j) % 2 == 0) { + return d_s_r * rect_translate; + } else { + return d_s_r * flip_x * rect_translate; + } + break; + + case TILE_PMM: + if (j % 2 == 0) { + if (i % 2 == 0) { + return d_s_r * rect_translate; + } else { + return d_s_r * flip_x * rect_translate; + } + } else { + if (i % 2 == 0) { + return d_s_r * flip_y * rect_translate; + } else { + return d_s_r * flip_x * flip_y * rect_translate; + } + } + break; + + case TILE_PMG: + if (j % 2 == 0) { + if (i % 2 == 0) { + return d_s_r * rect_translate; + } else { + return d_s_r * rotate_180_c * rect_translate; + } + } else { + if (i % 2 == 0) { + return d_s_r * flip_y * rect_translate; + } else { + return d_s_r * rotate_180_c * flip_y * rect_translate; + } + } + break; + + case TILE_PGG: + if (j % 2 == 0) { + if (i % 2 == 0) { + return d_s_r * rect_translate; + } else { + return d_s_r * flip_y * rect_translate; + } + } else { + if (i % 2 == 0) { + return d_s_r * rotate_180_c * rect_translate; + } else { + return d_s_r * rotate_180_c * flip_y * rect_translate; + } + } + break; + + case TILE_CMM: + if (j % 4 == 0) { + if (i % 2 == 0) { + return d_s_r * rect_translate; + } else { + return d_s_r * flip_x * rect_translate; + } + } else if (j % 4 == 1) { + if (i % 2 == 0) { + return d_s_r * flip_y * rect_translate; + } else { + return d_s_r * flip_x * flip_y * rect_translate; + } + } else if (j % 4 == 2) { + if (i % 2 == 1) { + return d_s_r * rect_translate; + } else { + return d_s_r * flip_x * rect_translate; + } + } else { + if (i % 2 == 1) { + return d_s_r * flip_y * rect_translate; + } else { + return d_s_r * flip_x * flip_y * rect_translate; + } + } + break; + + case TILE_P4: + { + Geom::Affine ori (Geom::Translate ((w + h) * pow((i/2), shiftx_exp) + dx, (h + w) * pow((j/2), shifty_exp) + dy)); + Geom::Affine dia1 (Geom::Translate (w/2 + h/2, -h/2 + w/2)); + Geom::Affine dia2 (Geom::Translate (-w/2 + h/2, h/2 + w/2)); + if (j % 2 == 0) { + if (i % 2 == 0) { + return d_s_r * ori; + } else { + return d_s_r * rotate_m90_c * dia1 * ori; + } + } else { + if (i % 2 == 0) { + return d_s_r * rotate_90_c * dia2 * ori; + } else { + return d_s_r * rotate_180_c * dia1 * dia2 * ori; + } + } + } + break; + + case TILE_P4M: + { + double max = MAX(w, h); + Geom::Affine ori (Geom::Translate ((max + max) * pow((i/4), shiftx_exp) + dx, (max + max) * pow((j/2), shifty_exp) + dy)); + Geom::Affine dia1 (Geom::Translate ( w/2 - h/2, h/2 - w/2)); + Geom::Affine dia2 (Geom::Translate (-h/2 + w/2, w/2 - h/2)); + if (j % 2 == 0) { + if (i % 4 == 0) { + return d_s_r * ori; + } else if (i % 4 == 1) { + return d_s_r * flip_y * rotate_m90_c * dia1 * ori; + } else if (i % 4 == 2) { + return d_s_r * rotate_m90_c * dia1 * Geom::Translate (h, 0) * ori; + } else if (i % 4 == 3) { + return d_s_r * flip_x * Geom::Translate (w, 0) * ori; + } + } else { + if (i % 4 == 0) { + return d_s_r * flip_y * Geom::Translate(0, h) * ori; + } else if (i % 4 == 1) { + return d_s_r * rotate_90_c * dia2 * Geom::Translate(0, h) * ori; + } else if (i % 4 == 2) { + return d_s_r * flip_y * rotate_90_c * dia2 * Geom::Translate(h, 0) * Geom::Translate(0, h) * ori; + } else if (i % 4 == 3) { + return d_s_r * flip_y * flip_x * Geom::Translate(w, 0) * Geom::Translate(0, h) * ori; + } + } + } + break; + + case TILE_P4G: + { + double max = MAX(w, h); + Geom::Affine ori (Geom::Translate ((max + max) * pow((i/4), shiftx_exp) + dx, (max + max) * pow(j, shifty_exp) + dy)); + Geom::Affine dia1 (Geom::Translate ( w/2 + h/2, h/2 - w/2)); + Geom::Affine dia2 (Geom::Translate (-h/2 + w/2, w/2 + h/2)); + if (((i/4) + j) % 2 == 0) { + if (i % 4 == 0) { + return d_s_r * ori; + } else if (i % 4 == 1) { + return d_s_r * rotate_m90_c * dia1 * ori; + } else if (i % 4 == 2) { + return d_s_r * rotate_90_c * dia2 * ori; + } else if (i % 4 == 3) { + return d_s_r * rotate_180_c * dia1 * dia2 * ori; + } + } else { + if (i % 4 == 0) { + return d_s_r * flip_y * Geom::Translate (0, h) * ori; + } else if (i % 4 == 1) { + return d_s_r * flip_y * rotate_m90_c * dia1 * Geom::Translate (-h, 0) * ori; + } else if (i % 4 == 2) { + return d_s_r * flip_y * rotate_90_c * dia2 * Geom::Translate (h, 0) * ori; + } else if (i % 4 == 3) { + return d_s_r * flip_x * Geom::Translate (w, 0) * ori; + } + } + } + break; + + case TILE_P3: + { + double width; + double height; + Geom::Affine dia1; + Geom::Affine dia2; + if (w > h) { + width = w + w * cos60; + height = 2 * w * sin60; + dia1 = Geom::Affine (Geom::Translate (w/2 + w/2 * cos60, -(w/2 * sin60))); + dia2 = dia1 * Geom::Affine (Geom::Translate (0, 2 * (w/2 * sin60))); + } else { + width = h * cos (M_PI/6); + height = h; + dia1 = Geom::Affine (Geom::Translate (h/2 * cos30, -(h/2 * sin30))); + dia2 = dia1 * Geom::Affine (Geom::Translate (0, h/2)); + } + Geom::Affine ori (Geom::Translate (width * pow((2*(i/3) + j%2), shiftx_exp) + dx, (height/2) * pow(j, shifty_exp) + dy)); + if (i % 3 == 0) { + return d_s_r * ori; + } else if (i % 3 == 1) { + return d_s_r * rotate_m120_c * dia1 * ori; + } else if (i % 3 == 2) { + return d_s_r * rotate_120_c * dia2 * ori; + } + } + break; + + case TILE_P31M: + { + Geom::Affine ori; + Geom::Affine dia1; + Geom::Affine dia2; + Geom::Affine dia3; + Geom::Affine dia4; + if (w > h) { + ori = Geom::Affine(Geom::Translate (w * pow((i/6) + 0.5*(j%2), shiftx_exp) + dx, (w * cos30) * pow(j, shifty_exp) + dy)); + dia1 = Geom::Affine (Geom::Translate (0, h/2) * Geom::Translate (w/2, 0) * Geom::Translate (w/2 * cos60, -w/2 * sin60) * Geom::Translate (-h/2 * cos30, -h/2 * sin30) ); + dia2 = dia1 * Geom::Affine (Geom::Translate (h * cos30, h * sin30)); + dia3 = dia2 * Geom::Affine (Geom::Translate (0, 2 * (w/2 * sin60 - h/2 * sin30))); + dia4 = dia3 * Geom::Affine (Geom::Translate (-h * cos30, h * sin30)); + } else { + ori = Geom::Affine (Geom::Translate (2*h * cos30 * pow((i/6 + 0.5*(j%2)), shiftx_exp) + dx, (2*h - h * sin30) * pow(j, shifty_exp) + dy)); + dia1 = Geom::Affine (Geom::Translate (0, -h/2) * Geom::Translate (h/2 * cos30, h/2 * sin30)); + dia2 = dia1 * Geom::Affine (Geom::Translate (h * cos30, h * sin30)); + dia3 = dia2 * Geom::Affine (Geom::Translate (0, h/2)); + dia4 = dia3 * Geom::Affine (Geom::Translate (-h * cos30, h * sin30)); + } + if (i % 6 == 0) { + return d_s_r * ori; + } else if (i % 6 == 1) { + return d_s_r * flip_y * rotate_m120_c * dia1 * ori; + } else if (i % 6 == 2) { + return d_s_r * rotate_m120_c * dia2 * ori; + } else if (i % 6 == 3) { + return d_s_r * flip_y * rotate_120_c * dia3 * ori; + } else if (i % 6 == 4) { + return d_s_r * rotate_120_c * dia4 * ori; + } else if (i % 6 == 5) { + return d_s_r * flip_y * Geom::Translate(0, h) * ori; + } + } + break; + + case TILE_P3M1: + { + double width; + double height; + Geom::Affine dia1; + Geom::Affine dia2; + Geom::Affine dia3; + Geom::Affine dia4; + if (w > h) { + width = w + w * cos60; + height = 2 * w * sin60; + dia1 = Geom::Affine (Geom::Translate (0, h/2) * Geom::Translate (w/2, 0) * Geom::Translate (w/2 * cos60, -w/2 * sin60) * Geom::Translate (-h/2 * cos30, -h/2 * sin30) ); + dia2 = dia1 * Geom::Affine (Geom::Translate (h * cos30, h * sin30)); + dia3 = dia2 * Geom::Affine (Geom::Translate (0, 2 * (w/2 * sin60 - h/2 * sin30))); + dia4 = dia3 * Geom::Affine (Geom::Translate (-h * cos30, h * sin30)); + } else { + width = 2 * h * cos (M_PI/6); + height = 2 * h; + dia1 = Geom::Affine (Geom::Translate (0, -h/2) * Geom::Translate (h/2 * cos30, h/2 * sin30)); + dia2 = dia1 * Geom::Affine (Geom::Translate (h * cos30, h * sin30)); + dia3 = dia2 * Geom::Affine (Geom::Translate (0, h/2)); + dia4 = dia3 * Geom::Affine (Geom::Translate (-h * cos30, h * sin30)); + } + Geom::Affine ori (Geom::Translate (width * pow((2*(i/6) + j%2), shiftx_exp) + dx, (height/2) * pow(j, shifty_exp) + dy)); + if (i % 6 == 0) { + return d_s_r * ori; + } else if (i % 6 == 1) { + return d_s_r * flip_y * rotate_m120_c * dia1 * ori; + } else if (i % 6 == 2) { + return d_s_r * rotate_m120_c * dia2 * ori; + } else if (i % 6 == 3) { + return d_s_r * flip_y * rotate_120_c * dia3 * ori; + } else if (i % 6 == 4) { + return d_s_r * rotate_120_c * dia4 * ori; + } else if (i % 6 == 5) { + return d_s_r * flip_y * Geom::Translate(0, h) * ori; + } + } + break; + + case TILE_P6: + { + Geom::Affine ori; + Geom::Affine dia1; + Geom::Affine dia2; + Geom::Affine dia3; + Geom::Affine dia4; + Geom::Affine dia5; + if (w > h) { + ori = Geom::Affine(Geom::Translate (w * pow((2*(i/6) + (j%2)), shiftx_exp) + dx, (2*w * sin60) * pow(j, shifty_exp) + dy)); + dia1 = Geom::Affine (Geom::Translate (w/2 * cos60, -w/2 * sin60)); + dia2 = dia1 * Geom::Affine (Geom::Translate (w/2, 0)); + dia3 = dia2 * Geom::Affine (Geom::Translate (w/2 * cos60, w/2 * sin60)); + dia4 = dia3 * Geom::Affine (Geom::Translate (-w/2 * cos60, w/2 * sin60)); + dia5 = dia4 * Geom::Affine (Geom::Translate (-w/2, 0)); + } else { + ori = Geom::Affine(Geom::Translate (2*h * cos30 * pow((i/6 + 0.5*(j%2)), shiftx_exp) + dx, (h + h * sin30) * pow(j, shifty_exp) + dy)); + dia1 = Geom::Affine (Geom::Translate (-w/2, -h/2) * Geom::Translate (h/2 * cos30, -h/2 * sin30) * Geom::Translate (w/2 * cos60, w/2 * sin60)); + dia2 = dia1 * Geom::Affine (Geom::Translate (-w/2 * cos60, -w/2 * sin60) * Geom::Translate (h/2 * cos30, -h/2 * sin30) * Geom::Translate (h/2 * cos30, h/2 * sin30) * Geom::Translate (-w/2 * cos60, w/2 * sin60)); + dia3 = dia2 * Geom::Affine (Geom::Translate (w/2 * cos60, -w/2 * sin60) * Geom::Translate (h/2 * cos30, h/2 * sin30) * Geom::Translate (-w/2, h/2)); + dia4 = dia3 * dia1.inverse(); + dia5 = dia3 * dia2.inverse(); + } + if (i % 6 == 0) { + return d_s_r * ori; + } else if (i % 6 == 1) { + return d_s_r * rotate_m60_c * dia1 * ori; + } else if (i % 6 == 2) { + return d_s_r * rotate_m120_c * dia2 * ori; + } else if (i % 6 == 3) { + return d_s_r * rotate_180_c * dia3 * ori; + } else if (i % 6 == 4) { + return d_s_r * rotate_120_c * dia4 * ori; + } else if (i % 6 == 5) { + return d_s_r * rotate_60_c * dia5 * ori; + } + } + break; + + case TILE_P6M: + { + + Geom::Affine ori; + Geom::Affine dia1, dia2, dia3, dia4, dia5, dia6, dia7, dia8, dia9, dia10; + if (w > h) { + ori = Geom::Affine(Geom::Translate (w * pow((2*(i/12) + (j%2)), shiftx_exp) + dx, (2*w * sin60) * pow(j, shifty_exp) + dy)); + dia1 = Geom::Affine (Geom::Translate (w/2, h/2) * Geom::Translate (-w/2 * cos60, -w/2 * sin60) * Geom::Translate (-h/2 * cos30, h/2 * sin30)); + dia2 = dia1 * Geom::Affine (Geom::Translate (h * cos30, -h * sin30)); + dia3 = dia2 * Geom::Affine (Geom::Translate (-h/2 * cos30, h/2 * sin30) * Geom::Translate (w * cos60, 0) * Geom::Translate (-h/2 * cos30, -h/2 * sin30)); + dia4 = dia3 * Geom::Affine (Geom::Translate (h * cos30, h * sin30)); + dia5 = dia4 * Geom::Affine (Geom::Translate (-h/2 * cos30, -h/2 * sin30) * Geom::Translate (-w/2 * cos60, w/2 * sin60) * Geom::Translate (w/2, -h/2)); + dia6 = dia5 * Geom::Affine (Geom::Translate (0, h)); + dia7 = dia6 * dia1.inverse(); + dia8 = dia6 * dia2.inverse(); + dia9 = dia6 * dia3.inverse(); + dia10 = dia6 * dia4.inverse(); + } else { + ori = Geom::Affine(Geom::Translate (4*h * cos30 * pow((i/12 + 0.5*(j%2)), shiftx_exp) + dx, (2*h + 2*h * sin30) * pow(j, shifty_exp) + dy)); + dia1 = Geom::Affine (Geom::Translate (-w/2, -h/2) * Geom::Translate (h/2 * cos30, -h/2 * sin30) * Geom::Translate (w/2 * cos60, w/2 * sin60)); + dia2 = dia1 * Geom::Affine (Geom::Translate (h * cos30, -h * sin30)); + dia3 = dia2 * Geom::Affine (Geom::Translate (-w/2 * cos60, -w/2 * sin60) * Geom::Translate (h * cos30, 0) * Geom::Translate (-w/2 * cos60, w/2 * sin60)); + dia4 = dia3 * Geom::Affine (Geom::Translate (h * cos30, h * sin30)); + dia5 = dia4 * Geom::Affine (Geom::Translate (w/2 * cos60, -w/2 * sin60) * Geom::Translate (h/2 * cos30, h/2 * sin30) * Geom::Translate (-w/2, h/2)); + dia6 = dia5 * Geom::Affine (Geom::Translate (0, h)); + dia7 = dia6 * dia1.inverse(); + dia8 = dia6 * dia2.inverse(); + dia9 = dia6 * dia3.inverse(); + dia10 = dia6 * dia4.inverse(); + } + if (i % 12 == 0) { + return d_s_r * ori; + } else if (i % 12 == 1) { + return d_s_r * flip_y * rotate_m60_c * dia1 * ori; + } else if (i % 12 == 2) { + return d_s_r * rotate_m60_c * dia2 * ori; + } else if (i % 12 == 3) { + return d_s_r * flip_y * rotate_m120_c * dia3 * ori; + } else if (i % 12 == 4) { + return d_s_r * rotate_m120_c * dia4 * ori; + } else if (i % 12 == 5) { + return d_s_r * flip_x * dia5 * ori; + } else if (i % 12 == 6) { + return d_s_r * flip_x * flip_y * dia6 * ori; + } else if (i % 12 == 7) { + return d_s_r * flip_y * rotate_120_c * dia7 * ori; + } else if (i % 12 == 8) { + return d_s_r * rotate_120_c * dia8 * ori; + } else if (i % 12 == 9) { + return d_s_r * flip_y * rotate_60_c * dia9 * ori; + } else if (i % 12 == 10) { + return d_s_r * rotate_60_c * dia10 * ori; + } else if (i % 12 == 11) { + return d_s_r * flip_y * Geom::Translate (0, h) * ori; + } + } + break; + + default: + break; + } + + return Geom::identity(); +} + +bool CloneTiler::is_a_clone_of(SPObject *tile, SPObject *obj) +{ + bool result = false; + char *id_href = nullptr; + + if (obj) { + Inkscape::XML::Node *obj_repr = obj->getRepr(); + id_href = g_strdup_printf("#%s", obj_repr->attribute("id")); + } + + if (dynamic_cast<SPUse *>(tile) && + tile->getRepr()->attribute("xlink:href") && + (!id_href || !strcmp(id_href, tile->getRepr()->attribute("xlink:href"))) && + tile->getRepr()->attribute("inkscape:tiled-clone-of") && + (!id_href || !strcmp(id_href, tile->getRepr()->attribute("inkscape:tiled-clone-of")))) + { + result = true; + } else { + result = false; + } + if (id_href) { + g_free(id_href); + id_href = nullptr; + } + return result; +} + +void CloneTiler::trace_hide_tiled_clones_recursively(SPObject *from) +{ + if (!trace_drawing) + return; + + for (auto& o: from->children) { + SPItem *item = dynamic_cast<SPItem *>(&o); + if (item && is_a_clone_of(&o, nullptr)) { + item->invoke_hide(trace_visionkey); // FIXME: hide each tiled clone's original too! + } + trace_hide_tiled_clones_recursively (&o); + } +} + +void CloneTiler::trace_setup(SPDocument *doc, gdouble zoom, SPItem *original) +{ + trace_drawing = new Inkscape::Drawing(); + /* Create ArenaItem and set transform */ + trace_visionkey = SPItem::display_key_new(1); + trace_doc = doc; + trace_drawing->setRoot(trace_doc->getRoot()->invoke_show(*trace_drawing, trace_visionkey, SP_ITEM_SHOW_DISPLAY)); + + // hide the (current) original and any tiled clones, we only want to pick the background + original->invoke_hide(trace_visionkey); + trace_hide_tiled_clones_recursively(trace_doc->getRoot()); + + trace_doc->getRoot()->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG); + trace_doc->ensureUpToDate(); + + trace_zoom = zoom; +} + +guint32 CloneTiler::trace_pick(Geom::Rect box) +{ + if (!trace_drawing) { + return 0; + } + + trace_drawing->root()->setTransform(Geom::Scale(trace_zoom)); + trace_drawing->update(); + + /* Item integer bbox in points */ + Geom::IntRect ibox = (box * Geom::Scale(trace_zoom)).roundOutwards(); + + /* Find visible area */ + cairo_surface_t *s = cairo_image_surface_create(CAIRO_FORMAT_ARGB32, ibox.width(), ibox.height()); + Inkscape::DrawingContext dc(s, ibox.min()); + /* Render */ + trace_drawing->render(dc, ibox); + double R = 0, G = 0, B = 0, A = 0; + ink_cairo_surface_average_color(s, R, G, B, A); + cairo_surface_destroy(s); + + return SP_RGBA32_F_COMPOSE (R, G, B, A); +} + +void CloneTiler::trace_finish() +{ + if (trace_doc) { + trace_doc->getRoot()->invoke_hide(trace_visionkey); + delete trace_drawing; + trace_doc = nullptr; + trace_drawing = nullptr; + } +} + +void CloneTiler::unclump() +{ + auto selection = getSelection(); + if (!selection) + return; + + // check if something is selected + if (selection->isEmpty() || boost::distance(selection->items()) > 1) { + getDesktop()->getMessageStack()->flash(Inkscape::WARNING_MESSAGE, _("Select <b>one object</b> whose tiled clones to unclump.")); + return; + } + + auto obj = selection->singleItem(); + auto parent = obj->parent; + + std::vector<SPItem*> to_unclump; // not including the original + + for (auto& child: parent->children) { + if (is_a_clone_of (&child, obj)) { + to_unclump.push_back((SPItem*)&child); + } + } + + getDocument()->ensureUpToDate(); + reverse(to_unclump.begin(),to_unclump.end()); + ::unclump (to_unclump); + + DocumentUndo::done(getDocument(), _("Unclump tiled clones"), INKSCAPE_ICON("dialog-tile-clones")); +} + +guint CloneTiler::number_of_clones(SPObject *obj) +{ + SPObject *parent = obj->parent; + + guint n = 0; + + for (auto& child: parent->children) { + if (is_a_clone_of (&child, obj)) { + n ++; + } + } + + return n; +} + +void CloneTiler::remove(bool do_undo/* = true*/) +{ + auto selection = getSelection(); + if (!selection) + return; + + // check if something is selected + if (selection->isEmpty() || boost::distance(selection->items()) > 1) { + getDesktop()->getMessageStack()->flash(Inkscape::WARNING_MESSAGE, _("Select <b>one object</b> whose tiled clones to remove.")); + return; + } + + SPObject *obj = selection->singleItem(); + SPObject *parent = obj->parent; + +// remove old tiling + std::vector<SPObject *> to_delete; + for (auto& child: parent->children) { + if (is_a_clone_of (&child, obj)) { + to_delete.push_back(&child); + } + } + for (auto obj:to_delete) { + g_assert(obj != nullptr); + obj->deleteObject(); + } + + change_selection (selection); + + if (do_undo) { + DocumentUndo::done(getDocument(), _("Delete tiled clones"), INKSCAPE_ICON("dialog-tile-clones")); + } +} + +Geom::Rect CloneTiler::transform_rect(Geom::Rect const &r, Geom::Affine const &m) +{ + using Geom::X; + using Geom::Y; + Geom::Point const p1 = r.corner(1) * m; + Geom::Point const p2 = r.corner(2) * m; + Geom::Point const p3 = r.corner(3) * m; + Geom::Point const p4 = r.corner(4) * m; + return Geom::Rect( + Geom::Point( + std::min(std::min(p1[X], p2[X]), std::min(p3[X], p4[X])), + std::min(std::min(p1[Y], p2[Y]), std::min(p3[Y], p4[Y]))), + Geom::Point( + std::max(std::max(p1[X], p2[X]), std::max(p3[X], p4[X])), + std::max(std::max(p1[Y], p2[Y]), std::max(p3[Y], p4[Y])))); +} + +/** +Randomizes \a val by \a rand, with 0 < val < 1 and all values (including 0, 1) having the same +probability of being displaced. + */ +double CloneTiler::randomize01(double val, double rand) +{ + double base = MIN (val - rand, 1 - 2*rand); + if (base < 0) { + base = 0; + } + val = base + g_random_double_range (0, MIN (2 * rand, 1 - base)); + return CLAMP(val, 0, 1); // this should be unnecessary with the above provisions, but just in case... +} + + +void CloneTiler::apply() +{ + auto desktop = getDesktop(); + auto selection = getSelection(); + if (!selection) + return; + + // check if something is selected + if (selection->isEmpty()) { + desktop->getMessageStack()->flash(Inkscape::WARNING_MESSAGE, _("Select an <b>object</b> to clone.")); + return; + } + + // Check if more than one object is selected. + if (boost::distance(selection->items()) > 1) { + desktop->getMessageStack()->flash(Inkscape::ERROR_MESSAGE, _("If you want to clone several objects, <b>group</b> them and <b>clone the group</b>.")); + return; + } + + // set "busy" cursor + desktop->setWaitingCursor(); + + // set statusbar text + _status->set_markup(_("<small>Creating tiled clones...</small>")); + _status->queue_draw(); + + SPObject *obj = selection->singleItem(); + if (!obj) { + // Should never happen (empty selection checked above). + std::cerr << "CloneTiler::clonetile_apply(): No object in single item selection!!!" << std::endl; + return; + } + Inkscape::XML::Node *obj_repr = obj->getRepr(); + const char *id_href = g_strdup_printf("#%s", obj_repr->attribute("id")); + SPObject *parent = obj->parent; + + remove(false); + + Geom::Scale scale = getDocument()->getDocumentScale().inverse(); + double scale_units = scale[Geom::X]; // Use just x direction.... + + Inkscape::Preferences *prefs = Inkscape::Preferences::get(); + double shiftx_per_i = 0.01 * prefs->getDoubleLimited(prefs_path + "shiftx_per_i", 0, -10000, 10000); + double shifty_per_i = 0.01 * prefs->getDoubleLimited(prefs_path + "shifty_per_i", 0, -10000, 10000); + double shiftx_per_j = 0.01 * prefs->getDoubleLimited(prefs_path + "shiftx_per_j", 0, -10000, 10000); + double shifty_per_j = 0.01 * prefs->getDoubleLimited(prefs_path + "shifty_per_j", 0, -10000, 10000); + double shiftx_rand = 0.01 * prefs->getDoubleLimited(prefs_path + "shiftx_rand", 0, 0, 1000); + double shifty_rand = 0.01 * prefs->getDoubleLimited(prefs_path + "shifty_rand", 0, 0, 1000); + double shiftx_exp = prefs->getDoubleLimited(prefs_path + "shiftx_exp", 1, 0, 10); + double shifty_exp = prefs->getDoubleLimited(prefs_path + "shifty_exp", 1, 0, 10); + bool shiftx_alternate = prefs->getBool(prefs_path + "shiftx_alternate"); + bool shifty_alternate = prefs->getBool(prefs_path + "shifty_alternate"); + bool shiftx_cumulate = prefs->getBool(prefs_path + "shiftx_cumulate"); + bool shifty_cumulate = prefs->getBool(prefs_path + "shifty_cumulate"); + bool shiftx_excludew = prefs->getBool(prefs_path + "shiftx_excludew"); + bool shifty_excludeh = prefs->getBool(prefs_path + "shifty_excludeh"); + + double scalex_per_i = 0.01 * prefs->getDoubleLimited(prefs_path + "scalex_per_i", 0, -100, 1000); + double scaley_per_i = 0.01 * prefs->getDoubleLimited(prefs_path + "scaley_per_i", 0, -100, 1000); + double scalex_per_j = 0.01 * prefs->getDoubleLimited(prefs_path + "scalex_per_j", 0, -100, 1000); + double scaley_per_j = 0.01 * prefs->getDoubleLimited(prefs_path + "scaley_per_j", 0, -100, 1000); + double scalex_rand = 0.01 * prefs->getDoubleLimited(prefs_path + "scalex_rand", 0, 0, 1000); + double scaley_rand = 0.01 * prefs->getDoubleLimited(prefs_path + "scaley_rand", 0, 0, 1000); + double scalex_exp = prefs->getDoubleLimited(prefs_path + "scalex_exp", 1, 0, 10); + double scaley_exp = prefs->getDoubleLimited(prefs_path + "scaley_exp", 1, 0, 10); + double scalex_log = prefs->getDoubleLimited(prefs_path + "scalex_log", 0, 0, 10); + double scaley_log = prefs->getDoubleLimited(prefs_path + "scaley_log", 0, 0, 10); + bool scalex_alternate = prefs->getBool(prefs_path + "scalex_alternate"); + bool scaley_alternate = prefs->getBool(prefs_path + "scaley_alternate"); + bool scalex_cumulate = prefs->getBool(prefs_path + "scalex_cumulate"); + bool scaley_cumulate = prefs->getBool(prefs_path + "scaley_cumulate"); + + double rotate_per_i = prefs->getDoubleLimited(prefs_path + "rotate_per_i", 0, -180, 180); + double rotate_per_j = prefs->getDoubleLimited(prefs_path + "rotate_per_j", 0, -180, 180); + double rotate_rand = 0.01 * prefs->getDoubleLimited(prefs_path + "rotate_rand", 0, 0, 100); + bool rotate_alternatei = prefs->getBool(prefs_path + "rotate_alternatei"); + bool rotate_alternatej = prefs->getBool(prefs_path + "rotate_alternatej"); + bool rotate_cumulatei = prefs->getBool(prefs_path + "rotate_cumulatei"); + bool rotate_cumulatej = prefs->getBool(prefs_path + "rotate_cumulatej"); + + double blur_per_i = 0.01 * prefs->getDoubleLimited(prefs_path + "blur_per_i", 0, 0, 100); + double blur_per_j = 0.01 * prefs->getDoubleLimited(prefs_path + "blur_per_j", 0, 0, 100); + bool blur_alternatei = prefs->getBool(prefs_path + "blur_alternatei"); + bool blur_alternatej = prefs->getBool(prefs_path + "blur_alternatej"); + double blur_rand = 0.01 * prefs->getDoubleLimited(prefs_path + "blur_rand", 0, 0, 100); + + double opacity_per_i = 0.01 * prefs->getDoubleLimited(prefs_path + "opacity_per_i", 0, 0, 100); + double opacity_per_j = 0.01 * prefs->getDoubleLimited(prefs_path + "opacity_per_j", 0, 0, 100); + bool opacity_alternatei = prefs->getBool(prefs_path + "opacity_alternatei"); + bool opacity_alternatej = prefs->getBool(prefs_path + "opacity_alternatej"); + double opacity_rand = 0.01 * prefs->getDoubleLimited(prefs_path + "opacity_rand", 0, 0, 100); + + Glib::ustring initial_color = prefs->getString(prefs_path + "initial_color"); + double hue_per_j = 0.01 * prefs->getDoubleLimited(prefs_path + "hue_per_j", 0, -100, 100); + double hue_per_i = 0.01 * prefs->getDoubleLimited(prefs_path + "hue_per_i", 0, -100, 100); + double hue_rand = 0.01 * prefs->getDoubleLimited(prefs_path + "hue_rand", 0, 0, 100); + double saturation_per_j = 0.01 * prefs->getDoubleLimited(prefs_path + "saturation_per_j", 0, -100, 100); + double saturation_per_i = 0.01 * prefs->getDoubleLimited(prefs_path + "saturation_per_i", 0, -100, 100); + double saturation_rand = 0.01 * prefs->getDoubleLimited(prefs_path + "saturation_rand", 0, 0, 100); + double lightness_per_j = 0.01 * prefs->getDoubleLimited(prefs_path + "lightness_per_j", 0, -100, 100); + double lightness_per_i = 0.01 * prefs->getDoubleLimited(prefs_path + "lightness_per_i", 0, -100, 100); + double lightness_rand = 0.01 * prefs->getDoubleLimited(prefs_path + "lightness_rand", 0, 0, 100); + bool color_alternatej = prefs->getBool(prefs_path + "color_alternatej"); + bool color_alternatei = prefs->getBool(prefs_path + "color_alternatei"); + + int type = prefs->getInt(prefs_path + "symmetrygroup", 0); + bool keepbbox = prefs->getBool(prefs_path + "keepbbox", true); + int imax = prefs->getInt(prefs_path + "imax", 2); + int jmax = prefs->getInt(prefs_path + "jmax", 2); + + bool fillrect = prefs->getBool(prefs_path + "fillrect"); + double fillwidth = scale_units*prefs->getDoubleLimited(prefs_path + "fillwidth", 50, 0, 1e6); + double fillheight = scale_units*prefs->getDoubleLimited(prefs_path + "fillheight", 50, 0, 1e6); + + bool dotrace = prefs->getBool(prefs_path + "dotrace"); + int pick = prefs->getInt(prefs_path + "pick"); + bool pick_to_presence = prefs->getBool(prefs_path + "pick_to_presence"); + bool pick_to_size = prefs->getBool(prefs_path + "pick_to_size"); + bool pick_to_color = prefs->getBool(prefs_path + "pick_to_color"); + bool pick_to_opacity = prefs->getBool(prefs_path + "pick_to_opacity"); + double rand_picked = 0.01 * prefs->getDoubleLimited(prefs_path + "rand_picked", 0, 0, 100); + bool invert_picked = prefs->getBool(prefs_path + "invert_picked"); + double gamma_picked = prefs->getDoubleLimited(prefs_path + "gamma_picked", 0, -10, 10); + + SPItem *item = dynamic_cast<SPItem *>(obj); + if (dotrace) { + trace_setup(getDocument(), 1.0, item); + } + + Geom::Point center; + double w = 0; + double h = 0; + double x0 = 0; + double y0 = 0; + + if (keepbbox && + obj_repr->attribute("inkscape:tile-w") && + obj_repr->attribute("inkscape:tile-h") && + obj_repr->attribute("inkscape:tile-x0") && + obj_repr->attribute("inkscape:tile-y0") && + obj_repr->attribute("inkscape:tile-cx") && + obj_repr->attribute("inkscape:tile-cy")) { + + double cx = obj_repr->getAttributeDouble("inkscape:tile-cx", 0); + double cy = obj_repr->getAttributeDouble("inkscape:tile-cy", 0); + center = Geom::Point (cx, cy); + + w = obj_repr->getAttributeDouble("inkscape:tile-w", w); + h = obj_repr->getAttributeDouble("inkscape:tile-h", h); + x0 = obj_repr->getAttributeDouble("inkscape:tile-x0", x0); + y0 = obj_repr->getAttributeDouble("inkscape:tile-y0", y0); + } else { + bool prefs_bbox = prefs->getBool("/tools/bounding_box", false); + SPItem::BBoxType bbox_type = ( !prefs_bbox ? + SPItem::VISUAL_BBOX : SPItem::GEOMETRIC_BBOX ); + Geom::OptRect r = item->documentBounds(bbox_type); + if (r) { + w = scale_units*r->dimensions()[Geom::X]; + h = scale_units*r->dimensions()[Geom::Y]; + x0 = scale_units*r->min()[Geom::X]; + y0 = scale_units*r->min()[Geom::Y]; + center = scale_units*desktop->dt2doc(item->getCenter()); + + obj_repr->setAttributeSvgDouble("inkscape:tile-cx", center[Geom::X]); + obj_repr->setAttributeSvgDouble("inkscape:tile-cy", center[Geom::Y]); + obj_repr->setAttributeSvgDouble("inkscape:tile-w", w); + obj_repr->setAttributeSvgDouble("inkscape:tile-h", h); + obj_repr->setAttributeSvgDouble("inkscape:tile-x0", x0); + obj_repr->setAttributeSvgDouble("inkscape:tile-y0", y0); + } else { + center = Geom::Point(0, 0); + w = h = 0; + x0 = y0 = 0; + } + } + + Geom::Point cur(0, 0); + Geom::Rect bbox_original (Geom::Point (x0, y0), Geom::Point (x0 + w, y0 + h)); + double perimeter_original = (w + h)/4; + + // The integers i and j are reserved for tile column and row. + // The doubles x and y are used for coordinates + for (int i = 0; + fillrect? + (fabs(cur[Geom::X]) < fillwidth && i < 200) // prevent "freezing" with too large fillrect, arbitrarily limit rows + : (i < imax); + i ++) { + for (int j = 0; + fillrect? + (fabs(cur[Geom::Y]) < fillheight && j < 200) // prevent "freezing" with too large fillrect, arbitrarily limit cols + : (j < jmax); + j ++) { + + // Note: We create a clone at 0,0 too, right over the original, in case our clones are colored + + // Get transform from symmetry, shift, scale, rotation + Geom::Affine orig_t = get_transform (type, i, j, center[Geom::X], center[Geom::Y], w, h, + shiftx_per_i, shifty_per_i, + shiftx_per_j, shifty_per_j, + shiftx_rand, shifty_rand, + shiftx_exp, shifty_exp, + shiftx_alternate, shifty_alternate, + shiftx_cumulate, shifty_cumulate, + shiftx_excludew, shifty_excludeh, + scalex_per_i, scaley_per_i, + scalex_per_j, scaley_per_j, + scalex_rand, scaley_rand, + scalex_exp, scaley_exp, + scalex_log, scaley_log, + scalex_alternate, scaley_alternate, + scalex_cumulate, scaley_cumulate, + rotate_per_i, rotate_per_j, + rotate_rand, + rotate_alternatei, rotate_alternatej, + rotate_cumulatei, rotate_cumulatej ); + Geom::Affine parent_transform = (((SPItem*)item->parent)->i2doc_affine())*(item->document->getRoot()->c2p.inverse()); + Geom::Affine t = parent_transform*orig_t*parent_transform.inverse(); + cur = center * t - center; + if (fillrect) { + if ((cur[Geom::X] > fillwidth) || (cur[Geom::Y] > fillheight)) { // off limits + continue; + } + } + + gchar color_string[32]; *color_string = 0; + + // Color tab + if (!initial_color.empty()) { + guint32 rgba = sp_svg_read_color (initial_color.data(), 0x000000ff); + float hsl[3]; + SPColor::rgb_to_hsl_floatv (hsl, SP_RGBA32_R_F(rgba), SP_RGBA32_G_F(rgba), SP_RGBA32_B_F(rgba)); + + double eff_i = (color_alternatei? (i%2) : (i)); + double eff_j = (color_alternatej? (j%2) : (j)); + + hsl[0] += hue_per_i * eff_i + hue_per_j * eff_j + hue_rand * g_random_double_range (-1, 1); + double notused; + hsl[0] = modf( hsl[0], ¬used ); // Restrict to 0-1 + hsl[1] += saturation_per_i * eff_i + saturation_per_j * eff_j + saturation_rand * g_random_double_range (-1, 1); + hsl[1] = CLAMP (hsl[1], 0, 1); + hsl[2] += lightness_per_i * eff_i + lightness_per_j * eff_j + lightness_rand * g_random_double_range (-1, 1); + hsl[2] = CLAMP (hsl[2], 0, 1); + + float rgb[3]; + SPColor::hsl_to_rgb_floatv (rgb, hsl[0], hsl[1], hsl[2]); + sp_svg_write_color(color_string, sizeof(color_string), SP_RGBA32_F_COMPOSE(rgb[0], rgb[1], rgb[2], 1.0)); + } + + // Blur + double blur = 0.0; + { + int eff_i = (blur_alternatei? (i%2) : (i)); + int eff_j = (blur_alternatej? (j%2) : (j)); + blur = (blur_per_i * eff_i + blur_per_j * eff_j + blur_rand * g_random_double_range (-1, 1)); + blur = CLAMP (blur, 0, 1); + } + + // Opacity + double opacity = 1.0; + { + int eff_i = (opacity_alternatei? (i%2) : (i)); + int eff_j = (opacity_alternatej? (j%2) : (j)); + opacity = 1 - (opacity_per_i * eff_i + opacity_per_j * eff_j + opacity_rand * g_random_double_range (-1, 1)); + opacity = CLAMP (opacity, 0, 1); + } + + // Trace tab + if (dotrace) { + Geom::Rect bbox_t = transform_rect (bbox_original, t*Geom::Scale(1.0/scale_units)); + + guint32 rgba = trace_pick (bbox_t); + float r = SP_RGBA32_R_F(rgba); + float g = SP_RGBA32_G_F(rgba); + float b = SP_RGBA32_B_F(rgba); + float a = SP_RGBA32_A_F(rgba); + + float hsl[3]; + SPColor::rgb_to_hsl_floatv (hsl, r, g, b); + + gdouble val = 0; + switch (pick) { + case PICK_COLOR: + val = 1 - hsl[2]; // inverse lightness; to match other picks where black = max + break; + case PICK_OPACITY: + val = a; + break; + case PICK_R: + val = r; + break; + case PICK_G: + val = g; + break; + case PICK_B: + val = b; + break; + case PICK_H: + val = hsl[0]; + break; + case PICK_S: + val = hsl[1]; + break; + case PICK_L: + val = 1 - hsl[2]; + break; + default: + break; + } + + if (rand_picked > 0) { + val = randomize01 (val, rand_picked); + r = randomize01 (r, rand_picked); + g = randomize01 (g, rand_picked); + b = randomize01 (b, rand_picked); + } + + if (gamma_picked != 0) { + double power; + if (gamma_picked > 0) + power = 1/(1 + fabs(gamma_picked)); + else + power = 1 + fabs(gamma_picked); + + val = pow (val, power); + r = pow (r, power); + g = pow (g, power); + b = pow (b, power); + } + + if (invert_picked) { + val = 1 - val; + r = 1 - r; + g = 1 - g; + b = 1 - b; + } + + val = CLAMP (val, 0, 1); + r = CLAMP (r, 0, 1); + g = CLAMP (g, 0, 1); + b = CLAMP (b, 0, 1); + + // recompose tweaked color + rgba = SP_RGBA32_F_COMPOSE(r, g, b, a); + + if (pick_to_presence) { + if (g_random_double_range (0, 1) > val) { + continue; // skip! + } + } + if (pick_to_size) { + t = parent_transform * Geom::Translate(-center[Geom::X], -center[Geom::Y]) + * Geom::Scale (val, val) * Geom::Translate(center[Geom::X], center[Geom::Y]) + * parent_transform.inverse() * t; + } + if (pick_to_opacity) { + opacity *= val; + } + if (pick_to_color) { + sp_svg_write_color(color_string, sizeof(color_string), rgba); + } + } + + if (opacity < 1e-6) { // invisibly transparent, skip + continue; + } + + if (fabs(t[0]) + fabs (t[1]) + fabs(t[2]) + fabs(t[3]) < 1e-6) { // too small, skip + continue; + } + + // Create the clone + Inkscape::XML::Node *clone = obj_repr->document()->createElement("svg:use"); + clone->setAttribute("x", "0"); + clone->setAttribute("y", "0"); + clone->setAttribute("inkscape:tiled-clone-of", id_href); + clone->setAttribute("xlink:href", id_href); + + Geom::Point new_center; + bool center_set = false; + if (obj_repr->attribute("inkscape:transform-center-x") || obj_repr->attribute("inkscape:transform-center-y")) { + new_center = scale_units*desktop->dt2doc(item->getCenter()) * orig_t; + center_set = true; + } + + clone->setAttributeOrRemoveIfEmpty("transform", sp_svg_transform_write(t)); + + if (opacity < 1.0) { + clone->setAttributeCssDouble("opacity", opacity); + } + + if (*color_string) { + clone->setAttribute("fill", color_string); + clone->setAttribute("stroke", color_string); + } + + // add the new clone to the top of the original's parent + parent->getRepr()->appendChild(clone); + + if (blur > 0.0) { + SPObject *clone_object = desktop->getDocument()->getObjectByRepr(clone); + SPItem *item = dynamic_cast<SPItem *>(clone_object); + double radius = blur * perimeter_original * t.descrim(); + // this is necessary for all newly added clones to have correct bboxes, + // otherwise filters won't work: + desktop->getDocument()->ensureUpToDate(); + SPFilter *constructed = new_filter_gaussian_blur(desktop->getDocument(), radius, t.descrim()); + constructed->update_filter_region(item); + sp_style_set_property_url (clone_object, "filter", constructed, false); + } + + if (center_set) { + SPObject *clone_object = desktop->getDocument()->getObjectByRepr(clone); + SPItem *item = dynamic_cast<SPItem *>(clone_object); + if (clone_object && item) { + clone_object->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG); + item->setCenter(desktop->doc2dt(new_center)); + clone_object->updateRepr(); + } + } + + Inkscape::GC::release(clone); + } + cur[Geom::Y] = 0; + } + + if (dotrace) { + trace_finish (); + } + + change_selection(selection); + + desktop->clearWaitingCursor(); + DocumentUndo::done(getDocument(), _("Create tiled clones"), INKSCAPE_ICON("dialog-tile-clones")); +} + +Gtk::Box * CloneTiler::new_tab(Gtk::Notebook *nb, const gchar *label) +{ + auto l = Gtk::manage(new Gtk::Label(label, true)); + auto vb = Gtk::manage(new Gtk::Box(Gtk::ORIENTATION_VERTICAL, VB_MARGIN)); + vb->set_homogeneous(false); + vb->set_border_width(VB_MARGIN); + nb->append_page(*vb, *l); + return vb; +} + +void CloneTiler::checkbox_toggled(Gtk::ToggleButton *tb, + const Glib::ustring &attr) +{ + auto prefs = Inkscape::Preferences::get(); + prefs->setBool(prefs_path + attr, tb->get_active()); +} + +Gtk::Widget * CloneTiler::checkbox(const char *tip, + const Glib::ustring &attr) +{ + auto hb = Gtk::manage(new Gtk::Box(Gtk::ORIENTATION_HORIZONTAL, VB_MARGIN)); + auto b = Gtk::manage(new UI::Widget::CheckButtonInternal()); + b->set_tooltip_text(tip); + + auto const prefs = Inkscape::Preferences::get(); + auto const value = prefs->getBool(prefs_path + attr); + b->set_active(value); + + hb->pack_start(*b, false, true); + b->signal_clicked().connect(sigc::bind(sigc::mem_fun(*this, &CloneTiler::checkbox_toggled), b, attr)); + + b->set_uncheckable(); + + return hb; +} + +void CloneTiler::value_changed(Glib::RefPtr<Gtk::Adjustment> &adj, + Glib::ustring const &pref) +{ + auto prefs = Inkscape::Preferences::get(); + prefs->setDouble(prefs_path + pref, adj->get_value()); +} + +Gtk::Widget * CloneTiler::spinbox(const char *tip, + const Glib::ustring &attr, + double lower, + double upper, + const gchar *suffix, + bool exponent/* = false*/) +{ + auto hb = Gtk::manage(new Gtk::Box(Gtk::ORIENTATION_HORIZONTAL, 0)); + + { + // Parameters for adjustment + auto const initial_value = (exponent ? 1.0 : 0.0); + auto const step_increment = (exponent ? 0.01 : 0.1); + auto const page_increment = (exponent ? 0.05 : 0.4); + + auto a = Gtk::Adjustment::create(initial_value, + lower, + upper, + step_increment, + page_increment); + + auto const climb_rate = (exponent ? 0.01 : 0.1); + auto const digits = (exponent ? 2 : 1); + + auto sb = new Inkscape::UI::Widget::SpinButton(a, climb_rate, digits); + + sb->set_tooltip_text (tip); + sb->set_width_chars (5); + sb->set_digits(3); + hb->pack_start(*sb, false, false, SB_MARGIN); + + auto prefs = Inkscape::Preferences::get(); + auto value = prefs->getDoubleLimited(prefs_path + attr, exponent? 1.0 : 0.0, lower, upper); + a->set_value (value); + a->signal_value_changed().connect(sigc::bind(sigc::mem_fun(*this, &CloneTiler::value_changed), a, attr)); + + if (exponent) { + sb->set_oneable(); + } else { + sb->set_zeroable(); + } + } + + { + auto l = Gtk::manage(new Gtk::Label("")); + l->set_markup(suffix); + hb->pack_start(*l); + } + + return hb; +} + +void CloneTiler::symgroup_changed(Gtk::ComboBox *cb) +{ + auto prefs = Inkscape::Preferences::get(); + auto group_new = cb->get_active_row_number(); + prefs->setInt(prefs_path + "symmetrygroup", group_new); +} + +void CloneTiler::xy_changed(Glib::RefPtr<Gtk::Adjustment> &adj, Glib::ustring const &pref) +{ + auto prefs = Inkscape::Preferences::get(); + prefs->setInt(prefs_path + pref, (int) floor(adj->get_value() + 0.5)); +} + +void CloneTiler::keep_bbox_toggled() +{ + auto prefs = Inkscape::Preferences::get(); + prefs->setBool(prefs_path + "keepbbox", _cb_keep_bbox->get_active()); +} + +void CloneTiler::pick_to(Gtk::ToggleButton *tb, Glib::ustring const &pref) +{ + auto prefs = Inkscape::Preferences::get(); + prefs->setBool(prefs_path + pref, tb->get_active()); +} + + +void CloneTiler::reset_recursive(Gtk::Widget *w) +{ + if (w) { + auto sb = dynamic_cast<Inkscape::UI::Widget::SpinButton *>(w); + auto tb = dynamic_cast<Inkscape::UI::Widget::CheckButtonInternal *>(w); + + { + if (sb && sb->get_zeroable()) { // spinbutton + auto a = sb->get_adjustment(); + a->set_value(0); + } + } + { + if (sb && sb->get_oneable()) { // spinbutton + auto a = sb->get_adjustment(); + a->set_value(1); + } + } + { + if (tb && tb->get_uncheckable()) { // checkbox + tb->set_active(false); + } + } + } + + auto container = dynamic_cast<Gtk::Container *>(w); + + if (container) { + auto c = container->get_children(); + for (auto i : c) { + reset_recursive(i); + } + } +} + +void CloneTiler::reset() +{ + reset_recursive(this); +} + +void CloneTiler::table_attach(Gtk::Grid *table, Gtk::Widget *widget, float align, int row, int col) +{ + widget->set_halign(Gtk::ALIGN_FILL); + widget->set_valign(Gtk::ALIGN_CENTER); + table->attach(*widget, col, row, 1, 1); +} + +Gtk::Grid * CloneTiler::table_x_y_rand(int values) +{ + auto table = Gtk::manage(new Gtk::Grid()); + table->set_row_spacing(6); + table->set_column_spacing(8); + + table->set_border_width(VB_MARGIN); + + { + auto hb = Gtk::manage(new Gtk::Box(Gtk::ORIENTATION_HORIZONTAL, 0)); + hb->set_homogeneous(false); + + auto i = Glib::wrap(sp_get_icon_image("object-rows", GTK_ICON_SIZE_MENU)); + hb->pack_start(*i, false, false, 2); + + auto l = Gtk::manage(new Gtk::Label("")); + l->set_markup(_("<small>Per row:</small>")); + hb->pack_start(*l, false, false, 2); + + table_attach(table, hb, 0, 1, 2); + } + + { + auto hb = Gtk::manage(new Gtk::Box(Gtk::ORIENTATION_HORIZONTAL, 0)); + hb->set_homogeneous(false); + + auto i = Glib::wrap(sp_get_icon_image("object-columns", GTK_ICON_SIZE_MENU)); + hb->pack_start(*i, false, false, 2); + + auto l = Gtk::manage(new Gtk::Label("")); + l->set_markup(_("<small>Per column:</small>")); + hb->pack_start(*l, false, false, 2); + + table_attach(table, hb, 0, 1, 3); + } + + { + auto l = Gtk::manage(new Gtk::Label("")); + l->set_markup(_("<small>Randomize:</small>")); + table_attach(table, l, 0, 1, 4); + } + + return table; +} + +void CloneTiler::pick_switched(PickType v) +{ + auto prefs = Inkscape::Preferences::get(); + prefs->setInt(prefs_path + "pick", v); +} + +void CloneTiler::switch_to_create() +{ + for (auto w : _rowscols) { + w->set_sensitive(true); + } + for (auto w : _widthheight) { + w->set_sensitive(false); + } + + auto prefs = Inkscape::Preferences::get(); + prefs->setBool(prefs_path + "fillrect", false); +} + + +void CloneTiler::switch_to_fill() +{ + for (auto w : _rowscols) { + w->set_sensitive(false); + } + for (auto w : _widthheight) { + w->set_sensitive(true); + } + + auto prefs = Inkscape::Preferences::get(); + prefs->setBool(prefs_path + "fillrect", true); +} + +void CloneTiler::fill_width_changed() +{ + auto const raw_dist = fill_width->get_value(); + auto const unit = unit_menu->getUnit(); + auto const pixels = Inkscape::Util::Quantity::convert(raw_dist, unit, "px"); + + auto prefs = Inkscape::Preferences::get(); + prefs->setDouble(prefs_path + "fillwidth", pixels); +} + +void CloneTiler::fill_height_changed() +{ + auto const raw_dist = fill_height->get_value(); + auto const unit = unit_menu->getUnit(); + auto const pixels = Inkscape::Util::Quantity::convert(raw_dist, unit, "px"); + + auto prefs = Inkscape::Preferences::get(); + prefs->setDouble(prefs_path + "fillheight", pixels); +} + +void CloneTiler::unit_changed() +{ + Inkscape::Preferences *prefs = Inkscape::Preferences::get(); + gdouble width_pixels = prefs->getDouble(prefs_path + "fillwidth"); + gdouble height_pixels = prefs->getDouble(prefs_path + "fillheight"); + + Inkscape::Util::Unit const *unit = unit_menu->getUnit(); + + gdouble width_value = Inkscape::Util::Quantity::convert(width_pixels, "px", unit); + gdouble height_value = Inkscape::Util::Quantity::convert(height_pixels, "px", unit); + fill_width->set_value(width_value); + fill_height->set_value(height_value); +} + +void CloneTiler::do_pick_toggled() +{ + auto prefs = Inkscape::Preferences::get(); + auto active = _b->get_active(); + prefs->setBool(prefs_path + "dotrace", active); + + if (_dotrace) { + _dotrace->set_sensitive(active); + } +} + +void CloneTiler::show_page_trace() +{ + nb->set_current_page(6); + _b->set_active(false); +} + + +} +} +} + + +/* + 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 : |