// SPDX-License-Identifier: GPL-2.0-or-later /** * @file * Miscellaneous helpers for reprs. */ /* * Authors: * Lauris Kaplinski * Jon A. Cruz * * Copyright (C) 1999-2000 Lauris Kaplinski * Copyright (C) 2000-2001 Ximian, Inc. * g++ port Copyright (C) 2003 Nathan Hurst * * Released under GNU GPL v2+, read the file 'COPYING' for more information. */ #include #include #include #include "svg/svg-length.h" #include "xml/repr.h" #include "xml/repr-sorting.h" struct SPXMLNs { SPXMLNs *next; unsigned int uri, prefix; }; /*##################### # DEFINITIONS #####################*/ #ifndef FALSE # define FALSE 0 #endif #ifndef TRUE # define TRUE (!FALSE) #endif #ifndef MAX # define MAX(a,b) (((a) < (b)) ? (b) : (a)) #endif /*##################### # FORWARD DECLARATIONS #####################*/ static void sp_xml_ns_register_defaults(); static char *sp_xml_ns_auto_prefix(char const *uri); /*##################### # MAIN #####################*/ /** * SPXMLNs */ static SPXMLNs *namespaces=nullptr; /* * There are the prefixes to use for the XML namespaces defined * in repr.h */ static void sp_xml_ns_register_defaults() { static SPXMLNs defaults[11]; defaults[0].uri = g_quark_from_static_string(SP_SODIPODI_NS_URI); defaults[0].prefix = g_quark_from_static_string("sodipodi"); defaults[0].next = &defaults[1]; defaults[1].uri = g_quark_from_static_string(SP_XLINK_NS_URI); defaults[1].prefix = g_quark_from_static_string("xlink"); defaults[1].next = &defaults[2]; defaults[2].uri = g_quark_from_static_string(SP_SVG_NS_URI); defaults[2].prefix = g_quark_from_static_string("svg"); defaults[2].next = &defaults[3]; defaults[3].uri = g_quark_from_static_string(SP_INKSCAPE_NS_URI); defaults[3].prefix = g_quark_from_static_string("inkscape"); defaults[3].next = &defaults[4]; defaults[4].uri = g_quark_from_static_string(SP_RDF_NS_URI); defaults[4].prefix = g_quark_from_static_string("rdf"); defaults[4].next = &defaults[5]; defaults[5].uri = g_quark_from_static_string(SP_CC_NS_URI); defaults[5].prefix = g_quark_from_static_string("cc"); defaults[5].next = &defaults[6]; defaults[6].uri = g_quark_from_static_string(SP_DC_NS_URI); defaults[6].prefix = g_quark_from_static_string("dc"); defaults[6].next = &defaults[8]; //defaults[7].uri = g_quark_from_static_string("https://inkscape.org/namespaces/deprecated/osb"); //defaults[7].prefix = g_quark_from_static_string("osb"); //defaults[7].next = &defaults[8]; // Inkscape versions prior to 0.44 would write this namespace // URI instead of the correct sodipodi namespace; by adding this // entry to the table last (where it gets used for URI -> prefix // lookups, but not prefix -> URI lookups), we effectively transfer // elements in this namespace to the correct sodipodi namespace: defaults[8].uri = g_quark_from_static_string(SP_BROKEN_SODIPODI_NS_URI); defaults[8].prefix = g_quark_from_static_string("sodipodi"); defaults[8].next = &defaults[9]; // "Duck prion" // This URL became widespread due to a bug in versions <= 0.43 defaults[9].uri = g_quark_from_static_string("http://inkscape.sourceforge.net/DTD/s odipodi-0.dtd"); defaults[9].prefix = g_quark_from_static_string("sodipodi"); defaults[9].next = &defaults[10]; // This namespace URI is being phased out by Creative Commons defaults[10].uri = g_quark_from_static_string(SP_OLD_CC_NS_URI); defaults[10].prefix = g_quark_from_static_string("cc"); defaults[10].next = nullptr; namespaces = &defaults[0]; } char *sp_xml_ns_auto_prefix(char const *uri) { char const *start, *end; char *new_prefix; start = uri; while ((end = strpbrk(start, ":/"))) { start = end + 1; } end = start + strspn(start, "abcdefghijklmnopqrstuvwxyz"); if (end == start) { start = "ns"; end = start + 2; } new_prefix = g_strndup(start, end - start); if (sp_xml_ns_prefix_uri(new_prefix)) { char *temp; int counter=0; do { temp = g_strdup_printf("%s%d", new_prefix, counter++); } while (sp_xml_ns_prefix_uri(temp)); g_free(new_prefix); new_prefix = temp; } return new_prefix; } gchar const *sp_xml_ns_uri_prefix(gchar const *uri, gchar const *suggested) { char const *prefix; if (!uri) return nullptr; if (!namespaces) { sp_xml_ns_register_defaults(); } GQuark const key = g_quark_from_string(uri); prefix = nullptr; for ( SPXMLNs *iter=namespaces ; iter ; iter = iter->next ) { if ( iter->uri == key ) { prefix = g_quark_to_string(iter->prefix); break; } } if (!prefix) { char *new_prefix; SPXMLNs *ns; if (suggested) { GQuark const prefix_key=g_quark_from_string(suggested); SPXMLNs *found=namespaces; while (found) { if (found->prefix != prefix_key) { found = found->next; } else { break; } } if (found) { // prefix already used? new_prefix = sp_xml_ns_auto_prefix(uri); } else { // safe to use suggested new_prefix = g_strdup(suggested); } } else { new_prefix = sp_xml_ns_auto_prefix(uri); } ns = g_new(SPXMLNs, 1); g_assert( ns != nullptr ); ns->uri = g_quark_from_string(uri); ns->prefix = g_quark_from_string(new_prefix); g_free(new_prefix); ns->next = namespaces; namespaces = ns; prefix = g_quark_to_string(ns->prefix); } return prefix; } gchar const *sp_xml_ns_prefix_uri(gchar const *prefix) { SPXMLNs *iter; char const *uri; if (!prefix) return nullptr; if (!namespaces) { sp_xml_ns_register_defaults(); } GQuark const key = g_quark_from_string(prefix); uri = nullptr; for ( iter = namespaces ; iter ; iter = iter->next ) { if ( iter->prefix == key ) { uri = g_quark_to_string(iter->uri); break; } } return uri; } /** * Works for different-parent objects, so long as they have a common ancestor. Return value: * 0 positions are equivalent * 1 first object's position is greater than the second * -1 first object's position is less than the second * @todo Rewrite this function's description to be understandable */ int sp_repr_compare_position(Inkscape::XML::Node const *first, Inkscape::XML::Node const *second) { int p1, p2; if (first->parent() == second->parent()) { /* Basic case - first and second have same parent */ p1 = first->position(); p2 = second->position(); } else { /* Special case - the two objects have different parents. They could be in different groups or on different layers for instance. */ // Find the lowest common ancestor(LCA) Inkscape::XML::Node const *ancestor = LCA(first, second); g_assert(ancestor != nullptr); if (ancestor == first) { return 1; } else if (ancestor == second) { return -1; } else { Inkscape::XML::Node const *to_first = AncetreFils(first, ancestor); Inkscape::XML::Node const *to_second = AncetreFils(second, ancestor); g_assert(to_second->parent() == to_first->parent()); p1 = to_first->position(); p2 = to_second->position(); } } if (p1 > p2) return 1; if (p1 < p2) return -1; return 0; /* effic: Assuming that the parent--child relationship is consistent (i.e. that the parent really does contain first and second among its list of children), it should be equivalent to walk along the children and see which we encounter first (returning 0 iff first == second). Given that this function is used solely for sorting, we can use a similar approach to do the sort: gather the things to be sorted, into an STL vector (to allow random access and faster traversals). Do a single pass of the parent's children; for each child, do a pass on whatever items in the vector we haven't yet encountered. If the child is found, then swap it to the beginning of the yet-unencountered elements of the vector. Continue until no more than one remains unencountered. -- pjrm */ } bool sp_repr_compare_position_bool(Inkscape::XML::Node const *first, Inkscape::XML::Node const *second){ return sp_repr_compare_position(first, second)<0; } /** * Find an element node using an unique attribute. * * This function returns the first child of the specified node that has the attribute * @c key equal to @c value. Note that this function does not recurse. * * @param repr The node to start from * @param key The name of the attribute to use for comparisons * @param value The value of the attribute to look for * @relatesalso Inkscape::XML::Node */ Inkscape::XML::Node *sp_repr_lookup_child(Inkscape::XML::Node *repr, gchar const *key, gchar const *value) { g_return_val_if_fail(repr != nullptr, NULL); for ( Inkscape::XML::Node *child = repr->firstChild() ; child ; child = child->next() ) { gchar const *child_value = child->attribute(key); if ( (child_value == value) || (value && child_value && !strcmp(child_value, value)) ) { return child; } } return nullptr; } /** * Recursive version of sp_repr_lookup_child(). */ Inkscape::XML::Node const *sp_repr_lookup_descendant(Inkscape::XML::Node const *repr, gchar const *key, gchar const *value) { Inkscape::XML::Node const *found = nullptr; g_return_val_if_fail(repr != nullptr, NULL); gchar const *repr_value = repr->attribute(key); if ( (repr_value == value) || (repr_value && value && strcmp(repr_value, value) == 0) ) { found = repr; } else { for (Inkscape::XML::Node const *child = repr->firstChild() ; child && !found; child = child->next() ) { found = sp_repr_lookup_descendant( child, key, value ); } } return found; } Inkscape::XML::Node *sp_repr_lookup_descendant(Inkscape::XML::Node *repr, gchar const *key, gchar const *value) { Inkscape::XML::Node const *found = sp_repr_lookup_descendant( const_cast(repr), key, value ); return const_cast(found); } Inkscape::XML::Node const *sp_repr_lookup_name( Inkscape::XML::Node const *repr, gchar const *name, gint maxdepth ) { Inkscape::XML::Node const *found = nullptr; g_return_val_if_fail(repr != nullptr, NULL); g_return_val_if_fail(name != nullptr, NULL); GQuark const quark = g_quark_from_string(name); if ( (GQuark)repr->code() == quark ) { found = repr; } else if ( maxdepth != 0 ) { // maxdepth == -1 means unlimited if ( maxdepth == -1 ) { maxdepth = 0; } for (Inkscape::XML::Node const *child = repr->firstChild() ; child && !found; child = child->next() ) { found = sp_repr_lookup_name( child, name, maxdepth - 1 ); } } return found; } Inkscape::XML::Node *sp_repr_lookup_name( Inkscape::XML::Node *repr, gchar const *name, gint maxdepth ) { Inkscape::XML::Node const *found = sp_repr_lookup_name( const_cast(repr), name, maxdepth ); return const_cast(found); } std::vector sp_repr_lookup_name_many( Inkscape::XML::Node const *repr, gchar const *name, gint maxdepth ) { std::vector nodes; std::vector found; g_return_val_if_fail(repr != nullptr, nodes); g_return_val_if_fail(name != nullptr, nodes); GQuark const quark = g_quark_from_string(name); if ( (GQuark)repr->code() == quark ) { nodes.push_back(repr); } if ( maxdepth != 0 ) { // maxdepth == -1 means unlimited if ( maxdepth == -1 ) { maxdepth = 0; } for (Inkscape::XML::Node const *child = repr->firstChild() ; child; child = child->next() ) { found = sp_repr_lookup_name_many( child, name, maxdepth - 1); nodes.insert(nodes.end(), found.begin(), found.end()); } } return nodes; } std::vector sp_repr_lookup_property_many( Inkscape::XML::Node *repr, Glib::ustring const& property, Glib::ustring const &value, int maxdepth ) { std::vector nodes; std::vector found; g_return_val_if_fail(repr != nullptr, nodes); SPCSSAttr* css = sp_repr_css_attr (repr, "style"); if (value == sp_repr_css_property (css, property, "")) { nodes.push_back(repr); } if ( maxdepth != 0 ) { // maxdepth == -1 means unlimited if ( maxdepth == -1 ) { maxdepth = 0; } for (Inkscape::XML::Node *child = repr->firstChild() ; child; child = child->next() ) { found = sp_repr_lookup_property_many( child, property, value, maxdepth - 1); nodes.insert(nodes.end(), found.begin(), found.end()); } } return nodes; } /** * Determine if the node is a 'title', 'desc' or 'metadata' element. */ bool sp_repr_is_meta_element(const Inkscape::XML::Node *node) { if (node == nullptr) return false; if (node->type() != Inkscape::XML::NodeType::ELEMENT_NODE) return false; gchar const *name = node->name(); if (name == nullptr) return false; if (!std::strcmp(name, "svg:title")) return true; if (!std::strcmp(name, "svg:desc")) return true; if (!std::strcmp(name, "svg:metadata")) return true; return 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 :