/** @file * Miscellanous operations on selected items. */ /* Authors: * Lauris Kaplinski * Frank Felfe * MenTaLguY * bulia byak * Andrius R. * Jon A. Cruz * Martin Sucha * Abhishek Sharma * Kris De Gussem * Tavmjong Bah (Symbol additions) * * Copyright (C) 1999-2010,2012 authors * Copyright (C) 2001-2002 Ximian, Inc. * * Released under GNU GPL, read the file 'COPYING' for more information */ #ifdef HAVE_CONFIG_H # include "config.h" #endif #include #include "file.h" #include "selection-chemistry.h" // TOOD fixme: This should be moved into preference repr SPCycleType SP_CYCLING = SP_CYCLE_FOCUS; #include "svg/svg.h" #include "desktop.h" #include "desktop-style.h" #include "dir-util.h" #include "layer-model.h" #include "selection.h" #include "tools-switch.h" #include "desktop-handles.h" #include "message-stack.h" #include "sp-item-transform.h" #include "marker.h" #include "sp-use.h" #include "sp-textpath.h" #include "sp-tspan.h" #include "sp-tref.h" #include "sp-flowtext.h" #include "sp-flowregion.h" #include "sp-image.h" #include "sp-rect.h" #include "sp-ellipse.h" #include "sp-star.h" #include "sp-spiral.h" #include "sp-switch.h" #include "sp-polyline.h" #include "sp-line.h" #include "text-editing.h" #include "display/sp-canvas.h" #include "ui/tools/text-tool.h" #include "ui/tools/connector-tool.h" #include "sp-path.h" #include "sp-conn-end.h" #include "ui/tools/dropper-tool.h" #include #include <2geom/transforms.h> #include "xml/repr.h" #include "xml/rebase-hrefs.h" #include "style.h" #include "document-private.h" #include "document-undo.h" #include "sp-gradient.h" #include "sp-gradient-reference.h" #include "sp-linear-gradient.h" #include "sp-pattern.h" #include "sp-symbol.h" #include "sp-radial-gradient.h" #include "ui/tools/gradient-tool.h" #include "sp-namedview.h" #include "preferences.h" #include "sp-offset.h" #include "sp-clippath.h" #include "sp-mask.h" #include "helper/png-write.h" #include "layer-fns.h" #include "context-fns.h" #include #include #include #include "sp-item.h" #include "box3d.h" #include "persp3d.h" #include "util/units.h" #include "xml/simple-document.h" #include "sp-filter-reference.h" #include "gradient-drag.h" #include "uri-references.h" #include "display/curve.h" #include "display/canvas-bpath.h" #include "display/cairo-utils.h" #include "inkscape-private.h" #include "path-chemistry.h" #include "ui/tool/control-point-selection.h" #include "ui/tool/multi-path-manipulator.h" #include "sp-lpe-item.h" #include "live_effects/effect.h" #include "live_effects/effect-enum.h" #include "live_effects/parameter/originalpath.h" #include "enums.h" #include "sp-item-group.h" // For clippath editing #include "tools-switch.h" #include "ui/tools/node-tool.h" #include "ui/clipboard.h" #include "verbs.h" using Inkscape::DocumentUndo; using Geom::X; using Geom::Y; using Inkscape::UI::Tools::NodeTool; /* The clipboard handling is in ui/clipboard.cpp now. There are some legacy functions left here, because the layer manipulation code uses them. It should be rewritten specifically for that purpose. */ // helper for printing error messages, regardless of whether we have a GUI or not // If desktop == NULL, errors will be shown on stderr static void selection_display_message(SPDesktop *desktop, Inkscape::MessageType msgType, Glib::ustring const &msg) { if (desktop) { desktop->messageStack()->flash(msgType, msg); } else { if (msgType == Inkscape::IMMEDIATE_MESSAGE || msgType == Inkscape::WARNING_MESSAGE || msgType == Inkscape::ERROR_MESSAGE) { g_printerr("%s\n", msg.c_str()); } } } namespace Inkscape { void SelectionHelper::selectAll(SPDesktop *dt) { if (tools_isactive(dt, TOOLS_NODES)) { NodeTool *nt = static_cast(dt->event_context); if (!nt->_multipath->empty()) { nt->_multipath->selectSubpaths(); return; } } sp_edit_select_all(dt); } void SelectionHelper::selectAllInAll(SPDesktop *dt) { if (tools_isactive(dt, TOOLS_NODES)) { NodeTool *nt = static_cast(dt->event_context); nt->_selected_nodes->selectAll(); } else { sp_edit_select_all_in_all_layers(dt); } } void SelectionHelper::selectNone(SPDesktop *dt) { NodeTool *nt = NULL; if (tools_isactive(dt, TOOLS_NODES)) { nt = static_cast(dt->event_context); } if (nt && !nt->_selected_nodes->empty()) { nt->_selected_nodes->clear(); } else if (!sp_desktop_selection(dt)->isEmpty()) { sp_desktop_selection(dt)->clear(); } else { // If nothing selected switch to selection tool tools_switch(dt, TOOLS_SELECT); } } void SelectionHelper::selectSameFillStroke(SPDesktop *dt) { sp_select_same_fill_stroke_style(dt, true, true, true); } void SelectionHelper::selectSameFillColor(SPDesktop *dt) { sp_select_same_fill_stroke_style(dt, true, false, false); } void SelectionHelper::selectSameStrokeColor(SPDesktop *dt) { sp_select_same_fill_stroke_style(dt, false, true, false); } void SelectionHelper::selectSameStrokeStyle(SPDesktop *dt) { sp_select_same_stroke_style(dt); } void SelectionHelper::selectSameObjectType(SPDesktop *dt) { sp_select_same_object_type(dt); } void SelectionHelper::invert(SPDesktop *dt) { if (tools_isactive(dt, TOOLS_NODES)) { NodeTool *nt = static_cast(dt->event_context); nt->_multipath->invertSelectionInSubpaths(); } else { sp_edit_invert(dt); } } void SelectionHelper::invertAllInAll(SPDesktop *dt) { if (tools_isactive(dt, TOOLS_NODES)) { NodeTool *nt = static_cast(dt->event_context); nt->_selected_nodes->invertSelection(); } else { sp_edit_invert_in_all_layers(dt); } } void SelectionHelper::reverse(SPDesktop *dt) { // TODO make this a virtual method of event context! if (tools_isactive(dt, TOOLS_NODES)) { NodeTool *nt = static_cast(dt->event_context); nt->_multipath->reverseSubpaths(); } else { sp_selected_path_reverse(dt); } } void SelectionHelper::selectNext(SPDesktop *dt) { Inkscape::UI::Tools::ToolBase *ec = dt->event_context; if (tools_isactive(dt, TOOLS_NODES)) { NodeTool *nt = static_cast(dt->event_context); nt->_multipath->shiftSelection(1); } else if (tools_isactive(dt, TOOLS_GRADIENT) && ec->_grdrag->isNonEmpty()) { Inkscape::UI::Tools::sp_gradient_context_select_next(ec); } else { sp_selection_item_next(dt); } } void SelectionHelper::selectPrev(SPDesktop *dt) { Inkscape::UI::Tools::ToolBase *ec = dt->event_context; if (tools_isactive(dt, TOOLS_NODES)) { NodeTool *nt = static_cast(dt->event_context); nt->_multipath->shiftSelection(-1); } else if (tools_isactive(dt, TOOLS_GRADIENT) && ec->_grdrag->isNonEmpty()) { Inkscape::UI::Tools::sp_gradient_context_select_prev(ec); } else { sp_selection_item_prev(dt); } } /* * Fixes the current selection, removing locked objects from it */ void SelectionHelper::fixSelection(SPDesktop *dt) { if(!dt) return; Inkscape::Selection *selection = sp_desktop_selection(dt); GSList *items = NULL; GSList const *selList = selection->itemList(); for( GSList const *i = selList; i; i = i->next ) { if( SP_IS_ITEM(i->data) && !dt->isLayer(SP_ITEM(i->data)) && (!SP_ITEM(i->data)->isLocked())) { items = g_slist_prepend(items, SP_ITEM(i->data)); } } selection->setList(items); if(items) { g_slist_free(items); } } } // namespace Inkscape /** * Copies repr and its inherited css style elements, along with the accumulated transform 'full_t', * then prepends the copy to 'clip'. */ static void sp_selection_copy_one(Inkscape::XML::Node *repr, Geom::Affine full_t, GSList **clip, Inkscape::XML::Document* xml_doc) { Inkscape::XML::Node *copy = repr->duplicate(xml_doc); // copy complete inherited style SPCSSAttr *css = sp_repr_css_attr_inherited(repr, "style"); sp_repr_css_set(copy, css, "style"); sp_repr_css_attr_unref(css); // write the complete accumulated transform passed to us // (we're dealing with unattached repr, so we write to its attr // instead of using sp_item_set_transform) gchar *affinestr=sp_svg_transform_write(full_t); copy->setAttribute("transform", affinestr); g_free(affinestr); *clip = g_slist_prepend(*clip, copy); } static void sp_selection_copy_impl(GSList const *items, GSList **clip, Inkscape::XML::Document* xml_doc) { // Sort items: GSList *sorted_items = g_slist_copy(const_cast(items)); sorted_items = g_slist_sort(static_cast(sorted_items), (GCompareFunc) sp_object_compare_position); // Copy item reprs: for (GSList *i = (GSList *) sorted_items; i != NULL; i = i->next) { sp_selection_copy_one(SP_OBJECT(i->data)->getRepr(), SP_ITEM(i->data)->i2doc_affine(), clip, xml_doc); } *clip = g_slist_reverse(*clip); g_slist_free(static_cast(sorted_items)); } static GSList *sp_selection_paste_impl(SPDocument *doc, SPObject *parent, GSList **clip) { Inkscape::XML::Document *xml_doc = doc->getReprDoc(); GSList *copied = NULL; // add objects to document for (GSList *l = *clip; l != NULL; l = l->next) { Inkscape::XML::Node *repr = static_cast(l->data); Inkscape::XML::Node *copy = repr->duplicate(xml_doc); // premultiply the item transform by the accumulated parent transform in the paste layer Geom::Affine local(SP_ITEM(parent)->i2doc_affine()); if (!local.isIdentity()) { gchar const *t_str = copy->attribute("transform"); Geom::Affine item_t(Geom::identity()); if (t_str) sp_svg_transform_read(t_str, &item_t); item_t *= local.inverse(); // (we're dealing with unattached repr, so we write to its attr instead of using sp_item_set_transform) gchar *affinestr=sp_svg_transform_write(item_t); copy->setAttribute("transform", affinestr); g_free(affinestr); } parent->appendChildRepr(copy); copied = g_slist_prepend(copied, copy); Inkscape::GC::release(copy); } return copied; } static void sp_selection_delete_impl(GSList const *items, bool propagate = true, bool propagate_descendants = true) { for (GSList const *i = items ; i ; i = i->next ) { sp_object_ref(static_cast(i->data), NULL); } for (GSList const *i = items; i != NULL; i = i->next) { SPItem *item = static_cast(i->data); item->deleteObject(propagate, propagate_descendants); sp_object_unref(item, NULL); } } void sp_selection_delete(SPDesktop *desktop) { if (desktop == NULL) { return; } if (tools_isactive(desktop, TOOLS_TEXT)) if (Inkscape::UI::Tools::sp_text_delete_selection(desktop->event_context)) { DocumentUndo::done(sp_desktop_document(desktop), SP_VERB_CONTEXT_TEXT, _("Delete text")); return; } Inkscape::Selection *selection = sp_desktop_selection(desktop); // check if something is selected if (selection->isEmpty()) { desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Nothing was deleted.")); return; } GSList *selected = g_slist_copy(const_cast(selection->itemList())); selection->clear(); sp_selection_delete_impl(selected); g_slist_free(selected); desktop->currentLayer()->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG); /* a tool may have set up private information in it's selection context * that depends on desktop items. I think the only sane way to deal with * this currently is to reset the current tool, which will reset it's * associated selection context. For example: deleting an object * while moving it around the canvas. */ tools_switch( desktop, tools_active( desktop ) ); DocumentUndo::done(sp_desktop_document(desktop), SP_VERB_EDIT_DELETE, _("Delete")); } static void add_ids_recursive(std::vector &ids, SPObject *obj) { if (obj) { ids.push_back(obj->getId()); if (SP_IS_GROUP(obj)) { for (SPObject *child = obj->firstChild() ; child; child = child->getNext() ) { add_ids_recursive(ids, child); } } } } void sp_selection_duplicate(SPDesktop *desktop, bool suppressDone) { if (desktop == NULL) { return; } SPDocument *doc = desktop->doc(); Inkscape::XML::Document* xml_doc = doc->getReprDoc(); Inkscape::Selection *selection = sp_desktop_selection(desktop); // check if something is selected if (selection->isEmpty()) { desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Select object(s) to duplicate.")); return; } GSList *reprs = g_slist_copy(const_cast(selection->reprList())); selection->clear(); // sorting items from different parents sorts each parent's subset without possibly mixing // them, just what we need reprs = g_slist_sort(reprs, (GCompareFunc) sp_repr_compare_position); GSList *newsel = NULL; std::vector old_ids; std::vector new_ids; Inkscape::Preferences *prefs = Inkscape::Preferences::get(); bool relink_clones = prefs->getBool("/options/relinkclonesonduplicate/value"); const bool fork_livepatheffects = prefs->getBool("/options/forklpeonduplicate/value", true); while (reprs) { Inkscape::XML::Node *old_repr = static_cast(reprs->data); Inkscape::XML::Node *parent = old_repr->parent(); Inkscape::XML::Node *copy = old_repr->duplicate(xml_doc); parent->appendChild(copy); if (relink_clones) { SPObject *old_obj = doc->getObjectByRepr(old_repr); SPObject *new_obj = doc->getObjectByRepr(copy); add_ids_recursive(old_ids, old_obj); add_ids_recursive(new_ids, new_obj); } if (fork_livepatheffects) { SPObject *new_obj = doc->getObjectByRepr(copy); if (new_obj && SP_IS_LPE_ITEM(new_obj)) { SP_LPE_ITEM(new_obj)->forkPathEffectsIfNecessary(1); } } newsel = g_slist_prepend(newsel, copy); reprs = g_slist_remove(reprs, reprs->data); Inkscape::GC::release(copy); } if (relink_clones) { g_assert(old_ids.size() == new_ids.size()); for (unsigned int i = 0; i < old_ids.size(); i++) { const gchar *id = old_ids[i]; SPObject *old_clone = doc->getObjectById(id); if (SP_IS_USE(old_clone)) { SPItem *orig = SP_USE(old_clone)->get_original(); if (!orig) // orphaned continue; for (unsigned int j = 0; j < old_ids.size(); j++) { if (!strcmp(orig->getId(), old_ids[j])) { // we have both orig and clone in selection, relink // std::cout << id << " old, its ori: " << orig->getId() << "; will relink:" << new_ids[i] << " to " << new_ids[j] << "\n"; gchar *newref = g_strdup_printf("#%s", new_ids[j]); SPObject *new_clone = doc->getObjectById(new_ids[i]); new_clone->getRepr()->setAttribute("xlink:href", newref); new_clone->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG); g_free(newref); } } } else if (SP_IS_OFFSET(old_clone)) { for (guint j = 0; j < old_ids.size(); j++) { gchar *source_href = SP_OFFSET(old_clone)->sourceHref; if (source_href && source_href[0]=='#' && !strcmp(source_href+1, old_ids[j])) { gchar *newref = g_strdup_printf("#%s", new_ids[j]); doc->getObjectById(new_ids[i])->getRepr()->setAttribute("xlink:href", newref); g_free(newref); } } } } } if ( !suppressDone ) { DocumentUndo::done(sp_desktop_document(desktop), SP_VERB_EDIT_DUPLICATE, _("Duplicate")); } selection->setReprList(newsel); g_slist_free(newsel); } void sp_edit_clear_all(Inkscape::Selection *selection) { if (!selection) return; SPDocument *doc = selection->layers()->getDocument(); selection->clear(); g_return_if_fail(SP_IS_GROUP(selection->layers()->currentLayer())); GSList *items = sp_item_group_item_list(SP_GROUP(selection->layers()->currentLayer())); while (items) { reinterpret_cast(items->data)->deleteObject(); items = g_slist_remove(items, items->data); } DocumentUndo::done(doc, SP_VERB_EDIT_CLEAR_ALL, _("Delete all")); } /* * Return a list of SPItems that are the children of 'list' * * list - source list of items to search in * desktop - desktop associated with the source list * exclude - list of items to exclude from result * onlyvisible - TRUE includes only items visible on canvas * onlysensitive - TRUE includes only non-locked items * ingroups - TRUE to recursively get grouped items children */ GSList *get_all_items(GSList *list, SPObject *from, SPDesktop *desktop, bool onlyvisible, bool onlysensitive, bool ingroups, GSList const *exclude) { for ( SPObject *child = from->firstChild() ; child; child = child->getNext() ) { if (SP_IS_ITEM(child) && !desktop->isLayer(SP_ITEM(child)) && (!onlysensitive || !SP_ITEM(child)->isLocked()) && (!onlyvisible || !desktop->itemIsHidden(SP_ITEM(child))) && (!exclude || !g_slist_find(const_cast(exclude), child)) ) { list = g_slist_prepend(list, SP_ITEM(child)); } if (ingroups || (SP_IS_ITEM(child) && desktop->isLayer(SP_ITEM(child)))) { list = get_all_items(list, child, desktop, onlyvisible, onlysensitive, ingroups, exclude); } } return list; } static void sp_edit_select_all_full(SPDesktop *dt, bool force_all_layers, bool invert) { if (!dt) return; Inkscape::Selection *selection = sp_desktop_selection(dt); g_return_if_fail(SP_IS_GROUP(dt->currentLayer())); Inkscape::Preferences *prefs = Inkscape::Preferences::get(); PrefsSelectionContext inlayer = (PrefsSelectionContext) prefs->getInt("/options/kbselection/inlayer", PREFS_SELECTION_LAYER); bool onlyvisible = prefs->getBool("/options/kbselection/onlyvisible", true); bool onlysensitive = prefs->getBool("/options/kbselection/onlysensitive", true); GSList *items = NULL; GSList const *exclude = NULL; if (invert) { exclude = selection->itemList(); } if (force_all_layers) inlayer = PREFS_SELECTION_ALL; switch (inlayer) { case PREFS_SELECTION_LAYER: { if ( (onlysensitive && SP_ITEM(dt->currentLayer())->isLocked()) || (onlyvisible && dt->itemIsHidden(SP_ITEM(dt->currentLayer()))) ) return; GSList *all_items = sp_item_group_item_list(SP_GROUP(dt->currentLayer())); for (GSList *i = all_items; i; i = i->next) { SPItem *item = SP_ITEM(i->data); if (item && (!onlysensitive || !item->isLocked())) { if (!onlyvisible || !dt->itemIsHidden(item)) { if (!dt->isLayer(item)) { if (!invert || !g_slist_find(const_cast(exclude), item)) { items = g_slist_prepend(items, item); // leave it in the list } } } } } g_slist_free(all_items); break; } case PREFS_SELECTION_LAYER_RECURSIVE: { items = get_all_items(NULL, dt->currentLayer(), dt, onlyvisible, onlysensitive, FALSE, exclude); break; } default: { items = get_all_items(NULL, dt->currentRoot(), dt, onlyvisible, onlysensitive, FALSE, exclude); break; } } selection->setList(items); if (items) { g_slist_free(items); } } void sp_edit_select_all(SPDesktop *desktop) { sp_edit_select_all_full(desktop, false, false); } void sp_edit_select_all_in_all_layers(SPDesktop *desktop) { sp_edit_select_all_full(desktop, true, false); } void sp_edit_invert(SPDesktop *desktop) { sp_edit_select_all_full(desktop, false, true); } void sp_edit_invert_in_all_layers(SPDesktop *desktop) { sp_edit_select_all_full(desktop, true, true); } static void sp_selection_group_impl(GSList *p, Inkscape::XML::Node *group, Inkscape::XML::Document *xml_doc, SPDocument *doc) { p = g_slist_sort(p, (GCompareFunc) sp_repr_compare_position); // Remember the position and parent of the topmost object. gint topmost = (static_cast(g_slist_last(p)->data))->position(); Inkscape::XML::Node *topmost_parent = (static_cast(g_slist_last(p)->data))->parent(); while (p) { Inkscape::XML::Node *current = static_cast(p->data); if (current->parent() == topmost_parent) { Inkscape::XML::Node *spnew = current->duplicate(xml_doc); sp_repr_unparent(current); group->appendChild(spnew); Inkscape::GC::release(spnew); topmost --; // only reduce count for those items deleted from topmost_parent } else { // move it to topmost_parent first GSList *temp_clip = NULL; // At this point, current may already have no item, due to its being a clone whose original is already moved away // So we copy it artificially calculating the transform from its repr->attr("transform") and the parent transform gchar const *t_str = current->attribute("transform"); Geom::Affine item_t(Geom::identity()); if (t_str) sp_svg_transform_read(t_str, &item_t); item_t *= SP_ITEM(doc->getObjectByRepr(current->parent()))->i2doc_affine(); // FIXME: when moving both clone and original from a transformed group (either by // grouping into another parent, or by cut/paste) the transform from the original's // parent becomes embedded into original itself, and this affects its clones. Fix // this by remembering the transform diffs we write to each item into an array and // then, if this is clone, looking up its original in that array and pre-multiplying // it by the inverse of that original's transform diff. sp_selection_copy_one(current, item_t, &temp_clip, xml_doc); sp_repr_unparent(current); // paste into topmost_parent (temporarily) GSList *copied = sp_selection_paste_impl(doc, doc->getObjectByRepr(topmost_parent), &temp_clip); if (temp_clip) g_slist_free(temp_clip); if (copied) { // if success, // take pasted object (now in topmost_parent) Inkscape::XML::Node *in_topmost = static_cast(copied->data); // make a copy Inkscape::XML::Node *spnew = in_topmost->duplicate(xml_doc); // remove pasted sp_repr_unparent(in_topmost); // put its copy into group group->appendChild(spnew); Inkscape::GC::release(spnew); g_slist_free(copied); } } p = g_slist_remove(p, current); } // Add the new group to the topmost members' parent topmost_parent->appendChild(group); // Move to the position of the topmost, reduced by the number of items deleted from topmost_parent group->setPosition(topmost + 1); } void sp_selection_group(Inkscape::Selection *selection, SPDesktop *desktop) { SPDocument *doc = selection->layers()->getDocument(); Inkscape::XML::Document *xml_doc = doc->getReprDoc(); // Check if something is selected. if (selection->isEmpty()) { selection_display_message(desktop, Inkscape::WARNING_MESSAGE, _("Select some objects to group.")); return; } GSList const *l = const_cast(selection->reprList()); GSList *p = g_slist_copy(const_cast(l)); selection->clear(); Inkscape::XML::Node *group = xml_doc->createElement("svg:g"); sp_selection_group_impl(p, group, xml_doc, doc); DocumentUndo::done(doc, SP_VERB_SELECTION_GROUP, _("Group")); selection->set(group); Inkscape::GC::release(group); } static gint clone_depth_descending(gconstpointer a, gconstpointer b) { SPUse *use_a = static_cast(const_cast(a)); SPUse *use_b = static_cast(const_cast(b)); int depth_a = use_a->cloneDepth(); int depth_b = use_b->cloneDepth(); if (depth_a < depth_b) { return 1; } else if (depth_a == depth_b) { return 0; } else { return -1; } } void sp_selection_ungroup(Inkscape::Selection *selection, SPDesktop *desktop) { if (selection->isEmpty()) { selection_display_message(desktop, Inkscape::WARNING_MESSAGE, _("Select a group to ungroup.")); } // first check whether there is anything to ungroup GSList *old_select = const_cast(selection->itemList()); GSList *new_select = NULL; GSList *groups = NULL; for (GSList *item = old_select; item; item = item->next) { SPItem *obj = static_cast(item->data); if (SP_IS_GROUP(obj)) { groups = g_slist_prepend(groups, obj); } } if (groups == NULL) { selection_display_message(desktop, Inkscape::ERROR_MESSAGE, _("No groups to ungroup in the selection.")); g_slist_free(groups); return; } GSList *items = g_slist_copy(old_select); selection->clear(); // If any of the clones refer to the groups, unlink them and replace them with successors // in the items list. GSList *clones_to_unlink = NULL; for (GSList *item = items; item; item = item->next) { SPUse *use = dynamic_cast(static_cast(item->data)); SPItem *original = use; while (SP_IS_USE(original)) { original = SP_USE(original)->get_original(); } if (g_slist_find(groups, original) != NULL) { clones_to_unlink = g_slist_prepend(clones_to_unlink, item->data); } } // Unlink clones beginning from those with highest clone depth. // This way we can be sure than no additional automatic unlinking happens, // and the items in the list remain valid clones_to_unlink = g_slist_sort(clones_to_unlink, clone_depth_descending); for (GSList *item = clones_to_unlink; item; item = item->next) { SPUse *use = static_cast(item->data); GSList *items_node = g_slist_find(items, item->data); items_node->data = use->unlink(); } g_slist_free(clones_to_unlink); // do the actual work for (GSList *item = items; item; item = item->next) { SPItem *obj = static_cast(item->data); // ungroup only the groups marked earlier if (g_slist_find(groups, item->data) != NULL) { GSList *children = NULL; sp_item_group_ungroup(SP_GROUP(obj), &children, false); // add the items resulting from ungrouping to the selection new_select = g_slist_concat(new_select, children); item->data = NULL; // zero out the original pointer, which is no longer valid } else { // if not a group, keep in the selection new_select = g_slist_append(new_select, item->data); } } selection->addList(new_select); g_slist_free(new_select); g_slist_free(items); DocumentUndo::done(selection->layers()->getDocument(), SP_VERB_SELECTION_UNGROUP, _("Ungroup")); } /** Replace all groups in the list with their member objects, recursively; returns a new list, frees old */ GSList * sp_degroup_list(GSList *items) { GSList *out = NULL; bool has_groups = false; for (GSList *item = items; item; item = item->next) { if (!SP_IS_GROUP(item->data)) { out = g_slist_prepend(out, item->data); } else { has_groups = true; GSList *members = sp_item_group_item_list(SP_GROUP(item->data)); for (GSList *member = members; member; member = member->next) { out = g_slist_prepend(out, member->data); } g_slist_free(members); } } out = g_slist_reverse(out); g_slist_free(items); if (has_groups) { // recurse if we unwrapped a group - it may have contained others out = sp_degroup_list(out); } return out; } /** If items in the list have a common parent, return it, otherwise return NULL */ static SPGroup * sp_item_list_common_parent_group(GSList const *items) { if (!items) { return NULL; } SPObject *parent = SP_OBJECT(items->data)->parent; // Strictly speaking this CAN happen, if user selects from Inkscape::XML editor if (!SP_IS_GROUP(parent)) { return NULL; } for (items = items->next; items; items = items->next) { if (SP_OBJECT(items->data)->parent != parent) { return NULL; } } return SP_GROUP(parent); } /** Finds out the minimum common bbox of the selected items. */ static Geom::OptRect enclose_items(GSList const *items) { g_assert(items != NULL); Geom::OptRect r; for (GSList const *i = items; i; i = i->next) { r.unionWith(static_cast(i->data)->desktopVisualBounds()); } return r; } // TODO determine if this is intentionally different from SPObject::getPrev() static SPObject *prev_sibling(SPObject *child) { SPObject *prev = 0; if ( child && SP_IS_GROUP(child->parent) ) { prev = child->getPrev(); } return prev; } void sp_selection_raise(Inkscape::Selection *selection, SPDesktop *desktop) { GSList const *items = const_cast(selection->itemList()); if (!items) { selection_display_message(desktop, Inkscape::WARNING_MESSAGE, _("Select object(s) to raise.")); return; } SPGroup const *group = sp_item_list_common_parent_group(items); if (!group) { selection_display_message(desktop, Inkscape::ERROR_MESSAGE, _("You cannot raise/lower objects from different groups or layers.")); return; } Inkscape::XML::Node *grepr = const_cast(group->getRepr()); /* Construct reverse-ordered list of selected children. */ GSList *rev = g_slist_copy(const_cast(items)); rev = g_slist_sort(rev, (GCompareFunc) sp_item_repr_compare_position); // Determine the common bbox of the selected items. Geom::OptRect selected = enclose_items(items); // Iterate over all objects in the selection (starting from top). if (selected) { while (rev) { SPObject *child = reinterpret_cast(rev->data); // for each selected object, find the next sibling for (SPObject *newref = child->next; newref; newref = newref->next) { // if the sibling is an item AND overlaps our selection, if (SP_IS_ITEM(newref)) { Geom::OptRect newref_bbox = SP_ITEM(newref)->desktopVisualBounds(); if ( newref_bbox && selected->intersects(*newref_bbox) ) { // AND if it's not one of our selected objects, if (!g_slist_find(const_cast(items), newref)) { // move the selected object after that sibling grepr->changeOrder(child->getRepr(), newref->getRepr()); } break; } } } rev = g_slist_remove(rev, child); } } else { g_slist_free(rev); } DocumentUndo::done(selection->layers()->getDocument(), SP_VERB_SELECTION_RAISE, //TRANSLATORS: "Raise" means "to raise an object" in the undo history C_("Undo action", "Raise")); } void sp_selection_raise_to_top(Inkscape::Selection *selection, SPDesktop *desktop) { SPDocument *document = selection->layers()->getDocument(); if (selection->isEmpty()) { selection_display_message(desktop, Inkscape::WARNING_MESSAGE, _("Select object(s) to raise to top.")); return; } GSList const *items = const_cast(selection->itemList()); SPGroup const *group = sp_item_list_common_parent_group(items); if (!group) { selection_display_message(desktop, Inkscape::ERROR_MESSAGE, _("You cannot raise/lower objects from different groups or layers.")); return; } GSList *rl = g_slist_copy(const_cast(selection->reprList())); rl = g_slist_sort(rl, (GCompareFunc) sp_repr_compare_position); for (GSList *l = rl; l != NULL; l = l->next) { Inkscape::XML::Node *repr = static_cast(l->data); repr->setPosition(-1); } g_slist_free(rl); DocumentUndo::done(document, SP_VERB_SELECTION_TO_FRONT, _("Raise to top")); } void sp_selection_lower(Inkscape::Selection *selection, SPDesktop *desktop) { GSList const *items = const_cast(selection->itemList()); if (!items) { selection_display_message(desktop, Inkscape::WARNING_MESSAGE, _("Select object(s) to lower.")); return; } SPGroup const *group = sp_item_list_common_parent_group(items); if (!group) { selection_display_message(desktop, Inkscape::ERROR_MESSAGE, _("You cannot raise/lower objects from different groups or layers.")); return; } Inkscape::XML::Node *grepr = const_cast(group->getRepr()); // Determine the common bbox of the selected items. Geom::OptRect selected = enclose_items(items); /* Construct direct-ordered list of selected children. */ GSList *rev = g_slist_copy(const_cast(items)); rev = g_slist_sort(rev, (GCompareFunc) sp_item_repr_compare_position); rev = g_slist_reverse(rev); // Iterate over all objects in the selection (starting from top). if (selected) { while (rev) { SPObject *child = reinterpret_cast(rev->data); // for each selected object, find the prev sibling for (SPObject *newref = prev_sibling(child); newref; newref = prev_sibling(newref)) { // if the sibling is an item AND overlaps our selection, if (SP_IS_ITEM(newref)) { Geom::OptRect ref_bbox = SP_ITEM(newref)->desktopVisualBounds(); if ( ref_bbox && selected->intersects(*ref_bbox) ) { // AND if it's not one of our selected objects, if (!g_slist_find(const_cast(items), newref)) { // move the selected object before that sibling SPObject *put_after = prev_sibling(newref); if (put_after) grepr->changeOrder(child->getRepr(), put_after->getRepr()); else child->getRepr()->setPosition(0); } break; } } } rev = g_slist_remove(rev, child); } } else { g_slist_free(rev); } DocumentUndo::done(selection->layers()->getDocument(), SP_VERB_SELECTION_LOWER, //TRANSLATORS: "Lower" means "to lower an object" in the undo history C_("Undo action", "Lower")); } void sp_selection_lower_to_bottom(Inkscape::Selection *selection, SPDesktop *desktop) { SPDocument *document = selection->layers()->getDocument(); if (selection->isEmpty()) { selection_display_message(desktop, Inkscape::WARNING_MESSAGE, _("Select object(s) to lower to bottom.")); return; } GSList const *items = const_cast(selection->itemList()); SPGroup const *group = sp_item_list_common_parent_group(items); if (!group) { selection_display_message(desktop, Inkscape::ERROR_MESSAGE, _("You cannot raise/lower objects from different groups or layers.")); return; } GSList *rl; rl = g_slist_copy(const_cast(selection->reprList())); rl = g_slist_sort(rl, (GCompareFunc) sp_repr_compare_position); rl = g_slist_reverse(rl); for (GSList *l = rl; l != NULL; l = l->next) { gint minpos; SPObject *pp, *pc; Inkscape::XML::Node *repr = static_cast(l->data); pp = document->getObjectByRepr(repr->parent()); minpos = 0; g_assert(SP_IS_GROUP(pp)); pc = pp->firstChild(); while (!SP_IS_ITEM(pc)) { minpos += 1; pc = pc->next; } repr->setPosition(minpos); } g_slist_free(rl); DocumentUndo::done(document, SP_VERB_SELECTION_TO_BACK, _("Lower to bottom")); } void sp_undo(SPDesktop *desktop, SPDocument *) { // No re/undo while dragging, too dangerous. if(desktop->getCanvas()->is_dragging) return; if (!DocumentUndo::undo(sp_desktop_document(desktop))) { desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Nothing to undo.")); } } void sp_redo(SPDesktop *desktop, SPDocument *) { // No re/undo while dragging, too dangerous. if(desktop->getCanvas()->is_dragging) return; if (!DocumentUndo::redo(sp_desktop_document(desktop))) { desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Nothing to redo.")); } } void sp_selection_cut(SPDesktop *desktop) { sp_selection_copy(desktop); sp_selection_delete(desktop); } /** * \pre item != NULL */ SPCSSAttr * take_style_from_item(SPObject *object) { // CPPIFY: // This function should only take SPItems, but currently SPString is not an Item. // write the complete cascaded style, context-free SPCSSAttr *css = sp_css_attr_from_object(object, SP_STYLE_FLAG_ALWAYS); if (css == NULL) return NULL; if ((SP_IS_GROUP(object) && object->children) || (SP_IS_TEXT(object) && object->children && object->children->next == NULL)) { // if this is a text with exactly one tspan child, merge the style of that tspan as well // If this is a group, merge the style of its topmost (last) child with style for (SPObject *last_element = object->lastChild(); last_element != NULL; last_element = last_element->getPrev()) { if ( last_element->style ) { SPCSSAttr *temp = sp_css_attr_from_object(last_element, SP_STYLE_FLAG_IFSET); if (temp) { sp_repr_css_merge(css, temp); sp_repr_css_attr_unref(temp); } break; } } } if (!(SP_IS_TEXT(object) || SP_IS_TSPAN(object) || SP_IS_TREF(object) || SP_IS_STRING(object))) { // do not copy text properties from non-text objects, it's confusing css = sp_css_attr_unset_text(css); } if (SP_IS_ITEM(object)) { // FIXME: also transform gradient/pattern fills, by forking? NO, this must be nondestructive double ex = SP_ITEM(object)->i2doc_affine().descrim(); if (ex != 1.0) { css = sp_css_attr_scale(css, ex); } } return css; } void sp_selection_copy(SPDesktop *desktop) { Inkscape::UI::ClipboardManager *cm = Inkscape::UI::ClipboardManager::get(); cm->copy(desktop); } void sp_selection_paste(SPDesktop *desktop, bool in_place) { Inkscape::UI::ClipboardManager *cm = Inkscape::UI::ClipboardManager::get(); if (cm->paste(desktop, in_place)) { DocumentUndo::done(sp_desktop_document(desktop), SP_VERB_EDIT_PASTE, _("Paste")); } } void sp_selection_paste_style(SPDesktop *desktop) { Inkscape::UI::ClipboardManager *cm = Inkscape::UI::ClipboardManager::get(); if (cm->pasteStyle(desktop)) { DocumentUndo::done(sp_desktop_document(desktop), SP_VERB_EDIT_PASTE_STYLE, _("Paste style")); } } void sp_selection_paste_livepatheffect(SPDesktop *desktop) { Inkscape::UI::ClipboardManager *cm = Inkscape::UI::ClipboardManager::get(); if (cm->pastePathEffect(desktop)) { DocumentUndo::done(sp_desktop_document(desktop), SP_VERB_EDIT_PASTE_LIVEPATHEFFECT, _("Paste live path effect")); } } static void sp_selection_remove_livepatheffect_impl(SPItem *item) { if ( SPLPEItem *lpeitem = dynamic_cast(item) ) { if ( lpeitem->hasPathEffect() ) { lpeitem->removeAllPathEffects(false); } } } void sp_selection_remove_livepatheffect(SPDesktop *desktop) { if (desktop == NULL) return; Inkscape::Selection *selection = sp_desktop_selection(desktop); // check if something is selected if (selection->isEmpty()) { desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Select object(s) to remove live path effects from.")); return; } for ( GSList const *itemlist = selection->itemList(); itemlist != NULL; itemlist = g_slist_next(itemlist) ) { SPItem *item = reinterpret_cast(itemlist->data); sp_selection_remove_livepatheffect_impl(item); } DocumentUndo::done(sp_desktop_document(desktop), SP_VERB_EDIT_REMOVE_LIVEPATHEFFECT, _("Remove live path effect")); } void sp_selection_remove_filter(SPDesktop *desktop) { if (desktop == NULL) return; Inkscape::Selection *selection = sp_desktop_selection(desktop); // check if something is selected if (selection->isEmpty()) { desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Select object(s) to remove filters from.")); return; } SPCSSAttr *css = sp_repr_css_attr_new(); sp_repr_css_unset_property(css, "filter"); sp_desktop_set_style(desktop, css); sp_repr_css_attr_unref(css); DocumentUndo::done(sp_desktop_document(desktop), SP_VERB_EDIT_REMOVE_FILTER, _("Remove filter")); } void sp_selection_paste_size(SPDesktop *desktop, bool apply_x, bool apply_y) { Inkscape::UI::ClipboardManager *cm = Inkscape::UI::ClipboardManager::get(); if (cm->pasteSize(desktop, false, apply_x, apply_y)) { DocumentUndo::done(sp_desktop_document(desktop), SP_VERB_EDIT_PASTE_SIZE, _("Paste size")); } } void sp_selection_paste_size_separately(SPDesktop *desktop, bool apply_x, bool apply_y) { Inkscape::UI::ClipboardManager *cm = Inkscape::UI::ClipboardManager::get(); if (cm->pasteSize(desktop, true, apply_x, apply_y)) { DocumentUndo::done(sp_desktop_document(desktop), SP_VERB_EDIT_PASTE_SIZE_SEPARATELY, _("Paste size separately")); } } void sp_selection_to_next_layer(SPDesktop *dt, bool suppressDone) { Inkscape::Selection *selection = sp_desktop_selection(dt); // check if something is selected if (selection->isEmpty()) { dt->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Select object(s) to move to the layer above.")); return; } GSList const *items = g_slist_copy(const_cast(selection->itemList())); bool no_more = false; // Set to true, if no more layers above SPObject *next=Inkscape::next_layer(dt->currentRoot(), dt->currentLayer()); if (next) { GSList *temp_clip = NULL; sp_selection_copy_impl(items, &temp_clip, dt->doc()->getReprDoc()); sp_selection_delete_impl(items, false, false); next=Inkscape::next_layer(dt->currentRoot(), dt->currentLayer()); // Fixes bug 1482973: crash while moving layers GSList *copied; if (next) { copied = sp_selection_paste_impl(sp_desktop_document(dt), next, &temp_clip); } else { copied = sp_selection_paste_impl(sp_desktop_document(dt), dt->currentLayer(), &temp_clip); no_more = true; } selection->setReprList((GSList const *) copied); g_slist_free(copied); if (temp_clip) g_slist_free(temp_clip); if (next) dt->setCurrentLayer(next); if ( !suppressDone ) { DocumentUndo::done(sp_desktop_document(dt), SP_VERB_LAYER_MOVE_TO_NEXT, _("Raise to next layer")); } } else { no_more = true; } if (no_more) { dt->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("No more layers above.")); } g_slist_free(const_cast(items)); } void sp_selection_to_prev_layer(SPDesktop *dt, bool suppressDone) { Inkscape::Selection *selection = sp_desktop_selection(dt); // check if something is selected if (selection->isEmpty()) { dt->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Select object(s) to move to the layer below.")); return; } GSList const *items = g_slist_copy(const_cast(selection->itemList())); bool no_more = false; // Set to true, if no more layers below SPObject *next=Inkscape::previous_layer(dt->currentRoot(), dt->currentLayer()); if (next) { GSList *temp_clip = NULL; sp_selection_copy_impl(items, &temp_clip, dt->doc()->getReprDoc()); // we're in the same doc, so no need to copy defs sp_selection_delete_impl(items, false, false); next=Inkscape::previous_layer(dt->currentRoot(), dt->currentLayer()); // Fixes bug 1482973: crash while moving layers GSList *copied; if (next) { copied = sp_selection_paste_impl(sp_desktop_document(dt), next, &temp_clip); } else { copied = sp_selection_paste_impl(sp_desktop_document(dt), dt->currentLayer(), &temp_clip); no_more = true; } selection->setReprList((GSList const *) copied); g_slist_free(copied); if (temp_clip) g_slist_free(temp_clip); if (next) dt->setCurrentLayer(next); if ( !suppressDone ) { DocumentUndo::done(sp_desktop_document(dt), SP_VERB_LAYER_MOVE_TO_PREV, _("Lower to previous layer")); } } else { no_more = true; } if (no_more) { dt->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("No more layers below.")); } g_slist_free(const_cast(items)); } void sp_selection_to_layer(SPDesktop *dt, SPObject *moveto, bool suppressDone) { Inkscape::Selection *selection = sp_desktop_selection(dt); // check if something is selected if (selection->isEmpty()) { dt->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Select object(s) to move.")); return; } GSList const *items = g_slist_copy(const_cast(selection->itemList())); if (moveto) { GSList *temp_clip = NULL; sp_selection_copy_impl(items, &temp_clip, dt->doc()->getReprDoc()); // we're in the same doc, so no need to copy defs sp_selection_delete_impl(items, false, false); GSList *copied = sp_selection_paste_impl(sp_desktop_document(dt), moveto, &temp_clip); selection->setReprList((GSList const *) copied); g_slist_free(copied); if (temp_clip) g_slist_free(temp_clip); if (moveto) dt->setCurrentLayer(moveto); if ( !suppressDone ) { DocumentUndo::done(sp_desktop_document(dt), SP_VERB_LAYER_MOVE_TO, _("Move selection to layer")); } } g_slist_free(const_cast(items)); } static bool selection_contains_original(SPItem *item, Inkscape::Selection *selection) { bool contains_original = false; bool is_use = SP_IS_USE(item); SPItem *item_use = item; SPItem *item_use_first = item; while (is_use && item_use && !contains_original) { item_use = SP_USE(item_use)->get_original(); contains_original |= selection->includes(item_use); if (item_use == item_use_first) break; is_use = SP_IS_USE(item_use); } // If it's a tref, check whether the object containing the character // data is part of the selection if (!contains_original && SP_IS_TREF(item)) { contains_original = selection->includes(SP_TREF(item)->getObjectReferredTo()); } return contains_original; } static bool selection_contains_both_clone_and_original(Inkscape::Selection *selection) { bool clone_with_original = false; for (GSList const *l = selection->itemList(); l != NULL; l = l->next) { SPItem *item = SP_ITEM(l->data); clone_with_original |= selection_contains_original(item, selection); if (clone_with_original) break; } return clone_with_original; } /** Apply matrix to the selection. \a set_i2d is normally true, which means objects are in the original transform, synced with their reprs, and need to jump to the new transform in one go. A value of set_i2d==false is only used by seltrans when it's dragging objects live (not outlines); in that case, items are already in the new position, but the repr is in the old, and this function then simply updates the repr from item->transform. */ void sp_selection_apply_affine(Inkscape::Selection *selection, Geom::Affine const &affine, bool set_i2d, bool compensate) { if (selection->isEmpty()) return; // For each perspective with a box in selection, check whether all boxes are selected and // unlink all non-selected boxes. Persp3D *persp; Persp3D *transf_persp; std::list plist = selection->perspList(); for (std::list::iterator i = plist.begin(); i != plist.end(); ++i) { persp = (Persp3D *) (*i); if (!persp3d_has_all_boxes_in_selection (persp, selection)) { std::list selboxes = selection->box3DList(persp); // create a new perspective as a copy of the current one and link the selected boxes to it transf_persp = persp3d_create_xml_element (persp->document, persp->perspective_impl); for (std::list::iterator b = selboxes.begin(); b != selboxes.end(); ++b) box3d_switch_perspectives(*b, persp, transf_persp); } else { transf_persp = persp; } persp3d_apply_affine_transformation(transf_persp, affine); } for (GSList const *l = selection->itemList(); l != NULL; l = l->next) { SPItem *item = SP_ITEM(l->data); if( SP_IS_ROOT(item) ) { // An SVG element cannot have a transform. We could change 'x' and 'y' in response // to a translation... but leave that for another day. selection->desktop()->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Cannot transform an embedded SVG.")); break; } Geom::Point old_center(0,0); if (set_i2d && item->isCenterSet()) old_center = item->getCenter(); #if 0 /* Re-enable this once persistent guides have a graphical indication. At the time of writing, this is the only place to re-enable. */ sp_item_update_cns(*item, selection->desktop()); #endif // we're moving both a clone and its original or any ancestor in clone chain? bool transform_clone_with_original = selection_contains_original(item, selection); // ...both a text-on-path and its path? bool transform_textpath_with_path = (SP_IS_TEXT_TEXTPATH(item) && selection->includes( sp_textpath_get_path_item(SP_TEXTPATH(item->firstChild())) )); // ...both a flowtext and its frame? bool transform_flowtext_with_frame = (SP_IS_FLOWTEXT(item) && selection->includes( SP_FLOWTEXT(item)->get_frame(NULL))); // (only the first frame is checked so far) // ...both an offset and its source? bool transform_offset_with_source = (SP_IS_OFFSET(item) && SP_OFFSET(item)->sourceHref) && selection->includes( sp_offset_get_source(SP_OFFSET(item)) ); // If we're moving a connector, we want to detach it // from shapes that aren't part of the selection, but // leave it attached if they are if (Inkscape::UI::Tools::cc_item_is_connector(item)) { SPItem *attItem[2]; SP_PATH(item)->connEndPair.getAttachedItems(attItem); for (int n = 0; n < 2; ++n) { if (!selection->includes(attItem[n])) { sp_conn_end_detach(item, n); } } } // "clones are unmoved when original is moved" preference Inkscape::Preferences *prefs = Inkscape::Preferences::get(); int compensation = prefs->getInt("/options/clonecompensation/value", SP_CLONE_COMPENSATION_UNMOVED); bool prefs_unmoved = (compensation == SP_CLONE_COMPENSATION_UNMOVED); bool prefs_parallel = (compensation == SP_CLONE_COMPENSATION_PARALLEL); /* If this is a clone and it's selected along with its original, do not move it; * it will feel the transform of its original and respond to it itself. * Without this, a clone is doubly transformed, very unintuitive. * * Same for textpath if we are also doing ANY transform to its path: do not touch textpath, * letters cannot be squeezed or rotated anyway, they only refill the changed path. * Same for linked offset if we are also moving its source: do not move it. */ if (transform_textpath_with_path) { // Restore item->transform field from the repr, in case it was changed by seltrans. item->readAttr( "transform" ); } else if (transform_flowtext_with_frame) { // apply the inverse of the region's transform to the so that the flow remains // the same (even though the output itself gets transformed) for ( SPObject *region = item->firstChild() ; region ; region = region->getNext() ) { if (SP_IS_FLOWREGION(region) || SP_IS_FLOWREGIONEXCLUDE(region)) { for ( SPObject *use = region->firstChild() ; use ; use = use->getNext() ) { if ( SP_IS_USE(use) ) { SP_USE(use)->doWriteTransform(use->getRepr(), item->transform.inverse(), NULL, compensate); } } } } } else if (transform_clone_with_original || transform_offset_with_source) { // We are transforming a clone along with its original. The below matrix juggling is // necessary to ensure that they transform as a whole, i.e. the clone's induced // transform and its move compensation are both cancelled out. // restore item->transform field from the repr, in case it was changed by seltrans item->readAttr( "transform" ); // calculate the matrix we need to apply to the clone to cancel its induced transform from its original Geom::Affine parent2dt = SP_ITEM(item->parent)->i2dt_affine(); Geom::Affine t = parent2dt * affine * parent2dt.inverse(); Geom::Affine t_inv = t.inverse(); Geom::Affine result = t_inv * item->transform * t; if (transform_clone_with_original && (prefs_parallel || prefs_unmoved) && affine.isTranslation()) { // we need to cancel out the move compensation, too // find out the clone move, same as in sp_use_move_compensate Geom::Affine parent = SP_USE(item)->get_parent_transform(); Geom::Affine clone_move = parent.inverse() * t * parent; if (prefs_parallel) { Geom::Affine move = result * clone_move * t_inv; item->doWriteTransform(item->getRepr(), move, &move, compensate); } else if (prefs_unmoved) { //if (SP_IS_USE(sp_use_get_original(SP_USE(item)))) // clone_move = Geom::identity(); Geom::Affine move = result * clone_move; item->doWriteTransform(item->getRepr(), move, &t, compensate); } } else if (transform_offset_with_source && (prefs_parallel || prefs_unmoved) && affine.isTranslation()){ Geom::Affine parent = item->transform; Geom::Affine offset_move = parent.inverse() * t * parent; if (prefs_parallel) { Geom::Affine move = result * offset_move * t_inv; item->doWriteTransform(item->getRepr(), move, &move, compensate); } else if (prefs_unmoved) { Geom::Affine move = result * offset_move; item->doWriteTransform(item->getRepr(), move, &t, compensate); } } else { // just apply the result item->doWriteTransform(item->getRepr(), result, &t, compensate); } } else { if (set_i2d) { item->set_i2d_affine(item->i2dt_affine() * (Geom::Affine)affine); } item->doWriteTransform(item->getRepr(), item->transform, NULL, compensate); } // if we're moving the actual object, not just updating the repr, we can transform the // center by the same matrix (only necessary for non-translations) if (set_i2d && item->isCenterSet() && !(affine.isTranslation() || affine.isIdentity())) { item->setCenter(old_center * affine); item->updateRepr(); } } } void sp_selection_remove_transform(SPDesktop *desktop) { if (desktop == NULL) return; Inkscape::Selection *selection = sp_desktop_selection(desktop); GSList const *l = const_cast(selection->reprList()); while (l != NULL) { ((Inkscape::XML::Node*)l->data)->setAttribute("transform", NULL, false); l = l->next; } DocumentUndo::done(sp_desktop_document(desktop), SP_VERB_OBJECT_FLATTEN, _("Remove transform")); } void sp_selection_scale_absolute(Inkscape::Selection *selection, double const x0, double const x1, double const y0, double const y1) { if (selection->isEmpty()) return; Geom::OptRect bbox = selection->visualBounds(); if ( !bbox ) { return; } Geom::Translate const p2o(-bbox->min()); Geom::Scale const newSize(x1 - x0, y1 - y0); Geom::Scale const scale( newSize * Geom::Scale(bbox->dimensions()).inverse() ); Geom::Translate const o2n(x0, y0); Geom::Affine const final( p2o * scale * o2n ); sp_selection_apply_affine(selection, final); } void sp_selection_scale_relative(Inkscape::Selection *selection, Geom::Point const &align, Geom::Scale const &scale) { if (selection->isEmpty()) return; Geom::OptRect bbox = selection->visualBounds(); if ( !bbox ) { return; } // FIXME: ARBITRARY LIMIT: don't try to scale above 1 Mpx, it won't display properly and will crash sooner or later anyway if ( bbox->dimensions()[Geom::X] * scale[Geom::X] > 1e6 || bbox->dimensions()[Geom::Y] * scale[Geom::Y] > 1e6 ) { return; } Geom::Translate const n2d(-align); Geom::Translate const d2n(align); Geom::Affine const final( n2d * scale * d2n ); sp_selection_apply_affine(selection, final); } void sp_selection_rotate_relative(Inkscape::Selection *selection, Geom::Point const ¢er, gdouble const angle_degrees) { Geom::Translate const d2n(center); Geom::Translate const n2d(-center); Geom::Rotate const rotate(Geom::Rotate::from_degrees(angle_degrees)); Geom::Affine const final( Geom::Affine(n2d) * rotate * d2n ); sp_selection_apply_affine(selection, final); } void sp_selection_skew_relative(Inkscape::Selection *selection, Geom::Point const &align, double dx, double dy) { Geom::Translate const d2n(align); Geom::Translate const n2d(-align); Geom::Affine const skew(1, dy, dx, 1, 0, 0); Geom::Affine const final( n2d * skew * d2n ); sp_selection_apply_affine(selection, final); } void sp_selection_move_relative(Inkscape::Selection *selection, Geom::Point const &move, bool compensate) { sp_selection_apply_affine(selection, Geom::Affine(Geom::Translate(move)), true, compensate); } void sp_selection_move_relative(Inkscape::Selection *selection, double dx, double dy) { sp_selection_apply_affine(selection, Geom::Affine(Geom::Translate(dx, dy))); } /** * Rotates selected objects 90 degrees, either clock-wise or counter-clockwise, depending on the value of ccw. */ void sp_selection_rotate_90(SPDesktop *desktop, bool ccw) { Inkscape::Selection *selection = sp_desktop_selection(desktop); if (selection->isEmpty()) return; GSList const *l = selection->itemList(); Geom::Rotate const rot_90(Geom::Point(0, ccw ? 1 : -1)); // pos. or neg. rotation, depending on the value of ccw for (GSList const *l2 = l ; l2 != NULL ; l2 = l2->next) { SPItem *item = SP_ITEM(l2->data); sp_item_rotate_rel(item, rot_90); } DocumentUndo::done(sp_desktop_document(desktop), ccw ? SP_VERB_OBJECT_ROTATE_90_CCW : SP_VERB_OBJECT_ROTATE_90_CW, ccw ? _("Rotate 90\xc2\xb0 CCW") : _("Rotate 90\xc2\xb0 CW")); } void sp_selection_rotate(Inkscape::Selection *selection, gdouble const angle_degrees) { if (selection->isEmpty()) return; boost::optional center = selection->center(); if (!center) { return; } sp_selection_rotate_relative(selection, *center, angle_degrees); DocumentUndo::maybeDone(sp_desktop_document(selection->desktop()), ( ( angle_degrees > 0 ) ? "selector:rotate:ccw" : "selector:rotate:cw" ), SP_VERB_CONTEXT_SELECT, _("Rotate")); } /* * Selects all the visible items with the same fill and/or stroke color/style as the items in the current selection * * Params: * desktop - set the selection on this desktop * fill - select objects matching fill * stroke - select objects matching stroke */ void sp_select_same_fill_stroke_style(SPDesktop *desktop, gboolean fill, gboolean stroke, gboolean style) { if (!desktop) { return; } if (!fill && !stroke && !style) { return; } Inkscape::Preferences *prefs = Inkscape::Preferences::get(); bool onlyvisible = prefs->getBool("/options/kbselection/onlyvisible", true); bool onlysensitive = prefs->getBool("/options/kbselection/onlysensitive", true); bool ingroups = TRUE; GSList *all_list = get_all_items(NULL, desktop->currentRoot(), desktop, onlyvisible, onlysensitive, ingroups, NULL); GSList *all_matches = NULL; Inkscape::Selection *selection = sp_desktop_selection (desktop); for (GSList const* sel_iter = selection->itemList(); sel_iter; sel_iter = sel_iter->next) { SPItem *sel = SP_ITEM(sel_iter->data); GSList *matches = all_list; if (fill) { matches = sp_get_same_fill_or_stroke_color(sel, matches, SP_FILL_COLOR); } if (stroke) { matches = sp_get_same_fill_or_stroke_color(sel, matches, SP_STROKE_COLOR); } if (style) { matches = sp_get_same_stroke_style(sel, matches, SP_STROKE_STYLE_WIDTH); matches = sp_get_same_stroke_style(sel, matches, SP_STROKE_STYLE_DASHES); matches = sp_get_same_stroke_style(sel, matches, SP_STROKE_STYLE_MARKERS); } all_matches = g_slist_concat (all_matches, matches); } selection->clear(); selection->setList(all_matches); if (all_matches) { g_slist_free(all_matches); } if (all_list) { g_slist_free(all_list); } } /* * Selects all the visible items with the same object type as the items in the current selection * * Params: * desktop - set the selection on this desktop */ void sp_select_same_object_type(SPDesktop *desktop) { if (!desktop) { return; } Inkscape::Preferences *prefs = Inkscape::Preferences::get(); bool onlyvisible = prefs->getBool("/options/kbselection/onlyvisible", true); bool onlysensitive = prefs->getBool("/options/kbselection/onlysensitive", true); bool ingroups = TRUE; GSList *all_list = get_all_items(NULL, desktop->currentRoot(), desktop, onlyvisible, onlysensitive, ingroups, NULL); GSList *matches = all_list; Inkscape::Selection *selection = sp_desktop_selection (desktop); for (GSList const* sel_iter = selection->itemList(); sel_iter; sel_iter = sel_iter->next) { SPItem *sel = SP_ITEM(sel_iter->data); matches = sp_get_same_object_type(sel, matches); } selection->clear(); selection->setList(matches); if (matches) { g_slist_free(matches); } if (all_list) { g_slist_free(all_list); } } /* * Selects all the visible items with the same stroke style as the items in the current selection * * Params: * desktop - set the selection on this desktop */ void sp_select_same_stroke_style(SPDesktop *desktop) { if (!desktop) { return; } Inkscape::Preferences *prefs = Inkscape::Preferences::get(); bool onlyvisible = prefs->getBool("/options/kbselection/onlyvisible", true); bool onlysensitive = prefs->getBool("/options/kbselection/onlysensitive", true); bool ingroups = TRUE; GSList *all_list = get_all_items(NULL, desktop->currentRoot(), desktop, onlyvisible, onlysensitive, ingroups, NULL); GSList *matches = all_list; Inkscape::Selection *selection = sp_desktop_selection (desktop); for (GSList const* sel_iter = selection->itemList(); sel_iter; sel_iter = sel_iter->next) { SPItem *sel = SP_ITEM(sel_iter->data); matches = sp_get_same_stroke_style(sel, matches, SP_STROKE_STYLE_WIDTH); matches = sp_get_same_stroke_style(sel, matches, SP_STROKE_STYLE_DASHES); matches = sp_get_same_stroke_style(sel, matches, SP_STROKE_STYLE_MARKERS); } selection->clear(); selection->setList(matches); if (matches) { g_slist_free(matches); } if (all_list) { g_slist_free(all_list); } } /* * Find all items in src list that have the same fill or stroke style as sel * Return the list of matching items */ GSList *sp_get_same_fill_or_stroke_color(SPItem *sel, GSList *src, SPSelectStrokeStyleType type) { GSList *matches = NULL; gboolean match = false; SPIPaint *sel_paint = (type == SP_FILL_COLOR) ? &(sel->style->fill) : &(sel->style->stroke); for (GSList *i = src; i != NULL; i = i->next) { SPItem *iter = SP_ITEM(i->data); SPIPaint *iter_paint = (type == SP_FILL_COLOR) ? &(iter->style->fill) : &(iter->style->stroke); match = false; if (sel_paint->isColor() && iter_paint->isColor() // color == color comparision doesnt seem to work here. && (sel_paint->value.color.toRGBA32(1.0) == iter_paint->value.color.toRGBA32(1.0))) { match = true; } else if (sel_paint->isPaintserver() && iter_paint->isPaintserver()) { SPPaintServer *sel_server = (type == SP_FILL_COLOR) ? sel->style->getFillPaintServer() : sel->style->getStrokePaintServer(); SPPaintServer *iter_server = (type == SP_FILL_COLOR) ? iter->style->getFillPaintServer() : iter->style->getStrokePaintServer(); if ((SP_IS_LINEARGRADIENT(sel_server) || SP_IS_RADIALGRADIENT(sel_server) || (SP_IS_GRADIENT(sel_server) && SP_GRADIENT(sel_server)->getVector()->isSwatch())) && (SP_IS_LINEARGRADIENT(iter_server) || SP_IS_RADIALGRADIENT(iter_server) || (SP_IS_GRADIENT(iter_server) && SP_GRADIENT(iter_server)->getVector()->isSwatch()))) { SPGradient *sel_vector = SP_GRADIENT(sel_server)->getVector(); SPGradient *iter_vector = SP_GRADIENT(iter_server)->getVector(); if (sel_vector == iter_vector) { match = true; } } else if (SP_IS_PATTERN(sel_server) && SP_IS_PATTERN(iter_server)) { SPPattern *sel_pat = pattern_getroot(SP_PATTERN(sel_server)); SPPattern *iter_pat = pattern_getroot(SP_PATTERN(iter_server)); if (sel_pat == iter_pat) { match = true; } } } else if (sel_paint->isNone() && iter_paint->isNone()) { match = true; } else if (sel_paint->isNoneSet() && iter_paint->isNoneSet()) { match = true; } if (match) { matches = g_slist_prepend(matches, iter); } } return matches; } static bool item_type_match (SPItem *i, SPItem *j) { if ( SP_IS_RECT(i)) { return ( SP_IS_RECT(j) ); } else if (SP_IS_GENERICELLIPSE(i)) { return (SP_IS_GENERICELLIPSE(j)); } else if (SP_IS_STAR(i) || SP_IS_POLYGON(i)) { return (SP_IS_STAR(j) || SP_IS_POLYGON(j)) ; } else if (SP_IS_SPIRAL(i)) { return (SP_IS_SPIRAL(j)); } else if (SP_IS_PATH(i) || SP_IS_LINE(i) || SP_IS_POLYLINE(i)) { return (SP_IS_PATH(j) || SP_IS_LINE(j) || SP_IS_POLYLINE(j)); } else if (SP_IS_TEXT(i) || SP_IS_FLOWTEXT(i) || SP_IS_TSPAN(i) || SP_IS_TREF(i) || SP_IS_STRING(i)) { return (SP_IS_TEXT(j) || SP_IS_FLOWTEXT(j) || SP_IS_TSPAN(j) || SP_IS_TREF(j) || SP_IS_STRING(j)); } else if (SP_IS_USE(i)) { return (SP_IS_USE(j)) ; } else if (SP_IS_IMAGE(i)) { return (SP_IS_IMAGE(j)); } else if (SP_IS_OFFSET(i) && SP_OFFSET(i)->sourceHref) { // Linked offset return (SP_IS_OFFSET(j) && SP_OFFSET(j)->sourceHref); } else if (SP_IS_OFFSET(i) && !SP_OFFSET(i)->sourceHref) { // Dynamic offset return (SP_IS_OFFSET(j) && !SP_OFFSET(j)->sourceHref); } return false; } /* * Find all items in src list that have the same object type as sel by type * Return the list of matching items */ GSList *sp_get_same_object_type(SPItem *sel, GSList *src) { GSList *matches = NULL; for (GSList *i = src; i != NULL; i = i->next) { SPItem *item = SP_ITEM(i->data); if (item_type_match (sel, item)) { matches = g_slist_prepend (matches, item); } } return matches; } /* * Find all items in src list that have the same stroke style as sel by type * Return the list of matching items */ GSList *sp_get_same_stroke_style(SPItem *sel, GSList *src, SPSelectStrokeStyleType type) { GSList *matches = NULL; gboolean match = false; SPStyle *sel_style = sel->style; if (type == SP_FILL_COLOR || type == SP_STROKE_COLOR) { return sp_get_same_fill_or_stroke_color(sel, src, type); } /* * Stroke width needs to handle transformations, so call this function * to get the transformed stroke width */ GSList *objects = NULL; SPStyle *sel_style_for_width = NULL; if (type == SP_STROKE_STYLE_WIDTH) { objects = g_slist_prepend(objects, sel); sel_style_for_width = sp_style_new (SP_ACTIVE_DOCUMENT); objects_query_strokewidth (objects, sel_style_for_width); } for (GSList *i = src; i != NULL; i = i->next) { SPItem *iter = SP_ITEM(i->data); SPStyle *iter_style = iter->style; match = false; if (type == SP_STROKE_STYLE_WIDTH) { match = (sel_style->stroke_width.set == iter_style->stroke_width.set); if (sel_style->stroke_width.set && iter_style->stroke_width.set) { GSList *objects = NULL; objects = g_slist_prepend(objects, iter); SPStyle *iter_style_for_width = sp_style_new (SP_ACTIVE_DOCUMENT); objects_query_strokewidth (objects, iter_style_for_width); if (sel_style_for_width) { match = (sel_style_for_width->stroke_width.computed == iter_style_for_width->stroke_width.computed); } g_slist_free(objects); } } else if (type == SP_STROKE_STYLE_DASHES ) { match = (sel_style->stroke_dasharray.set == iter_style->stroke_dasharray.set); if (sel_style->stroke_dasharray.set && iter_style->stroke_dasharray.set) { match = (sel_style->stroke_dasharray.values == iter_style->stroke_dasharray.values); } } else if (type == SP_STROKE_STYLE_MARKERS) { match = true; int len = sizeof(sel_style->marker)/sizeof(SPIString); for (int i = 0; i < len; i++) { match = (sel_style->marker_ptrs[i]->set == iter_style->marker_ptrs[i]->set); if (sel_style->marker_ptrs[i]->set && iter_style->marker_ptrs[i]->set && (strcmp(sel_style->marker_ptrs[i]->value, iter_style->marker_ptrs[i]->value))) { match = false; break; } } } if (match) { matches = g_slist_prepend(matches, iter); } } g_slist_free(objects); return matches; } // helper function: static Geom::Point cornerFarthestFrom(Geom::Rect const &r, Geom::Point const &p){ Geom::Point m = r.midpoint(); unsigned i = 0; if (p[X] < m[X]) { i = 1; } if (p[Y] < m[Y]) { i = 3 - i; } return r.corner(i); } /** \param angle the angle in "angular pixels", i.e. how many visible pixels must move the outermost point of the rotated object */ void sp_selection_rotate_screen(Inkscape::Selection *selection, gdouble angle) { if (selection->isEmpty()) return; Geom::OptRect bbox = selection->visualBounds(); boost::optional center = selection->center(); if ( !bbox || !center ) { return; } gdouble const zoom = selection->desktop()->current_zoom(); gdouble const zmove = angle / zoom; gdouble const r = Geom::L2(cornerFarthestFrom(*bbox, *center) - *center); gdouble const zangle = 180 * atan2(zmove, r) / M_PI; sp_selection_rotate_relative(selection, *center, zangle); DocumentUndo::maybeDone(sp_desktop_document(selection->desktop()), ( (angle > 0) ? "selector:rotate:ccw" : "selector:rotate:cw" ), SP_VERB_CONTEXT_SELECT, _("Rotate by pixels")); } void sp_selection_scale(Inkscape::Selection *selection, gdouble grow) { if (selection->isEmpty()) return; Geom::OptRect bbox = selection->visualBounds(); if (!bbox) { return; } Geom::Point const center(bbox->midpoint()); // you can't scale "do nizhe pola" (below zero) double const max_len = bbox->maxExtent(); if ( max_len + grow <= 1e-3 ) { return; } double const times = 1.0 + grow / max_len; sp_selection_scale_relative(selection, center, Geom::Scale(times, times)); DocumentUndo::maybeDone(sp_desktop_document(selection->desktop()), ( (grow > 0) ? "selector:scale:larger" : "selector:scale:smaller" ), SP_VERB_CONTEXT_SELECT, _("Scale")); } void sp_selection_scale_screen(Inkscape::Selection *selection, gdouble grow_pixels) { sp_selection_scale(selection, grow_pixels / selection->desktop()->current_zoom()); } void sp_selection_scale_times(Inkscape::Selection *selection, gdouble times) { if (selection->isEmpty()) return; Geom::OptRect sel_bbox = selection->visualBounds(); if (!sel_bbox) { return; } Geom::Point const center(sel_bbox->midpoint()); sp_selection_scale_relative(selection, center, Geom::Scale(times, times)); DocumentUndo::done(sp_desktop_document(selection->desktop()), SP_VERB_CONTEXT_SELECT, _("Scale by whole factor")); } void sp_selection_move(Inkscape::Selection *selection, gdouble dx, gdouble dy) { if (selection->isEmpty()) { return; } sp_selection_move_relative(selection, dx, dy); SPDocument *doc = selection->layers()->getDocument(); if (dx == 0) { DocumentUndo::maybeDone(doc, "selector:move:vertical", SP_VERB_CONTEXT_SELECT, _("Move vertically")); } else if (dy == 0) { DocumentUndo::maybeDone(doc, "selector:move:horizontal", SP_VERB_CONTEXT_SELECT, _("Move horizontally")); } else { DocumentUndo::done(doc, SP_VERB_CONTEXT_SELECT, _("Move")); } } void sp_selection_move_screen(Inkscape::Selection *selection, gdouble dx, gdouble dy) { if (selection->isEmpty() || !selection->desktop()) { return; } // same as sp_selection_move but divide deltas by zoom factor gdouble const zoom = selection->desktop()->current_zoom(); gdouble const zdx = dx / zoom; gdouble const zdy = dy / zoom; sp_selection_move_relative(selection, zdx, zdy); SPDocument *doc = selection->layers()->getDocument(); if (dx == 0) { DocumentUndo::maybeDone(doc, "selector:move:vertical", SP_VERB_CONTEXT_SELECT, _("Move vertically by pixels")); } else if (dy == 0) { DocumentUndo::maybeDone(doc, "selector:move:horizontal", SP_VERB_CONTEXT_SELECT, _("Move horizontally by pixels")); } else { DocumentUndo::done(doc, SP_VERB_CONTEXT_SELECT, _("Move")); } } namespace { template SPItem *next_item(SPDesktop *desktop, GSList *path, SPObject *root, bool only_in_viewport, PrefsSelectionContext inlayer, bool onlyvisible, bool onlysensitive); template SPItem *next_item_from_list(SPDesktop *desktop, GSList const *items, SPObject *root, bool only_in_viewport, PrefsSelectionContext inlayer, bool onlyvisible, bool onlysensitive); struct Forward { typedef SPObject *Iterator; static Iterator children(SPObject *o) { return o->firstChild(); } static Iterator siblings_after(SPObject *o) { return o->getNext(); } static void dispose(Iterator /*i*/) {} static SPObject *object(Iterator i) { return i; } static Iterator next(Iterator i) { return i->getNext(); } }; struct ListReverse { typedef GSList *Iterator; static Iterator children(SPObject *o) { return make_list(o->firstChild(), NULL); } static Iterator siblings_after(SPObject *o) { return make_list(o->parent->firstChild(), o); } static void dispose(Iterator i) { g_slist_free(i); } static SPObject *object(Iterator i) { return reinterpret_cast(i->data); } static Iterator next(Iterator i) { return i->next; } private: static GSList *make_list(SPObject *object, SPObject *limit) { GSList *list = NULL; while ( object != limit ) { if (!object) { // TODO check if this happens in practice g_warning("Unexpected list overrun"); break; } list = g_slist_prepend(list, object); object = object->getNext(); } return list; } }; } void sp_selection_item_next(SPDesktop *desktop) { g_return_if_fail(desktop != NULL); Inkscape::Selection *selection = sp_desktop_selection(desktop); Inkscape::Preferences *prefs = Inkscape::Preferences::get(); PrefsSelectionContext inlayer = (PrefsSelectionContext)prefs->getInt("/options/kbselection/inlayer", PREFS_SELECTION_LAYER); bool onlyvisible = prefs->getBool("/options/kbselection/onlyvisible", true); bool onlysensitive = prefs->getBool("/options/kbselection/onlysensitive", true); SPObject *root; if (PREFS_SELECTION_ALL != inlayer) { root = selection->activeContext(); } else { root = desktop->currentRoot(); } SPItem *item=next_item_from_list(desktop, selection->itemList(), root, SP_CYCLING == SP_CYCLE_VISIBLE, inlayer, onlyvisible, onlysensitive); if (item) { selection->set(item, PREFS_SELECTION_LAYER_RECURSIVE == inlayer); if ( SP_CYCLING == SP_CYCLE_FOCUS ) { scroll_to_show_item(desktop, item); } } } void sp_selection_item_prev(SPDesktop *desktop) { SPDocument *document = sp_desktop_document(desktop); g_return_if_fail(document != NULL); g_return_if_fail(desktop != NULL); Inkscape::Selection *selection = sp_desktop_selection(desktop); Inkscape::Preferences *prefs = Inkscape::Preferences::get(); PrefsSelectionContext inlayer = (PrefsSelectionContext) prefs->getInt("/options/kbselection/inlayer", PREFS_SELECTION_LAYER); bool onlyvisible = prefs->getBool("/options/kbselection/onlyvisible", true); bool onlysensitive = prefs->getBool("/options/kbselection/onlysensitive", true); SPObject *root; if (PREFS_SELECTION_ALL != inlayer) { root = selection->activeContext(); } else { root = desktop->currentRoot(); } SPItem *item=next_item_from_list(desktop, selection->itemList(), root, SP_CYCLING == SP_CYCLE_VISIBLE, inlayer, onlyvisible, onlysensitive); if (item) { selection->set(item, PREFS_SELECTION_LAYER_RECURSIVE == inlayer); if ( SP_CYCLING == SP_CYCLE_FOCUS ) { scroll_to_show_item(desktop, item); } } } void sp_selection_next_patheffect_param(SPDesktop * dt) { if (!dt) return; Inkscape::Selection *selection = sp_desktop_selection(dt); if ( selection && !selection->isEmpty() ) { SPItem *item = selection->singleItem(); if ( SPLPEItem *lpeitem = dynamic_cast(item) ) { if (lpeitem->hasPathEffect()) { lpeitem->editNextParamOncanvas(dt); } else { dt->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("The selection has no applied path effect.")); } } } } /*bool has_path_recursive(SPObject *obj) { if (!obj) return false; if (SP_IS_PATH(obj)) { return true; } if (SP_IS_GROUP(obj) || SP_IS_OBJECTGROUP(obj)) { for (SPObject *c = obj->children; c; c = c->next) { if (has_path_recursive(c)) return true; } } return false; }*/ void sp_selection_edit_clip_or_mask(SPDesktop * /*dt*/, bool /*clip*/) { return; /*if (!dt) return; using namespace Inkscape::UI; Inkscape::Selection *selection = sp_desktop_selection(dt); if (!selection || selection->isEmpty()) return; GSList const *items = selection->itemList(); bool has_path = false; for (GSList *i = const_cast(items); i; i= i->next) { SPItem *item = SP_ITEM(i->data); SPObject *search = clip ? (item->clip_ref ? item->clip_ref->getObject() : NULL) : item->mask_ref ? item->mask_ref->getObject() : NULL; has_path |= has_path_recursive(search); if (has_path) break; } if (has_path) { if (!tools_isactive(dt, TOOLS_NODES)) { tools_switch(dt, TOOLS_NODES); } ink_node_tool_set_mode(INK_NODE_TOOL(dt->event_context), clip ? NODE_TOOL_EDIT_CLIPPING_PATHS : NODE_TOOL_EDIT_MASKS); } else if (clip) { dt->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("The selection has no applied clip path.")); } else { dt->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("The selection has no applied mask.")); }*/ } namespace { template SPItem *next_item_from_list(SPDesktop *desktop, GSList const *items, SPObject *root, bool only_in_viewport, PrefsSelectionContext inlayer, bool onlyvisible, bool onlysensitive) { SPObject *current=root; while (items) { SPItem *item=SP_ITEM(items->data); if ( root->isAncestorOf(item) && ( !only_in_viewport || desktop->isWithinViewport(item) ) ) { current = item; break; } items = items->next; } GSList *path=NULL; while ( current != root ) { path = g_slist_prepend(path, current); current = current->parent; } SPItem *next; // first, try from the current object next = next_item(desktop, path, root, only_in_viewport, inlayer, onlyvisible, onlysensitive); g_slist_free(path); if (!next) { // if we ran out of objects, start over at the root next = next_item(desktop, NULL, root, only_in_viewport, inlayer, onlyvisible, onlysensitive); } return next; } template SPItem *next_item(SPDesktop *desktop, GSList *path, SPObject *root, bool only_in_viewport, PrefsSelectionContext inlayer, bool onlyvisible, bool onlysensitive) { typename D::Iterator children; typename D::Iterator iter; SPItem *found=NULL; if (path) { SPObject *object=reinterpret_cast(path->data); g_assert(object->parent == root); if (desktop->isLayer(object)) { found = next_item(desktop, path->next, object, only_in_viewport, inlayer, onlyvisible, onlysensitive); } iter = children = D::siblings_after(object); } else { iter = children = D::children(root); } while ( iter && !found ) { SPObject *object=D::object(iter); if (desktop->isLayer(object)) { if (PREFS_SELECTION_LAYER != inlayer) { // recurse into sublayers found = next_item(desktop, NULL, object, only_in_viewport, inlayer, onlyvisible, onlysensitive); } } else if ( SP_IS_ITEM(object) && ( !only_in_viewport || desktop->isWithinViewport(SP_ITEM(object)) ) && ( !onlyvisible || !desktop->itemIsHidden(SP_ITEM(object))) && ( !onlysensitive || !SP_ITEM(object)->isLocked()) && !desktop->isLayer(SP_ITEM(object)) ) { found = SP_ITEM(object); } iter = D::next(iter); } D::dispose(children); return found; } } /** * If \a item is not entirely visible then adjust visible area to centre on the centre on of * \a item. */ void scroll_to_show_item(SPDesktop *desktop, SPItem *item) { Geom::Rect dbox = desktop->get_display_area(); Geom::OptRect sbox = item->desktopVisualBounds(); if ( sbox && dbox.contains(*sbox) == false ) { Geom::Point const s_dt = sbox->midpoint(); Geom::Point const s_w = desktop->d2w(s_dt); Geom::Point const d_dt = dbox.midpoint(); Geom::Point const d_w = desktop->d2w(d_dt); Geom::Point const moved_w( d_w - s_w ); gint const dx = (gint) moved_w[X]; gint const dy = (gint) moved_w[Y]; desktop->scroll_world(dx, dy); } } void sp_selection_clone(SPDesktop *desktop) { if (desktop == NULL) { return; } Inkscape::Selection *selection = sp_desktop_selection(desktop); Inkscape::XML::Document *xml_doc = desktop->doc()->getReprDoc(); // check if something is selected if (selection->isEmpty()) { desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Select an object to clone.")); return; } GSList *reprs = g_slist_copy(const_cast(selection->reprList())); selection->clear(); // sorting items from different parents sorts each parent's subset without possibly mixing them, just what we need reprs = g_slist_sort(reprs, (GCompareFunc) sp_repr_compare_position); GSList *newsel = NULL; while (reprs) { Inkscape::XML::Node *sel_repr = static_cast(reprs->data); Inkscape::XML::Node *parent = sel_repr->parent(); Inkscape::XML::Node *clone = xml_doc->createElement("svg:use"); clone->setAttribute("x", "0", false); clone->setAttribute("y", "0", false); gchar *href_str = g_strdup_printf("#%s", sel_repr->attribute("id")); clone->setAttribute("xlink:href", href_str, false); g_free(href_str); clone->setAttribute("inkscape:transform-center-x", sel_repr->attribute("inkscape:transform-center-x"), false); clone->setAttribute("inkscape:transform-center-y", sel_repr->attribute("inkscape:transform-center-y"), false); // add the new clone to the top of the original's parent parent->appendChild(clone); newsel = g_slist_prepend(newsel, clone); reprs = g_slist_remove(reprs, sel_repr); Inkscape::GC::release(clone); } DocumentUndo::done(sp_desktop_document(desktop), SP_VERB_EDIT_CLONE, C_("Action", "Clone")); selection->setReprList(newsel); g_slist_free(newsel); } void sp_selection_relink(SPDesktop *desktop) { if (!desktop) return; Inkscape::Selection *selection = sp_desktop_selection(desktop); if (selection->isEmpty()) { desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Select clones to relink.")); return; } Inkscape::UI::ClipboardManager *cm = Inkscape::UI::ClipboardManager::get(); const gchar *newid = cm->getFirstObjectID(); if (!newid) { desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Copy an object to clipboard to relink clones to.")); return; } gchar *newref = g_strdup_printf("#%s", newid); // Get a copy of current selection. bool relinked = false; for (GSList *items = const_cast(selection->itemList()); items != NULL; items = items->next) { SPItem *item = static_cast(items->data); if (!SP_IS_USE(item)) continue; item->getRepr()->setAttribute("xlink:href", newref); item->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG); relinked = true; } g_free(newref); if (!relinked) { desktop->messageStack()->flash(Inkscape::ERROR_MESSAGE, _("No clones to relink in the selection.")); } else { DocumentUndo::done(sp_desktop_document(desktop), SP_VERB_EDIT_UNLINK_CLONE, _("Relink clone")); } } void sp_selection_unlink(SPDesktop *desktop) { if (!desktop) return; Inkscape::Selection *selection = sp_desktop_selection(desktop); if (selection->isEmpty()) { desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Select clones to unlink.")); return; } // Get a copy of current selection. GSList *new_select = NULL; bool unlinked = false; for (GSList *items = g_slist_copy(const_cast(selection->itemList())); items != NULL; items = items->next) { SPItem *item = static_cast(items->data); if (SP_IS_TEXT(item)) { SPObject *tspan = sp_tref_convert_to_tspan(item); if (tspan) { item->requestDisplayUpdate(SP_OBJECT_MODIFIED_FLAG); } // Set unlink to true, and fall into the next if which // will include this text item in the new selection unlinked = true; } if (!(SP_IS_USE(item) || SP_IS_TREF(item))) { // keep the non-use item in the new selection new_select = g_slist_prepend(new_select, item); continue; } SPItem *unlink; if (SP_IS_USE(item)) { unlink = SP_USE(item)->unlink(); // Unable to unlink use (external or invalid href?) if (!unlink) { new_select = g_slist_prepend(new_select, item); continue; } } else /*if (SP_IS_TREF(use))*/ { unlink = SP_ITEM(sp_tref_convert_to_tspan(item)); } unlinked = true; // Add ungrouped items to the new selection. new_select = g_slist_prepend(new_select, unlink); } if (new_select) { // set new selection selection->clear(); selection->setList(new_select); g_slist_free(new_select); } if (!unlinked) { desktop->messageStack()->flash(Inkscape::ERROR_MESSAGE, _("No clones to unlink in the selection.")); } DocumentUndo::done(sp_desktop_document(desktop), SP_VERB_EDIT_UNLINK_CLONE, _("Unlink clone")); } void sp_select_clone_original(SPDesktop *desktop) { if (desktop == NULL) return; Inkscape::Selection *selection = sp_desktop_selection(desktop); SPItem *item = selection->singleItem(); gchar const *error = _("Select a clone to go to its original. Select a linked offset to go to its source. Select a text on path to go to the path. Select a flowed text to go to its frame."); // Check if other than two objects are selected if (g_slist_length(const_cast(selection->itemList())) != 1 || !item) { desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, error); return; } SPItem *original = NULL; if (SP_IS_USE(item)) { original = SP_USE(item)->get_original(); } else if (SP_IS_OFFSET(item) && SP_OFFSET(item)->sourceHref) { original = sp_offset_get_source(SP_OFFSET(item)); } else if (SP_IS_TEXT_TEXTPATH(item)) { original = sp_textpath_get_path_item(SP_TEXTPATH(item->firstChild())); } else if (SP_IS_FLOWTEXT(item)) { original = SP_FLOWTEXT(item)->get_frame(NULL); // first frame only } else if (SP_IS_LPE_ITEM(item)) { // check if the applied LPE is Clone original, if so, go to the refered path Inkscape::LivePathEffect::Effect* lpe = SP_LPE_ITEM(item)->getPathEffectOfType(Inkscape::LivePathEffect::CLONE_ORIGINAL); if (lpe) { Inkscape::LivePathEffect::Parameter *lpeparam = lpe->getParameter("linkedpath"); if (Inkscape::LivePathEffect::OriginalPathParam *pathparam = dynamic_cast(lpeparam)) { original = pathparam->getObject(); } } } if (original == NULL) { // it's an object that we don't know what to do with desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, error); return; } if (!original) { desktop->messageStack()->flash(Inkscape::ERROR_MESSAGE, _("Cannot find the object to select (orphaned clone, offset, textpath, flowed text?)")); return; } for (SPObject *o = original; o && !SP_IS_ROOT(o); o = o->parent) { if (SP_IS_DEFS(o)) { desktop->messageStack()->flash(Inkscape::ERROR_MESSAGE, _("The object you're trying to select is not visible (it is in <defs>)")); return; } } if (original) { Inkscape::Preferences *prefs = Inkscape::Preferences::get(); bool highlight = prefs->getBool("/options/highlightoriginal/value"); if (highlight) { Geom::OptRect a = item->desktopVisualBounds(); Geom::OptRect b = original->desktopVisualBounds(); if ( a && b ) { // draw a flashing line between the objects SPCurve *curve = new SPCurve(); curve->moveto(a->midpoint()); curve->lineto(b->midpoint()); SPCanvasItem * canvasitem = sp_canvas_bpath_new(sp_desktop_tempgroup(desktop), curve); sp_canvas_bpath_set_stroke(SP_CANVAS_BPATH(canvasitem), 0x0000ddff, 1.0, SP_STROKE_LINEJOIN_MITER, SP_STROKE_LINECAP_BUTT, 5, 3); sp_canvas_item_show(canvasitem); curve->unref(); desktop->add_temporary_canvasitem(canvasitem, 1000); } } selection->clear(); selection->set(original); if (SP_CYCLING == SP_CYCLE_FOCUS) { scroll_to_show_item(desktop, original); } } } /** * This creates a new path, applies the Original Path LPE, and has it refer to the selection. */ void sp_selection_clone_original_path_lpe(SPDesktop *desktop) { if (desktop == NULL) { return; } Inkscape::Selection *selection = sp_desktop_selection(desktop); SPItem *item = selection->singleItem(); if (g_slist_length(const_cast(selection->itemList())) != 1 || !item) { desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Select one path to clone.")); return; } if ( !(SP_IS_SHAPE(item) || SP_IS_TEXT(item)) ) { desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Select one path to clone.")); return; } Inkscape::XML::Document *xml_doc = desktop->doc()->getReprDoc(); Inkscape::XML::Node *parent = item->getRepr()->parent(); // create the LPE Inkscape::XML::Node *lpe_repr = xml_doc->createElement("inkscape:path-effect"); { lpe_repr->setAttribute("effect", "clone_original"); gchar *href = g_strdup_printf("#%s", item->getRepr()->attribute("id")); lpe_repr->setAttribute("linkedpath", href); g_free(href); desktop->doc()->getDefs()->getRepr()->addChild(lpe_repr, NULL); // adds to and assigns the 'id' attribute } const gchar * lpe_id = lpe_repr->attribute("id"); Inkscape::GC::release(lpe_repr); // create the new path Inkscape::XML::Node *clone = xml_doc->createElement("svg:path"); { clone->setAttribute("d", "M 0 0", false); // add the new clone to the top of the original's parent parent->appendChild(clone); SPObject *clone_obj = desktop->doc()->getObjectById(clone->attribute("id")); if (SP_IS_LPE_ITEM(clone_obj)) { gchar *href = g_strdup_printf("#%s", lpe_id); SP_LPE_ITEM(clone_obj)->addPathEffect( href, false ); g_free(href); } } DocumentUndo::done(sp_desktop_document(desktop), SP_VERB_EDIT_CLONE_ORIGINAL_PATH_LPE, _("Clone original path")); // select the new object: selection->set(clone); Inkscape::GC::release(clone); } void sp_selection_to_marker(SPDesktop *desktop, bool apply) { // sp_selection_tile has similar code if (desktop == NULL) { return; } SPDocument *doc = sp_desktop_document(desktop); Inkscape::XML::Document *xml_doc = doc->getReprDoc(); Inkscape::Selection *selection = sp_desktop_selection(desktop); // check if something is selected if (selection->isEmpty()) { desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Select object(s) to convert to marker.")); return; } doc->ensureUpToDate(); Geom::OptRect r = selection->visualBounds(); boost::optional c = selection->center(); if ( !r || !c ) { return; } // FIXME: Inverted Y coodinate Geom::Point doc_height( 0, doc->getHeight().value("px")); // calculate the transform to be applied to objects to move them to 0,0 Geom::Point corner( r->min()[Geom::X], r->max()[Geom::Y] ); // FIXME: Inverted Y coodinate Geom::Point move_p = doc_height - corner; move_p[Geom::Y] = -move_p[Geom::Y]; Geom::Affine move = Geom::Affine(Geom::Translate(move_p)); Geom::Point center( *c - corner ); // As defined by rotation center center[Geom::Y] = -center[Geom::Y]; GSList *items = g_slist_copy(const_cast(selection->itemList())); //items = g_slist_sort(items, (GCompareFunc) sp_object_compare_position); // Why needed? // bottommost object, after sorting SPObject *parent = SP_OBJECT(items->data)->parent; Geom::Affine parent_transform(SP_ITEM(parent)->i2doc_affine()); // Create a list of duplicates, to be pasted inside marker element. GSList *repr_copies = NULL; for (GSList *i = items; i != NULL; i = i->next) { Inkscape::XML::Node *dup = SP_OBJECT(i->data)->getRepr()->duplicate(xml_doc); repr_copies = g_slist_prepend(repr_copies, dup); } Geom::Rect bbox(desktop->dt2doc(r->min()), desktop->dt2doc(r->max())); if (apply) { // Delete objects so that their clones don't get alerted; // the objects will be restored inside the marker element. for (GSList *i = items; i != NULL; i = i->next) { SPObject *item = reinterpret_cast(i->data); item->deleteObject(false); } } // Hack: Temporarily set clone compensation to unmoved, so that we can move clone-originals // without disturbing clones. // See ActorAlign::on_button_click() in src/ui/dialog/align-and-distribute.cpp Inkscape::Preferences *prefs = Inkscape::Preferences::get(); int saved_compensation = prefs->getInt("/options/clonecompensation/value", SP_CLONE_COMPENSATION_UNMOVED); prefs->setInt("/options/clonecompensation/value", SP_CLONE_COMPENSATION_UNMOVED); gchar const *mark_id = generate_marker(repr_copies, bbox, doc, center, parent_transform * move); (void)mark_id; // restore compensation setting prefs->setInt("/options/clonecompensation/value", saved_compensation); g_slist_free(items); DocumentUndo::done(doc, SP_VERB_EDIT_SELECTION_2_MARKER, _("Objects to marker")); } static void sp_selection_to_guides_recursive(SPItem *item, bool wholegroups) { if (SP_IS_GROUP(item) && !SP_IS_BOX3D(item) && !wholegroups) { for (GSList *i = sp_item_group_item_list(SP_GROUP(item)); i != NULL; i = i->next) { sp_selection_to_guides_recursive(static_cast(i->data), wholegroups); } } else { item->convert_to_guides(); } } void sp_selection_to_guides(SPDesktop *desktop) { if (desktop == NULL) return; SPDocument *doc = sp_desktop_document(desktop); Inkscape::Selection *selection = sp_desktop_selection(desktop); // we need to copy the list because it gets reset when objects are deleted GSList *items = g_slist_copy(const_cast(selection->itemList())); if (!items) { desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Select object(s) to convert to guides.")); return; } Inkscape::Preferences *prefs = Inkscape::Preferences::get(); bool deleteitems = !prefs->getBool("/tools/cvg_keep_objects", 0); bool wholegroups = prefs->getBool("/tools/cvg_convert_whole_groups", 0); // If an object is earlier in the selection list than its clone, and it is deleted, then the clone will have changed // and its entry in the selection list is invalid (crash). // Therefore: first convert all, then delete all. for (GSList const *i = items; i != NULL; i = i->next) { sp_selection_to_guides_recursive(static_cast(i->data), wholegroups); } if (deleteitems) { selection->clear(); sp_selection_delete_impl(items); } g_slist_free(items); DocumentUndo::done(doc, SP_VERB_EDIT_SELECTION_2_GUIDES, _("Objects to guides")); } /* * Convert objects to . How that happens depends on what is selected: * * 1) A random selection of objects will be embedded into a single element. * * 2) Except, a single will have its content directly embedded into a ; the 'id' and * 'style' of the are transferred to the . * * 3) Except, a single with a transform that isn't a translation will keep the group when * embedded into a (with 'id' and 'style' transferred to ). This is because a * cannot have a transform. (If the transform is a pure translation, the translation * is moved to the referencing element that is created.) * * Possible improvements: * * Move objects inside symbol so bbox corner at 0,0 (see marker/pattern) * * For SVG2, set 'refX' 'refY' to object center (with compensating shift in * transformation). */ void sp_selection_symbol(SPDesktop *desktop, bool /*apply*/ ) { if (desktop == NULL) { return; } SPDocument *doc = sp_desktop_document(desktop); Inkscape::XML::Document *xml_doc = doc->getReprDoc(); Inkscape::Selection *selection = sp_desktop_selection(desktop); // Check if something is selected. if (selection->isEmpty()) { desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Select objects to convert to symbol.")); return; } doc->ensureUpToDate(); GSList *items = g_slist_copy(const_cast(selection->list())); // Keep track of parent, this is where will be inserted. Inkscape::XML::Node *the_first_repr = reinterpret_cast( items->data )->getRepr(); Inkscape::XML::Node *the_parent_repr = the_first_repr->parent(); // Find out if we have a single group bool single_group = false; SPObject *the_group = NULL; Geom::Affine transform; if( g_slist_length( items ) == 1 ) { SPObject *object = reinterpret_cast( items->data ); if( SP_IS_GROUP( object ) ) { single_group = true; the_group = object; if( !sp_svg_transform_read( object->getAttribute("transform"), &transform )) transform = Geom::identity(); if( transform.isTranslation() ) { // Create new list from group children. g_slist_free(items); items = object->childList(false); // Hack: Temporarily set clone compensation to unmoved, so that we can move clone-originals // without disturbing clones. // See ActorAlign::on_button_click() in src/ui/dialog/align-and-distribute.cpp Inkscape::Preferences *prefs = Inkscape::Preferences::get(); int saved_compensation = prefs->getInt("/options/clonecompensation/value", SP_CLONE_COMPENSATION_UNMOVED); prefs->setInt("/options/clonecompensation/value", SP_CLONE_COMPENSATION_UNMOVED); // Remove transform on group, updating clones. SP_ITEM(object)->doWriteTransform(object->getRepr(), Geom::identity()); // restore compensation setting prefs->setInt("/options/clonecompensation/value", saved_compensation); } } } // Create new Inkscape::XML::Node *defsrepr = doc->getDefs()->getRepr(); Inkscape::XML::Node *symbol_repr = xml_doc->createElement("svg:symbol"); defsrepr->appendChild(symbol_repr); // For a single group, copy relevant attributes. if( single_group ) { symbol_repr->setAttribute("style", the_group->getAttribute("style")); symbol_repr->setAttribute("class", the_group->getAttribute("class")); symbol_repr->setAttribute("id", the_group->getAttribute("id") ); // This should eventually be replaced by 'refX' and 'refY' once SVG WG approves it. // It is done here for round-tripping symbol_repr->setAttribute("inkscape:transform-center-x", the_group->getAttribute("inkscape:transform-center-x")); symbol_repr->setAttribute("inkscape:transform-center-y", the_group->getAttribute("inkscape:transform-center-y")); the_group->setAttribute("style", NULL); std::string id = symbol_repr->attribute("id"); id += "_transform"; the_group->setAttribute("id", id.c_str()); } // Move selected items to new for (GSList *i = items; i != NULL; i = i->next) { Inkscape::XML::Node *repr = SP_OBJECT(i->data)->getRepr(); repr->parent()->removeChild(repr); symbol_repr->addChild(repr,NULL); } if( single_group && transform.isTranslation() ) { the_group->deleteObject(true); } // Create pointing to new symbol (to replace the moved objects). Inkscape::XML::Node *clone = xml_doc->createElement("svg:use"); const gchar *symbol_id = symbol_repr->attribute("id"); gchar *href_str = g_strdup_printf("#%s", symbol_id); clone->setAttribute("xlink:href", href_str, false); g_free(href_str); the_parent_repr->appendChild(clone); if( single_group && transform.isTranslation() ) { if( !transform.isIdentity() ) clone->setAttribute("transform", sp_svg_transform_write( transform )); } // Change selection to new element. selection->set(clone); // Clean up Inkscape::GC::release(symbol_repr); g_slist_free(items); DocumentUndo::done(doc, SP_VERB_EDIT_SYMBOL, _("Group to symbol")); } /* * Convert to . All elements referencing symbol remain unchanged. */ void sp_selection_unsymbol(SPDesktop *desktop) { if (desktop == NULL) { return; } SPDocument *doc = sp_desktop_document(desktop); Inkscape::XML::Document *xml_doc = doc->getReprDoc(); Inkscape::Selection *selection = sp_desktop_selection(desktop); // Check if something is selected. if (selection->isEmpty()) { desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Select a symbol to extract objects from.")); return; } SPObject* symbol = selection->single(); // Make sure we have only one object in selection. // Require that we really have a . if( symbol == NULL || !SP_IS_SYMBOL( symbol )) { desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Select only one symbol in Symbol dialog to convert to group.")); return; } doc->ensureUpToDate(); // Create new and insert in current layer Inkscape::XML::Node *group = xml_doc->createElement("svg:g"); desktop->currentLayer()->getRepr()->appendChild(group); // Move all children of symbol to group GSList* children = symbol->childList(false); // Converting a group to a symbol inserts a group for non-translational transform. // In converting a symbol back to a group we strip out the inserted group (or any other // group that only adds a transform to the symbol content). if( g_slist_length( children ) == 1 ) { SPObject *object = reinterpret_cast( children->data ); if( SP_IS_GROUP( object ) ) { if( object->getAttribute("style") == NULL || object->getAttribute("class") == NULL ) { group->setAttribute("transform", object->getAttribute("transform")); g_slist_free(children); children = object->childList(false); } } } for (GSList* i = children; i != NULL; i = i->next ) { Inkscape::XML::Node *repr = SP_OBJECT(i->data)->getRepr(); repr->parent()->removeChild(repr); group->addChild(repr,NULL); } // Copy relevant attributes group->setAttribute("style", symbol->getAttribute("style")); group->setAttribute("class", symbol->getAttribute("class")); group->setAttribute("inkscape:transform-center-x", symbol->getAttribute("inkscape:transform-center-x")); group->setAttribute("inkscape:transform-center-y", symbol->getAttribute("inkscape:transform-center-y")); // Need to delete ; all elements that referenced should // auto-magically reference (if deleted after setting 'id'). Glib::ustring id = symbol->getAttribute("id"); group->setAttribute("id",id.c_str()); symbol->deleteObject(true); // Change selection to new element. SPItem *group_item = static_cast(sp_desktop_document(desktop)->getObjectByRepr(group)); selection->set(group_item); // Clean up Inkscape::GC::release(group); g_slist_free(children); DocumentUndo::done(doc, SP_VERB_EDIT_UNSYMBOL, _("Group from symbol")); } void sp_selection_tile(SPDesktop *desktop, bool apply) { // sp_selection_to_marker has similar code if (desktop == NULL) { return; } SPDocument *doc = sp_desktop_document(desktop); Inkscape::XML::Document *xml_doc = doc->getReprDoc(); Inkscape::Selection *selection = sp_desktop_selection(desktop); // check if something is selected if (selection->isEmpty()) { desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Select object(s) to convert to pattern.")); return; } doc->ensureUpToDate(); Geom::OptRect r = selection->visualBounds(); if ( !r ) { return; } // calculate the transform to be applied to objects to move them to 0,0 Geom::Point move_p = Geom::Point(0, doc->getHeight().value("px")) - (r->min() + Geom::Point(0, r->dimensions()[Geom::Y])); move_p[Geom::Y] = -move_p[Geom::Y]; Geom::Affine move = Geom::Affine(Geom::Translate(move_p)); GSList *items = g_slist_copy(const_cast(selection->itemList())); items = g_slist_sort(items, (GCompareFunc) sp_object_compare_position); // bottommost object, after sorting SPObject *parent = SP_OBJECT(items->data)->parent; Geom::Affine parent_transform(SP_ITEM(parent)->i2doc_affine()); // remember the position of the first item gint pos = SP_OBJECT(items->data)->getRepr()->position(); // create a list of duplicates GSList *repr_copies = NULL; for (GSList *i = items; i != NULL; i = i->next) { Inkscape::XML::Node *dup = SP_OBJECT(i->data)->getRepr()->duplicate(xml_doc); repr_copies = g_slist_prepend(repr_copies, dup); } // restore the z-order after prepends repr_copies = g_slist_reverse(repr_copies); Geom::Rect bbox(desktop->dt2doc(r->min()), desktop->dt2doc(r->max())); if (apply) { // delete objects so that their clones don't get alerted; this object will be restored shortly for (GSList *i = items; i != NULL; i = i->next) { SPObject *item = reinterpret_cast(i->data); item->deleteObject(false); } } // Hack: Temporarily set clone compensation to unmoved, so that we can move clone-originals // without disturbing clones. // See ActorAlign::on_button_click() in src/ui/dialog/align-and-distribute.cpp Inkscape::Preferences *prefs = Inkscape::Preferences::get(); int saved_compensation = prefs->getInt("/options/clonecompensation/value", SP_CLONE_COMPENSATION_UNMOVED); prefs->setInt("/options/clonecompensation/value", SP_CLONE_COMPENSATION_UNMOVED); gchar const *pat_id = pattern_tile(repr_copies, bbox, doc, ( Geom::Affine(Geom::Translate(desktop->dt2doc(Geom::Point(r->min()[Geom::X], r->max()[Geom::Y])))) * parent_transform.inverse() ), parent_transform * move); // restore compensation setting prefs->setInt("/options/clonecompensation/value", saved_compensation); if (apply) { Inkscape::XML::Node *rect = xml_doc->createElement("svg:rect"); gchar *style_str = g_strdup_printf("stroke:none;fill:url(#%s)", pat_id); rect->setAttribute("style", style_str); g_free(style_str); Geom::Point min = bbox.min() * parent_transform.inverse(); Geom::Point max = bbox.max() * parent_transform.inverse(); sp_repr_set_svg_double(rect, "width", max[Geom::X] - min[Geom::X]); sp_repr_set_svg_double(rect, "height", max[Geom::Y] - min[Geom::Y]); sp_repr_set_svg_double(rect, "x", min[Geom::X]); sp_repr_set_svg_double(rect, "y", min[Geom::Y]); // restore parent and position parent->getRepr()->appendChild(rect); rect->setPosition(pos > 0 ? pos : 0); SPItem *rectangle = static_cast(sp_desktop_document(desktop)->getObjectByRepr(rect)); Inkscape::GC::release(rect); selection->clear(); selection->set(rectangle); } g_slist_free(items); DocumentUndo::done(doc, SP_VERB_EDIT_TILE, _("Objects to pattern")); } void sp_selection_untile(SPDesktop *desktop) { if (desktop == NULL) { return; } SPDocument *doc = sp_desktop_document(desktop); Inkscape::XML::Document *xml_doc = doc->getReprDoc(); Inkscape::Selection *selection = sp_desktop_selection(desktop); // check if something is selected if (selection->isEmpty()) { desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Select an object with pattern fill to extract objects from.")); return; } GSList *new_select = NULL; bool did = false; for (GSList *items = g_slist_copy(const_cast(selection->itemList())); items != NULL; items = items->next) { SPItem *item = static_cast(items->data); SPStyle *style = item->style; if (!style || !style->fill.isPaintserver()) continue; SPPaintServer *server = item->style->getFillPaintServer(); if (!SP_IS_PATTERN(server)) continue; did = true; SPPattern *pattern = pattern_getroot(SP_PATTERN(server)); Geom::Affine pat_transform = pattern_patternTransform(SP_PATTERN(server)); pat_transform *= item->transform; for (SPObject *child = pattern->firstChild() ; child != NULL; child = child->next ) { if (SP_IS_ITEM(child)) { Inkscape::XML::Node *copy = child->getRepr()->duplicate(xml_doc); SPItem *i = SP_ITEM(desktop->currentLayer()->appendChildRepr(copy)); // FIXME: relink clones to the new canvas objects // use SPObject::setid when mental finishes it to steal ids of // this is needed to make sure the new item has curve (simply requestDisplayUpdate does not work) doc->ensureUpToDate(); Geom::Affine transform( i->transform * pat_transform ); i->doWriteTransform(i->getRepr(), transform); new_select = g_slist_prepend(new_select, i); } } SPCSSAttr *css = sp_repr_css_attr_new(); sp_repr_css_set_property(css, "fill", "none"); sp_repr_css_change(item->getRepr(), css, "style"); } if (!did) { desktop->messageStack()->flash(Inkscape::ERROR_MESSAGE, _("No pattern fills in the selection.")); } else { DocumentUndo::done(sp_desktop_document(desktop), SP_VERB_EDIT_UNTILE, _("Pattern to objects")); selection->setList(new_select); } } void sp_selection_get_export_hints(Inkscape::Selection *selection, Glib::ustring &filename, float *xdpi, float *ydpi) { if (selection->isEmpty()) { return; } GSList const *reprlst = selection->reprList(); bool filename_search = TRUE; bool xdpi_search = TRUE; bool ydpi_search = TRUE; for (; reprlst != NULL && filename_search && xdpi_search && ydpi_search; reprlst = reprlst->next) { gchar const *dpi_string; Inkscape::XML::Node * repr = static_cast(reprlst->data); if (filename_search) { const gchar* tmp = repr->attribute("inkscape:export-filename"); if (tmp){ filename = tmp; filename_search = FALSE; } else{ filename.clear(); } } if (xdpi_search) { dpi_string = repr->attribute("inkscape:export-xdpi"); if (dpi_string != NULL) { *xdpi = atof(dpi_string); xdpi_search = FALSE; } } if (ydpi_search) { dpi_string = repr->attribute("inkscape:export-ydpi"); if (dpi_string != NULL) { *ydpi = atof(dpi_string); ydpi_search = FALSE; } } } } void sp_document_get_export_hints(SPDocument *doc, Glib::ustring &filename, float *xdpi, float *ydpi) { Inkscape::XML::Node * repr = doc->getReprRoot(); const gchar* tmp = repr->attribute("inkscape:export-filename"); if(tmp) { filename = tmp; } else { filename.clear(); } gchar const *dpi_string = repr->attribute("inkscape:export-xdpi"); if (dpi_string != NULL) { *xdpi = atof(dpi_string); } dpi_string = NULL; dpi_string = repr->attribute("inkscape:export-ydpi"); if (dpi_string != NULL) { *ydpi = atof(dpi_string); } } void sp_selection_create_bitmap_copy(SPDesktop *desktop) { if (desktop == NULL) { return; } SPDocument *document = sp_desktop_document(desktop); Inkscape::XML::Document *xml_doc = document->getReprDoc(); Inkscape::Selection *selection = sp_desktop_selection(desktop); // check if something is selected if (selection->isEmpty()) { desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Select object(s) to make a bitmap copy.")); return; } desktop->messageStack()->flash(Inkscape::IMMEDIATE_MESSAGE, _("Rendering bitmap...")); // set "busy" cursor desktop->setWaitingCursor(); // Get the bounding box of the selection document->ensureUpToDate(); Geom::OptRect bbox = selection->visualBounds(); if (!bbox) { desktop->clearWaitingCursor(); return; // exceptional situation, so not bother with a translatable error message, just quit quietly } // List of the items to show; all others will be hidden GSList *items = g_slist_copy(const_cast(selection->itemList())); // Sort items so that the topmost comes last items = g_slist_sort(items, (GCompareFunc) sp_item_repr_compare_position); // Generate a random value from the current time (you may create bitmap from the same object(s) // multiple times, and this is done so that they don't clash) GTimeVal cu; g_get_current_time(&cu); guint current = (int) (cu.tv_sec * 1000000 + cu.tv_usec) % 1024; // Create the filename. gchar *const basename = g_strdup_printf("%s-%s-%u.png", document->getName(), SP_OBJECT(items->data)->getRepr()->attribute("id"), current); // Imagemagick is known not to handle spaces in filenames, so we replace anything but letters, // digits, and a few other chars, with "_" g_strcanon(basename, "ABCDEFGHIJKLMNOPQRSTUVWXYZabcdefghijklmnopqrstuvwxyz0123456789-_.=+~$#@^&!?", '_'); // Build the complete path by adding document base dir, if set, otherwise home dir gchar *directory = NULL; if ( document->getURI() ) { directory = g_path_get_dirname( document->getURI() ); } if (directory == NULL) { directory = homedir_path(NULL); } gchar *filepath = g_build_filename(directory, basename, NULL); g_free(directory); //g_print("%s\n", filepath); // Remember parent and z-order of the topmost one gint pos = SP_OBJECT(g_slist_last(items)->data)->getRepr()->position(); SPObject *parent_object = SP_OBJECT(g_slist_last(items)->data)->parent; Inkscape::XML::Node *parent = parent_object->getRepr(); // Calculate resolution Inkscape::Preferences *prefs = Inkscape::Preferences::get(); double res; int const prefs_res = prefs->getInt("/options/createbitmap/resolution", 0); int const prefs_min = prefs->getInt("/options/createbitmap/minsize", 0); if (0 < prefs_res) { // If it's given explicitly in prefs, take it res = prefs_res; } else if (0 < prefs_min) { // If minsize is given, look up minimum bitmap size (default 250 pixels) and calculate resolution from it res = Inkscape::Util::Quantity::convert(prefs_min, "in", "px") / MIN(bbox->width(), bbox->height()); } else { float hint_xdpi = 0, hint_ydpi = 0; Glib::ustring hint_filename; // take resolution hint from the selected objects sp_selection_get_export_hints(selection, hint_filename, &hint_xdpi, &hint_ydpi); if (hint_xdpi != 0) { res = hint_xdpi; } else { // take resolution hint from the document sp_document_get_export_hints(document, hint_filename, &hint_xdpi, &hint_ydpi); if (hint_xdpi != 0) { res = hint_xdpi; } else { // if all else fails, take the default 90 dpi res = Inkscape::Util::Quantity::convert(1, "in", "px"); } } } // The width and height of the bitmap in pixels unsigned width = (unsigned) floor(bbox->width() * Inkscape::Util::Quantity::convert(res, "px", "in")); unsigned height =(unsigned) floor(bbox->height() * Inkscape::Util::Quantity::convert(res, "px", "in")); // Find out if we have to run an external filter gchar const *run = NULL; Glib::ustring filter = prefs->getString("/options/createbitmap/filter"); if (!filter.empty()) { // filter command is given; // see if we have a parameter to pass to it Glib::ustring param1 = prefs->getString("/options/createbitmap/filter_param1"); if (!param1.empty()) { if (param1[param1.length() - 1] == '%') { // if the param string ends with %, interpret it as a percentage of the image's max dimension gchar p1[256]; g_ascii_dtostr(p1, 256, ceil(g_ascii_strtod(param1.data(), NULL) * MAX(width, height) / 100)); // the first param is always the image filename, the second is param1 run = g_strdup_printf("%s \"%s\" %s", filter.data(), filepath, p1); } else { // otherwise pass the param1 unchanged run = g_strdup_printf("%s \"%s\" %s", filter.data(), filepath, param1.data()); } } else { // run without extra parameter run = g_strdup_printf("%s \"%s\"", filter.data(), filepath); } } // Calculate the matrix that will be applied to the image so that it exactly overlaps the source objects Geom::Affine eek(SP_ITEM(parent_object)->i2dt_affine()); Geom::Affine t; double shift_x = bbox->min()[Geom::X]; double shift_y = bbox->max()[Geom::Y]; if (res == Inkscape::Util::Quantity::convert(1, "in", "px")) { // for default 90 dpi, snap it to pixel grid shift_x = round(shift_x); shift_y = -round(-shift_y); // this gets correct rounding despite coordinate inversion, remove the negations when the inversion is gone } t = Geom::Scale(1, -1) * Geom::Translate(shift_x, shift_y) * eek.inverse(); /// @fixme hardcoded doc2dt transform? // TODO: avoid roundtrip via file // Do the export sp_export_png_file(document, filepath, bbox->min()[Geom::X], bbox->min()[Geom::Y], bbox->max()[Geom::X], bbox->max()[Geom::Y], width, height, res, res, (guint32) 0xffffff00, NULL, NULL, true, /*bool force_overwrite,*/ items); g_slist_free(items); // Run filter, if any if (run) { g_print("Running external filter: %s\n", run); int result = system(run); if(result == -1) g_warning("Could not run external filter: %s\n", run); } // Import the image back Inkscape::Pixbuf *pb = Inkscape::Pixbuf::create_from_file(filepath); if (pb) { // Create the repr for the image // TODO: avoid unnecessary roundtrip between data URI and decoded pixbuf Inkscape::XML::Node * repr = xml_doc->createElement("svg:image"); sp_embed_image(repr, pb); if (res == Inkscape::Util::Quantity::convert(1, "in", "px")) { // for default 90 dpi, snap it to pixel grid sp_repr_set_svg_double(repr, "width", width); sp_repr_set_svg_double(repr, "height", height); } else { sp_repr_set_svg_double(repr, "width", bbox->width()); sp_repr_set_svg_double(repr, "height", bbox->height()); } // Write transform gchar *c=sp_svg_transform_write(t); repr->setAttribute("transform", c); g_free(c); // add the new repr to the parent parent->appendChild(repr); // move to the saved position repr->setPosition(pos > 0 ? pos + 1 : 1); // Set selection to the new image selection->clear(); selection->add(repr); // Clean up Inkscape::GC::release(repr); g_object_unref(pb); // Complete undoable transaction DocumentUndo::done(document, SP_VERB_SELECTION_CREATE_BITMAP, _("Create bitmap")); } desktop->clearWaitingCursor(); g_free(basename); g_free(filepath); } /** * Creates a mask or clipPath from selection. * Two different modes: * if applyToLayer, all selection is moved to DEFS as mask/clippath * and is applied to current layer * otherwise, topmost object is used as mask for other objects * If \a apply_clip_path parameter is true, clipPath is created, otherwise mask * */ void sp_selection_set_mask(SPDesktop *desktop, bool apply_clip_path, bool apply_to_layer) { if (desktop == NULL) { return; } SPDocument *doc = sp_desktop_document(desktop); Inkscape::XML::Document *xml_doc = doc->getReprDoc(); Inkscape::Selection *selection = sp_desktop_selection(desktop); // check if something is selected bool is_empty = selection->isEmpty(); if ( apply_to_layer && is_empty) { desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Select object(s) to create clippath or mask from.")); return; } else if (!apply_to_layer && ( is_empty || NULL == selection->itemList()->next )) { desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Select mask object and object(s) to apply clippath or mask to.")); return; } // FIXME: temporary patch to prevent crash! // Remove this when bboxes are fixed to not blow up on an item clipped/masked with its own clone bool clone_with_original = selection_contains_both_clone_and_original(selection); if (clone_with_original) { return; // in this version, you cannot clip/mask an object with its own clone } // /END FIXME doc->ensureUpToDate(); GSList *items = g_slist_copy(const_cast(selection->itemList())); items = g_slist_sort(items, (GCompareFunc) sp_object_compare_position); // See lp bug #542004 selection->clear(); // create a list of duplicates GSList *mask_items = NULL; GSList *apply_to_items = NULL; GSList *items_to_delete = NULL; GSList *items_to_select = NULL; Inkscape::Preferences *prefs = Inkscape::Preferences::get(); bool topmost = prefs->getBool("/options/maskobject/topmost", true); bool remove_original = prefs->getBool("/options/maskobject/remove", true); int grouping = prefs->getInt("/options/maskobject/grouping", PREFS_MASKOBJECT_GROUPING_NONE); if (apply_to_layer) { // all selected items are used for mask, which is applied to a layer apply_to_items = g_slist_prepend(apply_to_items, desktop->currentLayer()); for (GSList *i = items; i != NULL; i = i->next) { Inkscape::XML::Node *dup = SP_OBJECT(i->data)->getRepr()->duplicate(xml_doc); mask_items = g_slist_prepend(mask_items, dup); SPObject *item = reinterpret_cast(i->data); if (remove_original) { items_to_delete = g_slist_prepend(items_to_delete, item); } else { items_to_select = g_slist_prepend(items_to_select, item); } } } else if (!topmost) { // topmost item is used as a mask, which is applied to other items in a selection GSList *i = items; Inkscape::XML::Node *dup = SP_OBJECT(i->data)->getRepr()->duplicate(xml_doc); mask_items = g_slist_prepend(mask_items, dup); if (remove_original) { SPObject *item = reinterpret_cast(i->data); items_to_delete = g_slist_prepend(items_to_delete, item); } for (i = i->next; i != NULL; i = i->next) { apply_to_items = g_slist_prepend(apply_to_items, i->data); items_to_select = g_slist_prepend(items_to_select, i->data); } } else { GSList *i = NULL; for (i = items; NULL != i->next; i = i->next) { apply_to_items = g_slist_prepend(apply_to_items, i->data); items_to_select = g_slist_prepend(items_to_select, i->data); } Inkscape::XML::Node *dup = SP_OBJECT(i->data)->getRepr()->duplicate(xml_doc); mask_items = g_slist_prepend(mask_items, dup); if (remove_original) { SPObject *item = reinterpret_cast(i->data); items_to_delete = g_slist_prepend(items_to_delete, item); } } g_slist_free(items); items = NULL; if (apply_to_items && grouping == PREFS_MASKOBJECT_GROUPING_ALL) { // group all those objects into one group // and apply mask to that Inkscape::XML::Node *group = xml_doc->createElement("svg:g"); // make a note we should ungroup this when unsetting mask group->setAttribute("inkscape:groupmode", "maskhelper"); GSList *reprs_to_group = NULL; for (GSList *i = apply_to_items ; NULL != i ; i = i->next) { reprs_to_group = g_slist_prepend(reprs_to_group, SP_OBJECT(i->data)->getRepr()); items_to_select = g_slist_remove(items_to_select, i->data); } reprs_to_group = g_slist_reverse(reprs_to_group); sp_selection_group_impl(reprs_to_group, group, xml_doc, doc); reprs_to_group = NULL; // apply clip/mask only to newly created group g_slist_free(apply_to_items); apply_to_items = NULL; apply_to_items = g_slist_prepend(apply_to_items, doc->getObjectByRepr(group)); items_to_select = g_slist_prepend(items_to_select, doc->getObjectByRepr(group)); Inkscape::GC::release(group); } gchar const *attributeName = apply_clip_path ? "clip-path" : "mask"; for (GSList *i = apply_to_items; NULL != i; i = i->next) { SPItem *item = reinterpret_cast(i->data); // inverted object transform should be applied to a mask object, // as mask is calculated in user space (after applying transform) Geom::Affine maskTransform(item->transform.inverse()); GSList *mask_items_dup = NULL; for (GSList *mask_item = mask_items; NULL != mask_item; mask_item = mask_item->next) { Inkscape::XML::Node *dup = reinterpret_cast(mask_item->data)->duplicate(xml_doc); mask_items_dup = g_slist_prepend(mask_items_dup, dup); } gchar const *mask_id = NULL; if (apply_clip_path) { mask_id = SPClipPath::create(mask_items_dup, doc, &maskTransform); } else { mask_id = sp_mask_create(mask_items_dup, doc, &maskTransform); } g_slist_free(mask_items_dup); mask_items_dup = NULL; Inkscape::XML::Node *current = SP_OBJECT(i->data)->getRepr(); // Node to apply mask to Inkscape::XML::Node *apply_mask_to = current; if (grouping == PREFS_MASKOBJECT_GROUPING_SEPARATE) { // enclose current node in group, and apply crop/mask on that Inkscape::XML::Node *group = xml_doc->createElement("svg:g"); // make a note we should ungroup this when unsetting mask group->setAttribute("inkscape:groupmode", "maskhelper"); Inkscape::XML::Node *spnew = current->duplicate(xml_doc); gint position = current->position(); items_to_select = g_slist_remove(items_to_select, item); current->parent()->appendChild(group); sp_repr_unparent(current); group->appendChild(spnew); group->setPosition(position); // Apply clip/mask to group instead apply_mask_to = group; items_to_select = g_slist_prepend(items_to_select, doc->getObjectByRepr(group)); Inkscape::GC::release(spnew); Inkscape::GC::release(group); } gchar *value_str = g_strdup_printf("url(#%s)", mask_id); apply_mask_to->setAttribute(attributeName, value_str); g_free(value_str); } g_slist_free(mask_items); g_slist_free(apply_to_items); for (GSList *i = items_to_delete; NULL != i; i = i->next) { SPObject *item = reinterpret_cast(i->data); item->deleteObject(false); items_to_select = g_slist_remove(items_to_select, item); } g_slist_free(items_to_delete); items_to_select = g_slist_reverse(items_to_select); selection->addList(items_to_select); g_slist_free(items_to_select); if (apply_clip_path) { DocumentUndo::done(doc, SP_VERB_OBJECT_SET_CLIPPATH, _("Set clipping path")); } else { DocumentUndo::done(doc, SP_VERB_OBJECT_SET_MASK, _("Set mask")); } } void sp_selection_unset_mask(SPDesktop *desktop, bool apply_clip_path) { if (desktop == NULL) { return; } SPDocument *doc = sp_desktop_document(desktop); Inkscape::XML::Document *xml_doc = doc->getReprDoc(); Inkscape::Selection *selection = sp_desktop_selection(desktop); // check if something is selected if (selection->isEmpty()) { desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Select object(s) to remove clippath or mask from.")); return; } Inkscape::Preferences *prefs = Inkscape::Preferences::get(); bool remove_original = prefs->getBool("/options/maskobject/remove", true); bool ungroup_masked = prefs->getBool("/options/maskobject/ungrouping", true); doc->ensureUpToDate(); gchar const *attributeName = apply_clip_path ? "clip-path" : "mask"; std::map referenced_objects; GSList *items = g_slist_copy(const_cast(selection->itemList())); selection->clear(); GSList *items_to_ungroup = NULL; GSList *items_to_select = g_slist_copy(items); items_to_select = g_slist_reverse(items_to_select); // SPObject* refers to a group containing the clipped path or mask itself, // whereas SPItem* refers to the item being clipped or masked for (GSList const *i = items; NULL != i; i = i->next) { if (remove_original) { // remember referenced mask/clippath, so orphaned masks can be moved back to document SPItem *item = reinterpret_cast(i->data); Inkscape::URIReference *uri_ref = NULL; if (apply_clip_path) { uri_ref = item->clip_ref; } else { uri_ref = item->mask_ref; } // collect distinct mask object (and associate with item to apply transform) if ((NULL != uri_ref) && (NULL != uri_ref->getObject())) { referenced_objects[uri_ref->getObject()] = item; } } SP_OBJECT(i->data)->getRepr()->setAttribute(attributeName, "none"); if (ungroup_masked && SP_IS_GROUP(i->data)) { // if we had previously enclosed masked object in group, // add it to list so we can ungroup it later SPGroup *item = SP_GROUP(i->data); // ungroup only groups we created when setting clip/mask if (item->layerMode() == SPGroup::MASK_HELPER) { items_to_ungroup = g_slist_prepend(items_to_ungroup, item); } } } g_slist_free(items); // restore mask objects into a document for ( std::map::iterator it = referenced_objects.begin() ; it != referenced_objects.end() ; ++it) { SPObject *obj = (*it).first; // Group containing the clipped paths or masks GSList *items_to_move = NULL; for ( SPObject *child = obj->firstChild() ; child; child = child->getNext() ) { // Collect all clipped paths and masks within a single group Inkscape::XML::Node *copy = SP_OBJECT(child)->getRepr()->duplicate(xml_doc); items_to_move = g_slist_prepend(items_to_move, copy); } if (!obj->isReferenced()) { // delete from defs if no other object references this mask obj->deleteObject(false); } // remember parent and position of the item to which the clippath/mask was applied Inkscape::XML::Node *parent = ((*it).second)->getRepr()->parent(); gint pos = ((*it).second)->getRepr()->position(); // Iterate through all clipped paths / masks for (GSList *i = items_to_move; NULL != i; i = i->next) { Inkscape::XML::Node *repr = static_cast(i->data); // insert into parent, restore pos parent->appendChild(repr); repr->setPosition((pos + 1) > 0 ? (pos + 1) : 0); SPItem *mask_item = static_cast(sp_desktop_document(desktop)->getObjectByRepr(repr)); items_to_select = g_slist_prepend(items_to_select, mask_item); // transform mask, so it is moved the same spot where mask was applied Geom::Affine transform(mask_item->transform); transform *= (*it).second->transform; mask_item->doWriteTransform(mask_item->getRepr(), transform); } g_slist_free(items_to_move); } // ungroup marked groups added when setting mask for (GSList *i = items_to_ungroup ; NULL != i ; i = i->next) { items_to_select = g_slist_remove(items_to_select, SP_GROUP(i->data)); GSList *children = NULL; sp_item_group_ungroup(SP_GROUP(i->data), &children, false); items_to_select = g_slist_concat(children, items_to_select); } g_slist_free(items_to_ungroup); // rebuild selection items_to_select = g_slist_reverse(items_to_select); selection->addList(items_to_select); g_slist_free(items_to_select); if (apply_clip_path) { DocumentUndo::done(doc, SP_VERB_OBJECT_UNSET_CLIPPATH, _("Release clipping path")); } else { DocumentUndo::done(doc, SP_VERB_OBJECT_UNSET_MASK, _("Release mask")); } } /** * \param with_margins margins defined in the xml under * "fit-margin-..." attributes. See SPDocument::fitToRect. * \return true if an undoable change should be recorded. */ bool fit_canvas_to_selection(SPDesktop *desktop, bool with_margins) { g_return_val_if_fail(desktop != NULL, false); SPDocument *doc = sp_desktop_document(desktop); g_return_val_if_fail(doc != NULL, false); g_return_val_if_fail(desktop->selection != NULL, false); if (desktop->selection->isEmpty()) { desktop->messageStack()->flash(Inkscape::WARNING_MESSAGE, _("Select object(s) to fit canvas to.")); return false; } Geom::OptRect const bbox(desktop->selection->visualBounds()); if (bbox) { doc->fitToRect(*bbox, with_margins); return true; } else { return false; } } /** * Fit canvas to the bounding box of the selection, as an undoable action. */ void verb_fit_canvas_to_selection(SPDesktop *const desktop) { if (fit_canvas_to_selection(desktop)) { DocumentUndo::done(sp_desktop_document(desktop), SP_VERB_FIT_CANVAS_TO_SELECTION, _("Fit Page to Selection")); } } /** * \param with_margins margins defined in the xml under * "fit-margin-..." attributes. See SPDocument::fitToRect. */ bool fit_canvas_to_drawing(SPDocument *doc, bool with_margins) { g_return_val_if_fail(doc != NULL, false); doc->ensureUpToDate(); SPItem const *const root = doc->getRoot(); Geom::OptRect bbox = root->desktopVisualBounds(); if (bbox) { doc->fitToRect(*bbox, with_margins); return true; } else { return false; } } void verb_fit_canvas_to_drawing(SPDesktop *desktop) { if (fit_canvas_to_drawing(sp_desktop_document(desktop))) { DocumentUndo::done(sp_desktop_document(desktop), SP_VERB_FIT_CANVAS_TO_DRAWING, _("Fit Page to Drawing")); } } /** * Fits canvas to selection or drawing with margins from * "fit-margin-..." attributes. See SPDocument::fitToRect and * ui/dialog/page-sizer. */ void fit_canvas_to_selection_or_drawing(SPDesktop *desktop) { g_return_if_fail(desktop != NULL); SPDocument *doc = sp_desktop_document(desktop); g_return_if_fail(doc != NULL); g_return_if_fail(desktop->selection != NULL); bool const changed = ( desktop->selection->isEmpty() ? fit_canvas_to_drawing(doc, true) : fit_canvas_to_selection(desktop, true) ); if (changed) { DocumentUndo::done(sp_desktop_document(desktop), SP_VERB_FIT_CANVAS_TO_SELECTION_OR_DRAWING, _("Fit Page to Selection or Drawing")); } }; static void itemtree_map(void (*f)(SPItem *, SPDesktop *), SPObject *root, SPDesktop *desktop) { // don't operate on layers if (SP_IS_ITEM(root) && !desktop->isLayer(SP_ITEM(root))) { f(SP_ITEM(root), desktop); } for ( SPObject::SiblingIterator iter = root->firstChild() ; iter ; ++iter ) { //don't recurse into locked layers if (!(SP_IS_ITEM(&*iter) && desktop->isLayer(SP_ITEM(&*iter)) && SP_ITEM(&*iter)->isLocked())) { itemtree_map(f, iter, desktop); } } } static void unlock(SPItem *item, SPDesktop */*desktop*/) { if (item->isLocked()) { item->setLocked(FALSE); } } static void unhide(SPItem *item, SPDesktop *desktop) { if (desktop->itemIsHidden(item)) { item->setExplicitlyHidden(FALSE); } } static void process_all(void (*f)(SPItem *, SPDesktop *), SPDesktop *dt, bool layer_only) { if (!dt) return; SPObject *root; if (layer_only) { root = dt->currentLayer(); } else { root = dt->currentRoot(); } itemtree_map(f, root, dt); } void unlock_all(SPDesktop *dt) { process_all(&unlock, dt, true); } void unlock_all_in_all_layers(SPDesktop *dt) { process_all(&unlock, dt, false); } void unhide_all(SPDesktop *dt) { process_all(&unhide, dt, true); } void unhide_all_in_all_layers(SPDesktop *dt) { process_all(&unhide, dt, 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 :