/* * symbols.c - this file is part of Geany, a fast and lightweight IDE * * Copyright 2006-2012 Enrico Tröger * Copyright 2006-2012 Nick Treleaven * Copyright 2011-2012 Colomban Wendling * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License along * with this program; if not, write to the Free Software Foundation, Inc., * 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA. */ /** * @file symbols.h * Tag-related functions. **/ /* * Symbol Tree and TagManager-related convenience functions. * TagManager parses tags for each document, and also adds them to the workspace (session). * Global tags are lists of tags for each filetype, loaded when a document with a * matching filetype is first loaded. */ #include "SciLexer.h" #include "geany.h" #include #include #include #include "prefix.h" #include "symbols.h" #include "utils.h" #include "filetypes.h" #include "encodings.h" #include "document.h" #include "documentprivate.h" #include "support.h" #include "msgwindow.h" #include "sidebar.h" #include "main.h" #include "navqueue.h" #include "ui_utils.h" #include "editor.h" #include "sciwrappers.h" #include "filetypesprivate.h" #include "search.h" const guint TM_GLOBAL_TYPE_MASK = tm_tag_class_t | tm_tag_enum_t | tm_tag_interface_t | tm_tag_struct_t | tm_tag_typedef_t | tm_tag_union_t | tm_tag_namespace_t; static gchar **html_entities = NULL; typedef struct { gboolean tags_loaded; const gchar *tag_file; } TagFileInfo; /* Check before adding any more tags files, usually they should be downloaded separately. */ enum /* Geany tag files */ { GTF_C, GTF_PASCAL, GTF_PHP, GTF_HTML_ENTITIES, GTF_LATEX, GTF_PYTHON, GTF_MAX }; static TagFileInfo tag_file_info[GTF_MAX] = { {FALSE, "c99.tags"}, {FALSE, "pascal.tags"}, {FALSE, "php.tags"}, {FALSE, "html_entities.tags"}, {FALSE, "latex.tags"}, {FALSE, "python.tags"} }; static GPtrArray *top_level_iter_names = NULL; static struct { GtkWidget *expand_all; GtkWidget *collapse_all; GtkWidget *sort_by_name; GtkWidget *sort_by_appearance; GtkWidget *find_usage; GtkWidget *find_doc_usage; GtkWidget *find_in_files; } symbol_menu; static void html_tags_loaded(void); static void load_user_tags(filetype_id ft_id); /* get the tags_ignore list, exported by tagmanager's options.c */ extern gchar **c_tags_ignore; /* ignore certain tokens when parsing C-like syntax. * Also works for reloading. */ static void load_c_ignore_tags(void) { gchar *path = g_build_filename(app->configdir, "ignore.tags", NULL); gchar *content; if (g_file_get_contents(path, &content, NULL, NULL)) { /* historically we ignore the glib _DECLS for tag generation */ SETPTR(content, g_strconcat("G_BEGIN_DECLS G_END_DECLS\n", content, NULL)); g_strfreev(c_tags_ignore); c_tags_ignore = g_strsplit_set(content, " \n\r", -1); g_free(content); } g_free(path); } void symbols_reload_config_files(void) { load_c_ignore_tags(); } static gsize get_tag_count(void) { GPtrArray *tags = tm_get_workspace()->global_tags; gsize count = tags ? tags->len : 0; return count; } /* wrapper for tm_workspace_load_global_tags(). * note that the tag count only counts new global tags added - if a tag has the same name, * currently it replaces the existing tag, so loading a file twice will say 0 tags the 2nd time. */ static gboolean symbols_load_global_tags(const gchar *tags_file, GeanyFiletype *ft) { gboolean result; gsize old_tag_count = get_tag_count(); result = tm_workspace_load_global_tags(tags_file, ft->lang); if (result) { geany_debug("Loaded %s (%s), %u tag(s).", tags_file, ft->name, (guint) (get_tag_count() - old_tag_count)); } return result; } /* Ensure that the global tags file(s) for the file_type_idx filetype is loaded. * This provides autocompletion, calltips, etc. */ void symbols_global_tags_loaded(guint file_type_idx) { TagFileInfo *tfi; gint tag_type; /* load ignore list for C/C++ parser */ if ((file_type_idx == GEANY_FILETYPES_C || file_type_idx == GEANY_FILETYPES_CPP) && c_tags_ignore == NULL) { load_c_ignore_tags(); } if (cl_options.ignore_global_tags || app->tm_workspace == NULL) return; /* load config in case of custom filetypes */ filetypes_load_config(file_type_idx, FALSE); load_user_tags(file_type_idx); switch (file_type_idx) { case GEANY_FILETYPES_PHP: case GEANY_FILETYPES_HTML: html_tags_loaded(); } switch (file_type_idx) { case GEANY_FILETYPES_CPP: symbols_global_tags_loaded(GEANY_FILETYPES_C); /* load C global tags */ /* no C++ tagfile yet */ return; case GEANY_FILETYPES_C: tag_type = GTF_C; break; case GEANY_FILETYPES_PASCAL:tag_type = GTF_PASCAL; break; case GEANY_FILETYPES_PHP: tag_type = GTF_PHP; break; case GEANY_FILETYPES_LATEX: tag_type = GTF_LATEX; break; case GEANY_FILETYPES_PYTHON:tag_type = GTF_PYTHON; break; default: return; } tfi = &tag_file_info[tag_type]; if (! tfi->tags_loaded) { gchar *fname = g_build_filename(app->datadir, tfi->tag_file, NULL); symbols_load_global_tags(fname, filetypes[file_type_idx]); tfi->tags_loaded = TRUE; g_free(fname); } } /* HTML tagfile is just a list of entities for autocompletion (e.g. '&') */ static void html_tags_loaded(void) { TagFileInfo *tfi; if (cl_options.ignore_global_tags) return; tfi = &tag_file_info[GTF_HTML_ENTITIES]; if (! tfi->tags_loaded) { gchar *file = g_build_filename(app->datadir, tfi->tag_file, NULL); html_entities = utils_read_file_in_array(file); tfi->tags_loaded = TRUE; g_free(file); } } GString *symbols_find_tags_as_string(GPtrArray *tags_array, guint tag_types, gint lang) { guint j; TMTag *tag; GString *s = NULL; GPtrArray *typedefs; gint tag_lang; g_return_val_if_fail(tags_array != NULL, NULL); typedefs = tm_tags_extract(tags_array, tag_types); if ((typedefs) && (typedefs->len > 0)) { s = g_string_sized_new(typedefs->len * 10); for (j = 0; j < typedefs->len; ++j) { tag = TM_TAG(typedefs->pdata[j]); /* tag->atts.file.lang contains (for some reason) the line of the tag if * tag->atts.entry.file is not NULL */ tag_lang = (tag->atts.entry.file) ? tag->atts.entry.file->lang : tag->atts.file.lang; /* the check for tag_lang == lang is necessary to avoid wrong type colouring of * e.g. PHP classes in C++ files * lang = -2 disables the check */ if (tag->name && (tag_lang == lang || lang == -2)) { if (j != 0) g_string_append_c(s, ' '); g_string_append(s, tag->name); } } } if (typedefs) g_ptr_array_free(typedefs, TRUE); return s; } /** Gets the context separator used by the tag manager for a particular file * type. * @param ft_id File type identifier. * @return The context separator string. * * @since 0.19 */ const gchar *symbols_get_context_separator(gint ft_id) { switch (ft_id) { case GEANY_FILETYPES_C: /* for C++ .h headers or C structs */ case GEANY_FILETYPES_CPP: case GEANY_FILETYPES_GLSL: /* for structs */ /*case GEANY_FILETYPES_RUBY:*/ /* not sure what to use atm*/ return "::"; /* avoid confusion with other possible separators in group/section name */ case GEANY_FILETYPES_CONF: case GEANY_FILETYPES_REST: return ":::"; default: return "."; } } GString *symbols_get_macro_list(gint lang) { guint j, i; GPtrArray *ftags; GString *words; gint tag_lang; TMTag *tag; if (app->tm_workspace->work_objects == NULL) return NULL; ftags = g_ptr_array_sized_new(50); words = g_string_sized_new(200); for (j = 0; j < app->tm_workspace->work_objects->len; j++) { GPtrArray *tags; tags = tm_tags_extract(TM_WORK_OBJECT(app->tm_workspace->work_objects->pdata[j])->tags_array, tm_tag_enum_t | tm_tag_variable_t | tm_tag_macro_t | tm_tag_macro_with_arg_t); if (NULL != tags) { for (i = 0; ((i < tags->len) && (i < editor_prefs.autocompletion_max_entries)); ++i) { tag = TM_TAG(tags->pdata[i]); tag_lang = (tag->atts.entry.file) ? tag->atts.entry.file->lang : tag->atts.file.lang; if (tag_lang == lang) g_ptr_array_add(ftags, (gpointer) tags->pdata[i]); } g_ptr_array_free(tags, TRUE); } } if (ftags->len == 0) { g_ptr_array_free(ftags, TRUE); g_string_free(words, TRUE); return NULL; } tm_tags_sort(ftags, NULL, FALSE); for (j = 0; j < ftags->len; j++) { if (j > 0) g_string_append_c(words, '\n'); g_string_append(words, TM_TAG(ftags->pdata[j])->name); } g_ptr_array_free(ftags, TRUE); return words; } /* Note: if tags is sorted, we can use bsearch or tm_tags_find() to speed this up. */ static TMTag * symbols_find_tm_tag(const GPtrArray *tags, const gchar *tag_name) { guint i; g_return_val_if_fail(tags != NULL, NULL); for (i = 0; i < tags->len; ++i) { if (utils_str_equal(TM_TAG(tags->pdata[i])->name, tag_name)) return TM_TAG(tags->pdata[i]); } return NULL; } static TMTag *find_work_object_tag(const TMWorkObject *workobj, const gchar *tag_name, guint type) { GPtrArray *tags; TMTag *tmtag; if (G_LIKELY(workobj != NULL)) { tags = tm_tags_extract(workobj->tags_array, type); if (tags != NULL) { tmtag = symbols_find_tm_tag(tags, tag_name); g_ptr_array_free(tags, TRUE); if (tmtag != NULL) return tmtag; } } return NULL; /* not found */ } static TMTag *find_workspace_tag(const gchar *tag_name, guint type) { guint j; const GPtrArray *work_objects = NULL; if (app->tm_workspace != NULL) work_objects = app->tm_workspace->work_objects; if (work_objects != NULL) { for (j = 0; j < work_objects->len; j++) { TMWorkObject *workobj = TM_WORK_OBJECT(work_objects->pdata[j]); TMTag *tmtag; tmtag = find_work_object_tag(workobj, tag_name, type); if (tmtag != NULL) return tmtag; } } return NULL; /* not found */ } const gchar **symbols_get_html_entities(void) { if (html_entities == NULL) html_tags_loaded(); /* if not yet created, force creation of the array but shouldn't occur */ return (const gchar **) html_entities; } /* sort by name, then line */ static gint compare_symbol(const TMTag *tag_a, const TMTag *tag_b) { gint ret; if (tag_a == NULL || tag_b == NULL) return 0; if (tag_a->name == NULL) return -(tag_a->name != tag_b->name); if (tag_b->name == NULL) return tag_a->name != tag_b->name; ret = strcmp(tag_a->name, tag_b->name); if (ret == 0) { return tag_a->atts.entry.line - tag_b->atts.entry.line; } return ret; } /* sort by line, then scope */ static gint compare_symbol_lines(gconstpointer a, gconstpointer b) { const TMTag *tag_a = TM_TAG(a); const TMTag *tag_b = TM_TAG(b); gint ret; if (a == NULL || b == NULL) return 0; ret = tag_a->atts.entry.line - tag_b->atts.entry.line; if (ret == 0) { if (tag_a->atts.entry.scope == NULL) return -(tag_a->atts.entry.scope != tag_b->atts.entry.scope); if (tag_b->atts.entry.scope == NULL) return tag_a->atts.entry.scope != tag_b->atts.entry.scope; else return strcmp(tag_a->atts.entry.scope, tag_b->atts.entry.scope); } return ret; } static GList *get_tag_list(GeanyDocument *doc, guint tag_types) { GList *tag_names = NULL; TMTag *tag; guint i; g_return_val_if_fail(doc, NULL); if (! doc->tm_file || ! doc->tm_file->tags_array) return NULL; for (i = 0; i < doc->tm_file->tags_array->len; ++i) { tag = TM_TAG(doc->tm_file->tags_array->pdata[i]); if (G_UNLIKELY(tag == NULL)) return NULL; if (tag->type & tag_types) { tag_names = g_list_prepend(tag_names, tag); } } tag_names = g_list_sort(tag_names, compare_symbol_lines); return tag_names; } /* amount of types in the symbol list (currently max. 8 are used) */ #define MAX_SYMBOL_TYPES (sizeof(tv_iters) / sizeof(GtkTreeIter)) struct TreeviewSymbols { GtkTreeIter tag_function; GtkTreeIter tag_class; GtkTreeIter tag_macro; GtkTreeIter tag_member; GtkTreeIter tag_variable; GtkTreeIter tag_namespace; GtkTreeIter tag_struct; GtkTreeIter tag_interface; GtkTreeIter tag_type; GtkTreeIter tag_other; } tv_iters; static void init_tag_iters(void) { /* init all GtkTreeIters with -1 to make them invalid to avoid crashes when switching between * filetypes(e.g. config file to Python crashes Geany without this) */ tv_iters.tag_function.stamp = -1; tv_iters.tag_class.stamp = -1; tv_iters.tag_member.stamp = -1; tv_iters.tag_macro.stamp = -1; tv_iters.tag_variable.stamp = -1; tv_iters.tag_namespace.stamp = -1; tv_iters.tag_struct.stamp = -1; tv_iters.tag_interface.stamp = -1; tv_iters.tag_type.stamp = -1; tv_iters.tag_other.stamp = -1; } static GdkPixbuf *get_tag_icon(const gchar *icon_name) { static GtkIconTheme *icon_theme = NULL; static gint x = -1; if (G_UNLIKELY(x < 0)) { gint dummy; icon_theme = gtk_icon_theme_get_default(); gtk_icon_size_lookup(GTK_ICON_SIZE_MENU, &x, &dummy); } return gtk_icon_theme_load_icon(icon_theme, icon_name, x, 0, NULL); } /* finds the next iter at any level * @param iter in/out, the current iter, will be changed to the next one * @param down whether to try the child iter * @return TRUE if there @p iter was set, or FALSE if there is no next iter */ static gboolean next_iter(GtkTreeModel *model, GtkTreeIter *iter, gboolean down) { GtkTreeIter guess; GtkTreeIter copy = *iter; /* go down if the item has children */ if (down && gtk_tree_model_iter_children(model, &guess, iter)) *iter = guess; /* or to the next item at the same level */ else if (gtk_tree_model_iter_next(model, ©)) *iter = copy; /* or to the next item at a parent level */ else if (gtk_tree_model_iter_parent(model, &guess, iter)) { copy = guess; while(TRUE) { if (gtk_tree_model_iter_next(model, ©)) { *iter = copy; return TRUE; } else if (gtk_tree_model_iter_parent(model, ©, &guess)) guess = copy; else return FALSE; } } else return FALSE; return TRUE; } static gboolean find_toplevel_iter(GtkTreeStore *store, GtkTreeIter *iter, const gchar *title) { GtkTreeModel *model = GTK_TREE_MODEL(store); if (!gtk_tree_model_get_iter_first(model, iter)) return FALSE; do { gchar *candidate; gtk_tree_model_get(model, iter, SYMBOLS_COLUMN_NAME, &candidate, -1); /* FIXME: what if 2 different items have the same name? * this should never happen, but might be caused by a typo in a translation */ if (utils_str_equal(candidate, title)) { g_free(candidate); return TRUE; } else g_free(candidate); } while (gtk_tree_model_iter_next(model, iter)); return FALSE; } /* Adds symbol list groups in (iter*, title) pairs. * The list must be ended with NULL. */ static void G_GNUC_NULL_TERMINATED tag_list_add_groups(GtkTreeStore *tree_store, ...) { va_list args; GtkTreeIter *iter; g_return_if_fail(top_level_iter_names); va_start(args, tree_store); for (; iter = va_arg(args, GtkTreeIter*), iter != NULL;) { gchar *title = va_arg(args, gchar*); gchar *icon_name = va_arg(args, gchar *); GdkPixbuf *icon = NULL; if (icon_name) { icon = get_tag_icon(icon_name); } g_assert(title != NULL); g_ptr_array_add(top_level_iter_names, title); if (!find_toplevel_iter(tree_store, iter, title)) gtk_tree_store_append(tree_store, iter, NULL); if (G_IS_OBJECT(icon)) { gtk_tree_store_set(tree_store, iter, SYMBOLS_COLUMN_ICON, icon, -1); g_object_unref(icon); } gtk_tree_store_set(tree_store, iter, SYMBOLS_COLUMN_NAME, title, -1); } va_end(args); } static void add_top_level_items(GeanyDocument *doc) { filetype_id ft_id = doc->file_type->id; GtkTreeStore *tag_store = doc->priv->tag_store; if (top_level_iter_names == NULL) top_level_iter_names = g_ptr_array_new(); else g_ptr_array_set_size(top_level_iter_names, 0); init_tag_iters(); switch (ft_id) { case GEANY_FILETYPES_DIFF: { tag_list_add_groups(tag_store, &(tv_iters.tag_function), _("Files"), NULL, NULL); break; } case GEANY_FILETYPES_DOCBOOK: { tag_list_add_groups(tag_store, &(tv_iters.tag_function), _("Chapter"), NULL, &(tv_iters.tag_class), _("Section"), NULL, &(tv_iters.tag_member), _("Sect1"), NULL, &(tv_iters.tag_macro), _("Sect2"), NULL, &(tv_iters.tag_variable), _("Sect3"), NULL, &(tv_iters.tag_struct), _("Appendix"), NULL, &(tv_iters.tag_other), _("Other"), NULL, NULL); break; } case GEANY_FILETYPES_HASKELL: tag_list_add_groups(tag_store, &tv_iters.tag_namespace, _("Module"), NULL, &tv_iters.tag_type, _("Types"), NULL, &tv_iters.tag_macro, _("Type constructors"), NULL, &tv_iters.tag_function, _("Functions"), "classviewer-method", NULL); break; case GEANY_FILETYPES_COBOL: tag_list_add_groups(tag_store, &tv_iters.tag_class, _("Program"), "classviewer-class", &tv_iters.tag_function, _("File"), "classviewer-method", &tv_iters.tag_namespace, _("Sections"), "classviewer-namespace", &tv_iters.tag_macro, _("Paragraph"), "classviewer-other", &tv_iters.tag_struct, _("Group"), "classviewer-struct", &tv_iters.tag_variable, _("Data"), "classviewer-var", NULL); break; case GEANY_FILETYPES_CONF: tag_list_add_groups(tag_store, &tv_iters.tag_namespace, _("Sections"), "classviewer-other", &tv_iters.tag_macro, _("Keys"), "classviewer-var", NULL); break; case GEANY_FILETYPES_NSIS: tag_list_add_groups(tag_store, &tv_iters.tag_namespace, _("Sections"), "classviewer-other", &tv_iters.tag_function, _("Functions"), "classviewer-method", &(tv_iters.tag_variable), _("Variables"), "classviewer-var", NULL); break; case GEANY_FILETYPES_LATEX: { tag_list_add_groups(tag_store, &(tv_iters.tag_function), _("Command"), NULL, &(tv_iters.tag_class), _("Environment"), NULL, &(tv_iters.tag_member), _("Section"), NULL, &(tv_iters.tag_macro), _("Subsection"), NULL, &(tv_iters.tag_variable), _("Subsubsection"), NULL, &(tv_iters.tag_struct), _("Label"), NULL, &(tv_iters.tag_namespace), _("Chapter"), NULL, &(tv_iters.tag_other), _("Other"), NULL, NULL); break; } case GEANY_FILETYPES_MATLAB: { tag_list_add_groups(tag_store, &(tv_iters.tag_function), _("Functions"), "classviewer-method", &(tv_iters.tag_struct), _("Structures"), "classviewer-struct", NULL); break; } case GEANY_FILETYPES_ABAQUS: { tag_list_add_groups(tag_store, &(tv_iters.tag_class), _("Parts"), NULL, &(tv_iters.tag_member), _("Assembly"), NULL, &(tv_iters.tag_namespace), _("Steps"), NULL, NULL); break; } case GEANY_FILETYPES_R: { tag_list_add_groups(tag_store, &(tv_iters.tag_function), _("Functions"), "classviewer-method", &(tv_iters.tag_struct), _("Other"), NULL, NULL); break; } case GEANY_FILETYPES_PERL: { tag_list_add_groups(tag_store, &(tv_iters.tag_namespace), _("Package"), "classviewer-namespace", &(tv_iters.tag_function), _("Functions"), "classviewer-method", &(tv_iters.tag_macro), _("Labels"), NULL, &(tv_iters.tag_type), _("Constants"), NULL, &(tv_iters.tag_other), _("Other"), "classviewer-other", NULL); break; } case GEANY_FILETYPES_PHP: { tag_list_add_groups(tag_store, &(tv_iters.tag_interface), _("Interfaces"), "classviewer-struct", &(tv_iters.tag_class), _("Classes"), "classviewer-class", &(tv_iters.tag_function), _("Functions"), "classviewer-method", &(tv_iters.tag_macro), _("Constants"), "classviewer-macro", &(tv_iters.tag_variable), _("Variables"), "classviewer-var", NULL); break; } case GEANY_FILETYPES_HTML: { tag_list_add_groups(tag_store, &(tv_iters.tag_function), _("Functions"), NULL, &(tv_iters.tag_member), _("Anchors"), NULL, &(tv_iters.tag_namespace), _("H1 Headings"), NULL, &(tv_iters.tag_class), _("H2 Headings"), NULL, &(tv_iters.tag_variable), _("H3 Headings"), NULL, NULL); break; } case GEANY_FILETYPES_CSS: { tag_list_add_groups(tag_store, &(tv_iters.tag_class), _("Classes"), "classviewer-class", &(tv_iters.tag_variable), _("ID Selectors"), "classviewer-var", &(tv_iters.tag_struct), _("Type Selectors"), "classviewer-struct", NULL); break; } case GEANY_FILETYPES_REST: case GEANY_FILETYPES_TXT2TAGS: case GEANY_FILETYPES_ABC: { tag_list_add_groups(tag_store, &(tv_iters.tag_namespace), _("Chapter"), NULL, &(tv_iters.tag_member), _("Section"), NULL, &(tv_iters.tag_macro), _("Subsection"), NULL, &(tv_iters.tag_variable), _("Subsubsection"), NULL, NULL); break; } case GEANY_FILETYPES_ASCIIDOC: { tag_list_add_groups(tag_store, &(tv_iters.tag_namespace), _("Document"), NULL, &(tv_iters.tag_member), _("Section Level 1"), NULL, &(tv_iters.tag_macro), _("Section Level 2"), NULL, &(tv_iters.tag_variable), _("Section Level 3"), NULL, &(tv_iters.tag_struct), _("Section Level 4"), NULL, NULL); break; } case GEANY_FILETYPES_RUBY: { tag_list_add_groups(tag_store, &(tv_iters.tag_namespace), _("Modules"), "classviewer-namespace", &(tv_iters.tag_class), _("Classes"), "classviewer-class", &(tv_iters.tag_member), _("Singletons"), "classviewer-struct", &(tv_iters.tag_function), _("Methods"), "classviewer-method", NULL); break; } case GEANY_FILETYPES_TCL: { tag_list_add_groups(tag_store, &(tv_iters.tag_namespace), _("Namespaces"), "classviewer-namespace", &(tv_iters.tag_class), _("Classes"), "classviewer-class", &(tv_iters.tag_member), _("Methods"), "classviewer-method", &(tv_iters.tag_function), _("Procedures"), "classviewer-other", NULL); break; } case GEANY_FILETYPES_PYTHON: { tag_list_add_groups(tag_store, &(tv_iters.tag_class), _("Classes"), "classviewer-class", &(tv_iters.tag_member), _("Methods"), "classviewer-macro", &(tv_iters.tag_function), _("Functions"), "classviewer-method", &(tv_iters.tag_variable), _("Variables"), "classviewer-var", &(tv_iters.tag_namespace), _("Imports"), "classviewer-namespace", NULL); break; } case GEANY_FILETYPES_VHDL: { tag_list_add_groups(tag_store, &(tv_iters.tag_namespace), _("Package"), "classviewer-namespace", &(tv_iters.tag_class), _("Entities"), "classviewer-class", &(tv_iters.tag_struct), _("Architectures"), "classviewer-struct", &(tv_iters.tag_type), _("Types"), "classviewer-other", &(tv_iters.tag_function), _("Functions / Procedures"), "classviewer-method", &(tv_iters.tag_variable), _("Variables / Signals"), "classviewer-var", &(tv_iters.tag_member), _("Processes / Blocks / Components"), "classviewer-member", &(tv_iters.tag_other), _("Other"), "classviewer-other", NULL); break; } case GEANY_FILETYPES_VERILOG: { tag_list_add_groups(tag_store, &(tv_iters.tag_type), _("Events"), "classviewer-macro", &(tv_iters.tag_class), _("Modules"), "classviewer-class", &(tv_iters.tag_function), _("Functions / Tasks"), "classviewer-method", &(tv_iters.tag_variable), _("Variables"), "classviewer-var", &(tv_iters.tag_other), _("Other"), "classviewer-other", NULL); break; } case GEANY_FILETYPES_JAVA: { tag_list_add_groups(tag_store, &(tv_iters.tag_namespace), _("Package"), "classviewer-namespace", &(tv_iters.tag_interface), _("Interfaces"), "classviewer-struct", &(tv_iters.tag_class), _("Classes"), "classviewer-class", &(tv_iters.tag_function), _("Methods"), "classviewer-method", &(tv_iters.tag_member), _("Members"), "classviewer-member", &(tv_iters.tag_other), _("Other"), "classviewer-other", NULL); break; } case GEANY_FILETYPES_AS: { tag_list_add_groups(tag_store, &(tv_iters.tag_namespace), _("Package"), "classviewer-namespace", &(tv_iters.tag_interface), _("Interfaces"), "classviewer-struct", &(tv_iters.tag_class), _("Classes"), "classviewer-class", &(tv_iters.tag_function), _("Functions"), "classviewer-method", &(tv_iters.tag_member), _("Properties"), "classviewer-member", &(tv_iters.tag_variable), _("Variables"), "classviewer-var", &(tv_iters.tag_macro), _("Constants"), "classviewer-macro", &(tv_iters.tag_other), _("Other"), "classviewer-other", NULL); break; } case GEANY_FILETYPES_HAXE: { tag_list_add_groups(tag_store, &(tv_iters.tag_interface), _("Interfaces"), "classviewer-struct", &(tv_iters.tag_class), _("Classes"), "classviewer-class", &(tv_iters.tag_function), _("Methods"), "classviewer-method", &(tv_iters.tag_type), _("Types"), "classviewer-macro", &(tv_iters.tag_variable), _("Variables"), "classviewer-var", &(tv_iters.tag_other), _("Other"), "classviewer-other", NULL); break; } case GEANY_FILETYPES_BASIC: { tag_list_add_groups(tag_store, &(tv_iters.tag_function), _("Functions"), "classviewer-method", &(tv_iters.tag_variable), _("Variables"), "classviewer-var", &(tv_iters.tag_macro), _("Constants"), "classviewer-macro", &(tv_iters.tag_struct), _("Types"), "classviewer-namespace", &(tv_iters.tag_namespace), _("Labels"), "classviewer-member", &(tv_iters.tag_other), _("Other"), "classviewer-other", NULL); break; } case GEANY_FILETYPES_F77: case GEANY_FILETYPES_FORTRAN: { tag_list_add_groups(tag_store, &(tv_iters.tag_namespace), _("Module"), "classviewer-class", &(tv_iters.tag_interface), _("Interfaces"), "classviewer-struct", &(tv_iters.tag_function), _("Functions"), "classviewer-method", &(tv_iters.tag_member), _("Subroutines"), "classviewer-method", &(tv_iters.tag_variable), _("Variables"), "classviewer-var", &(tv_iters.tag_type), _("Types"), "classviewer-namespace", &(tv_iters.tag_macro), _("Blocks"), "classviewer-member", &(tv_iters.tag_other), _("Other"), "classviewer-other", NULL); break; } case GEANY_FILETYPES_ASM: { tag_list_add_groups(tag_store, &(tv_iters.tag_namespace), _("Labels"), "classviewer-namespace", &(tv_iters.tag_function), _("Macros"), "classviewer-method", &(tv_iters.tag_macro), _("Defines"), "classviewer-macro", &(tv_iters.tag_struct), _("Types"), "classviewer-struct", NULL); break; } case GEANY_FILETYPES_MAKE: tag_list_add_groups(tag_store, &tv_iters.tag_function, _("Targets"), "classviewer-method", &tv_iters.tag_macro, _("Macros"), "classviewer-macro", NULL); break; case GEANY_FILETYPES_SQL: { tag_list_add_groups(tag_store, &(tv_iters.tag_function), _("Functions"), "classviewer-method", &(tv_iters.tag_namespace), _("Procedures"), "classviewer-namespace", &(tv_iters.tag_struct), _("Indexes"), "classviewer-struct", &(tv_iters.tag_class), _("Tables"), "classviewer-class", &(tv_iters.tag_macro), _("Triggers"), "classviewer-macro", &(tv_iters.tag_member), _("Views"), "classviewer-var", &(tv_iters.tag_other), _("Other"), "classviewer-other", NULL); break; } case GEANY_FILETYPES_D: default: { if (ft_id == GEANY_FILETYPES_D) tag_list_add_groups(tag_store, &(tv_iters.tag_namespace), _("Module"), NULL, NULL); else tag_list_add_groups(tag_store, &(tv_iters.tag_namespace), _("Namespaces"), "classviewer-namespace", NULL); tag_list_add_groups(tag_store, &(tv_iters.tag_class), _("Classes"), "classviewer-class", &(tv_iters.tag_interface), _("Interfaces"), "classviewer-struct", &(tv_iters.tag_function), _("Functions"), "classviewer-method", &(tv_iters.tag_member), _("Members"), "classviewer-member", &(tv_iters.tag_struct), _("Structs"), "classviewer-struct", &(tv_iters.tag_type), _("Typedefs / Enums"), "classviewer-struct", NULL); if (ft_id != GEANY_FILETYPES_D) { tag_list_add_groups(tag_store, &(tv_iters.tag_macro), _("Macros"), "classviewer-macro", NULL); } tag_list_add_groups(tag_store, &(tv_iters.tag_variable), _("Variables"), "classviewer-var", &(tv_iters.tag_other), _("Other"), "classviewer-other", NULL); } } } /* removes toplevel items that have no children */ static void hide_empty_rows(GtkTreeStore *store) { GtkTreeIter iter; gboolean cont = TRUE; if (! gtk_tree_model_get_iter_first(GTK_TREE_MODEL(store), &iter)) return; /* stop when first iter is invalid, i.e. no elements */ while (cont) { if (! gtk_tree_model_iter_has_child(GTK_TREE_MODEL(store), &iter)) cont = gtk_tree_store_remove(store, &iter); else cont = gtk_tree_model_iter_next(GTK_TREE_MODEL(store), &iter); } } static const gchar *get_symbol_name(GeanyDocument *doc, const TMTag *tag, gboolean found_parent) { gchar *utf8_name; const gchar *scope = tag->atts.entry.scope; static GString *buffer = NULL; /* buffer will be small so we can keep it for reuse */ gboolean doc_is_utf8 = FALSE; /* encodings_convert_to_utf8_from_charset() fails with charset "None", so skip conversion * for None at this point completely */ if (utils_str_equal(doc->encoding, "UTF-8") || utils_str_equal(doc->encoding, "None")) doc_is_utf8 = TRUE; else /* normally the tags will always be in UTF-8 since we parse from our buffer, but a * plugin might have called tm_source_file_update(), so check to be sure */ doc_is_utf8 = g_utf8_validate(tag->name, -1, NULL); if (! doc_is_utf8) utf8_name = encodings_convert_to_utf8_from_charset(tag->name, -1, doc->encoding, TRUE); else utf8_name = tag->name; if (utf8_name == NULL) return NULL; if (! buffer) buffer = g_string_new(NULL); else g_string_truncate(buffer, 0); /* check first char of scope is a wordchar */ if (!found_parent && scope && strpbrk(scope, GEANY_WORDCHARS) == scope) { const gchar *sep = symbols_get_context_separator(doc->file_type->id); g_string_append(buffer, scope); g_string_append(buffer, sep); } g_string_append(buffer, utf8_name); if (! doc_is_utf8) g_free(utf8_name); g_string_append_printf(buffer, " [%lu]", tag->atts.entry.line); return buffer->str; } static gchar *get_symbol_tooltip(GeanyDocument *doc, const TMTag *tag) { gchar *utf8_name = editor_get_calltip_text(doc->editor, tag); /* encodings_convert_to_utf8_from_charset() fails with charset "None", so skip conversion * for None at this point completely */ if (utf8_name != NULL && ! utils_str_equal(doc->encoding, "UTF-8") && ! utils_str_equal(doc->encoding, "None")) { SETPTR(utf8_name, encodings_convert_to_utf8_from_charset(utf8_name, -1, doc->encoding, TRUE)); } if (utf8_name != NULL) SETPTR(utf8_name, g_markup_escape_text(utf8_name, -1)); return utf8_name; } /* find the last word in "foo::bar::blah", e.g. "blah" */ static const gchar *get_parent_name(const TMTag *tag, filetype_id ft_id) { const gchar *scope = tag->atts.entry.scope; const gchar *separator = symbols_get_context_separator(ft_id); const gchar *str, *ptr; if (!scope) return NULL; str = scope; while (1) { ptr = strstr(str, separator); if (ptr) { str = ptr + strlen(separator); } else break; } return NZV(str) ? str : NULL; } static GtkTreeIter *get_tag_type_iter(TMTagType tag_type, filetype_id ft_id) { GtkTreeIter *iter = NULL; switch (tag_type) { case tm_tag_prototype_t: case tm_tag_method_t: case tm_tag_function_t: { iter = &tv_iters.tag_function; break; } case tm_tag_macro_t: case tm_tag_macro_with_arg_t: { iter = &tv_iters.tag_macro; break; } case tm_tag_class_t: { iter = &tv_iters.tag_class; break; } case tm_tag_member_t: case tm_tag_field_t: { iter = &tv_iters.tag_member; break; } case tm_tag_typedef_t: case tm_tag_enum_t: { iter = &tv_iters.tag_type; break; } case tm_tag_union_t: case tm_tag_struct_t: { iter = &tv_iters.tag_struct; break; } case tm_tag_interface_t: iter = &tv_iters.tag_interface; break; case tm_tag_variable_t: { iter = &tv_iters.tag_variable; break; } case tm_tag_namespace_t: case tm_tag_package_t: { iter = &tv_iters.tag_namespace; break; } default: { iter = &tv_iters.tag_other; } } if (G_LIKELY(iter->stamp != -1)) return iter; else return NULL; } static GdkPixbuf *get_child_icon(GtkTreeStore *tree_store, GtkTreeIter *parent) { GdkPixbuf *icon = NULL; if (parent == &tv_iters.tag_other) { return get_tag_icon("classviewer-var"); } /* copy parent icon */ gtk_tree_model_get(GTK_TREE_MODEL(tree_store), parent, SYMBOLS_COLUMN_ICON, &icon, -1); return icon; } static gboolean tag_equal(gconstpointer v1, gconstpointer v2) { const TMTag *t1 = v1; const TMTag *t2 = v2; return (t1->type == t2->type && strcmp(t1->name, t2->name) == 0 && utils_str_equal(t1->atts.entry.scope, t2->atts.entry.scope) && /* include arglist in match to support e.g. C++ overloading */ utils_str_equal(t1->atts.entry.arglist, t2->atts.entry.arglist)); } /* inspired from g_str_hash() */ static guint tag_hash(gconstpointer v) { const TMTag *tag = v; const gchar *p; guint32 h = 5381; h = (h << 5) + h + tag->type; for (p = tag->name; *p != '\0'; p++) h = (h << 5) + h + *p; if (tag->atts.entry.scope) { for (p = tag->atts.entry.scope; *p != '\0'; p++) h = (h << 5) + h + *p; } /* for e.g. C++ overloading */ if (tag->atts.entry.arglist) { for (p = tag->atts.entry.arglist; *p != '\0'; p++) h = (h << 5) + h + *p; } return h; } /* like gtk_tree_view_expand_to_path() but with an iter */ static void tree_view_expand_to_iter(GtkTreeView *view, GtkTreeIter *iter) { GtkTreeModel *model = gtk_tree_view_get_model(view); GtkTreePath *path = gtk_tree_model_get_path(model, iter); gtk_tree_view_expand_to_path(view, path); gtk_tree_path_free(path); } /* like gtk_tree_store_remove() but finds the next iter at any level */ static gboolean tree_store_remove_row(GtkTreeStore *store, GtkTreeIter *iter) { GtkTreeIter parent; gboolean has_parent; gboolean cont; has_parent = gtk_tree_model_iter_parent(GTK_TREE_MODEL(store), &parent, iter); cont = gtk_tree_store_remove(store, iter); /* if there is no next at this level but there is a parent iter, continue from it */ if (! cont && has_parent) { *iter = parent; cont = next_iter(GTK_TREE_MODEL(store), iter, FALSE); } return cont; } /* adds a new element in the parent table if it's key is known. * duplicates are kept */ static void update_parents_table(GHashTable *table, const TMTag *tag, const gchar *parent_name, const GtkTreeIter *iter) { GList **list; if (g_hash_table_lookup_extended(table, tag->name, NULL, (gpointer *) &list) && ! utils_str_equal(parent_name, tag->name) /* prevent Foo::Foo from making parent = child */) { if (! list) { list = g_slice_alloc(sizeof *list); *list = NULL; g_hash_table_insert(table, tag->name, list); } *list = g_list_prepend(*list, g_slice_dup(GtkTreeIter, iter)); } } static void free_iter_slice_list(gpointer data) { GList **list = data; if (list) { GList *node; foreach_list(node, *list) g_slice_free(GtkTreeIter, node->data); g_list_free(*list); g_slice_free1(sizeof *list, list); } } /* inserts a @data in @table on key @tag. * previous data is not overwritten if the key is duplicated, but rather the * two values are kept in a list * * table is: GHashTable>> */ static void tags_table_insert(GHashTable *table, TMTag *tag, GList *data) { GList *list = g_hash_table_lookup(table, tag); list = g_list_prepend(list, data); g_hash_table_insert(table, tag, list); } /* looks up the entry in @table that better matches @tag. * if there are more than one candidate, the one that has closest line position to @tag is chosen */ static GList *tags_table_lookup(GHashTable *table, TMTag *tag) { GList *data = NULL; GList *node = g_hash_table_lookup(table, tag); if (node) { glong delta; data = node->data; #define TAG_DELTA(a, b) ABS((glong) TM_TAG(a)->atts.entry.line - (glong) TM_TAG(b)->atts.entry.line) delta = TAG_DELTA(((GList *) node->data)->data, tag); for (node = node->next; node; node = node->next) { glong d = TAG_DELTA(((GList *) node->data)->data, tag); if (d < delta) { data = node->data; delta = d; } } #undef TAG_DELTA } return data; } /* removes the element at @tag from @table. * @tag must be the exact pointer used at insertion time */ static void tags_table_remove(GHashTable *table, TMTag *tag) { GList *list = g_hash_table_lookup(table, tag); if (list) { GList *node; foreach_list(node, list) { if (((GList *) node->data)->data == tag) break; } list = g_list_delete_link(list, node); if (list) g_hash_table_insert(table, tag, list); else g_hash_table_remove(table, tag); } } static void tags_table_destroy(GHashTable *table) { /* free any leftover elements. note that we can't register a value_free_func when * creating the hash table because we only want to free it when destroying the table, * not when inserting a duplicate (we handle this manually) */ GHashTableIter iter; gpointer value; g_hash_table_iter_init(&iter, table); while (g_hash_table_iter_next(&iter, NULL, &value)) g_list_free(value); g_hash_table_destroy(table); } /* * Updates the tag tree for a document with the tags in *list. * @param doc a document * @param tags a pointer to a GList* holding the tags to add/update. This * list may be updated, removing updated elements. * * The update is done in two passes: * 1) walking the current tree, update tags that still exist and remove the * obsolescent ones; * 2) walking the remaining (non updated) tags, adds them in the list. * * For better performances, we use 2 hash tables: * - one containing all the tags for lookup in the first pass (actually stores a * reference in the tags list for removing it efficiently), avoiding list search * on each tag; * - the other holding "tag-name":row references for tags having children, used to * lookup for a parent in both passes, avoiding tree traversal. */ static void update_tree_tags(GeanyDocument *doc, GList **tags) { GtkTreeStore *store = doc->priv->tag_store; GtkTreeModel *model = GTK_TREE_MODEL(store); GHashTable *parents_table; GHashTable *tags_table; GtkTreeIter iter; gboolean cont; GList *item; /* Build hash tables holding tags and parents */ /* parent table holds "tag-name":GtkTreeIter */ parents_table = g_hash_table_new_full(g_str_hash, g_str_equal, NULL, free_iter_slice_list); /* tags table is another representation of the @tags list, TMTag:GList */ tags_table = g_hash_table_new_full(tag_hash, tag_equal, NULL, NULL); foreach_list(item, *tags) { TMTag *tag = item->data; const gchar *name; tags_table_insert(tags_table, tag, item); name = get_parent_name(tag, doc->file_type->id); if (name) g_hash_table_insert(parents_table, (gpointer) name, NULL); } /* First pass, update existing rows or delete them. * It is OK to delete them since we walk top down so we would remove * parents before checking for their children, thus never implicitly * deleting an updated child */ cont = gtk_tree_model_get_iter_first(model, &iter); while (cont) { TMTag *tag; gtk_tree_model_get(model, &iter, SYMBOLS_COLUMN_TAG, &tag, -1); if (! tag) /* most probably a toplevel, skip it */ cont = next_iter(model, &iter, TRUE); else { GList *found_item; found_item = tags_table_lookup(tags_table, tag); if (! found_item) /* tag doesn't exist, remove it */ cont = tree_store_remove_row(store, &iter); else /* tag still exist, update it */ { const gchar *name; const gchar *parent_name; TMTag *found = found_item->data; parent_name = get_parent_name(found, doc->file_type->id); /* if parent is unknown, ignore it */ if (parent_name && ! g_hash_table_lookup(parents_table, parent_name)) parent_name = NULL; /* only update fields that (can) have changed (name that holds line * number, and the tag itself) */ name = get_symbol_name(doc, found, parent_name != NULL); gtk_tree_store_set(store, &iter, SYMBOLS_COLUMN_NAME, name, SYMBOLS_COLUMN_TAG, found, -1); update_parents_table(parents_table, found, parent_name, &iter); /* remove the updated tag from the table and list */ tags_table_remove(tags_table, found); *tags = g_list_delete_link(*tags, found_item); cont = next_iter(model, &iter, TRUE); } tm_tag_unref(tag); } } /* Second pass, now we have a tree cleaned up from invalid rows, * we simply add new ones */ foreach_list (item, *tags) { TMTag *tag = item->data; GtkTreeIter *parent; parent = get_tag_type_iter(tag->type, doc->file_type->id); if (G_UNLIKELY(! parent)) geany_debug("Missing symbol-tree parent iter for type %d!", tag->type); else { gboolean expand; const gchar *name; const gchar *parent_name; gchar *tooltip; GdkPixbuf *icon = get_child_icon(store, parent); parent_name = get_parent_name(tag, doc->file_type->id); if (parent_name) { GList **candidates; GtkTreeIter *parent_search = NULL; /* walk parent candidates to find the better one. * if there are more than one, take the one that has the closest line number * after the tag we're searching the parent for */ candidates = g_hash_table_lookup(parents_table, parent_name); if (candidates) { GList *node; glong delta = G_MAXLONG; foreach_list(node, *candidates) { TMTag *parent_tag; glong d; gtk_tree_model_get(GTK_TREE_MODEL(store), node->data, SYMBOLS_COLUMN_TAG, &parent_tag, -1); d = tag->atts.entry.line - parent_tag->atts.entry.line; if (! parent_search || (d >= 0 && d < delta)) { delta = d; parent_search = node->data; } tm_tag_unref(parent_tag); } } if (parent_search) parent = parent_search; else parent_name = NULL; } /* only expand to the iter if the parent was empty, otherwise we let the * folding as it was before (already expanded, or closed by the user) */ expand = ! gtk_tree_model_iter_has_child(model, parent); /* insert the new element */ gtk_tree_store_append(store, &iter, parent); name = get_symbol_name(doc, tag, parent_name != NULL); tooltip = get_symbol_tooltip(doc, tag); gtk_tree_store_set(store, &iter, SYMBOLS_COLUMN_NAME, name, SYMBOLS_COLUMN_TOOLTIP, tooltip, SYMBOLS_COLUMN_ICON, icon, SYMBOLS_COLUMN_TAG, tag, -1); g_free(tooltip); if (G_LIKELY(icon)) g_object_unref(icon); update_parents_table(parents_table, tag, parent_name, &iter); if (expand) tree_view_expand_to_iter(GTK_TREE_VIEW(doc->priv->tag_tree), &iter); } } g_hash_table_destroy(parents_table); tags_table_destroy(tags_table); } /* we don't want to sort 1st-level nodes, but we can't return 0 because the tree sort * is not stable, so the order is already lost. */ static gint compare_top_level_names(const gchar *a, const gchar *b) { guint i; const gchar *name; /* This should never happen as it would mean that two or more top * level items have the same name but it can happen by typos in the translations. */ if (utils_str_equal(a, b)) return 1; foreach_ptr_array(name, i, top_level_iter_names) { if (utils_str_equal(name, a)) return -1; if (utils_str_equal(name, b)) return 1; } g_warning("Couldn't find top level node '%s' or '%s'!", a, b); return 0; } static gboolean tag_has_missing_parent(const TMTag *tag, GtkTreeStore *store, GtkTreeIter *iter) { /* if the tag has a parent tag, it should be at depth >= 2 */ return NZV(tag->atts.entry.scope) && gtk_tree_store_iter_depth(store, iter) == 1; } static gint tree_sort_func(GtkTreeModel *model, GtkTreeIter *a, GtkTreeIter *b, gpointer user_data) { gboolean sort_by_name = GPOINTER_TO_INT(user_data); TMTag *tag_a, *tag_b; gint cmp; gtk_tree_model_get(model, a, SYMBOLS_COLUMN_TAG, &tag_a, -1); gtk_tree_model_get(model, b, SYMBOLS_COLUMN_TAG, &tag_b, -1); /* Check if the iters can be sorted based on tag name and line, not tree item name. * Sort by tree name if the scope was prepended, e.g. 'ScopeNameWithNoTag::TagName'. */ if (tag_a && !tag_has_missing_parent(tag_a, GTK_TREE_STORE(model), a) && tag_b && !tag_has_missing_parent(tag_b, GTK_TREE_STORE(model), b)) { cmp = sort_by_name ? compare_symbol(tag_a, tag_b) : compare_symbol_lines(tag_a, tag_b); } else { gchar *astr, *bstr; gtk_tree_model_get(model, a, SYMBOLS_COLUMN_NAME, &astr, -1); gtk_tree_model_get(model, b, SYMBOLS_COLUMN_NAME, &bstr, -1); /* if a is toplevel, b must be also */ if (gtk_tree_store_iter_depth(GTK_TREE_STORE(model), a) == 0) { cmp = compare_top_level_names(astr, bstr); } else { /* this is what g_strcmp0() does */ if (! astr) cmp = -(astr != bstr); else if (! bstr) cmp = astr != bstr; else { cmp = strcmp(astr, bstr); /* sort duplicate 'ScopeName::OverloadedTagName' items by line as well */ if (tag_a && tag_b) if (!sort_by_name || (utils_str_equal(tag_a->name, tag_b->name) && utils_str_equal(tag_a->atts.entry.scope, tag_b->atts.entry.scope))) cmp = compare_symbol_lines(tag_a, tag_b); } } g_free(astr); g_free(bstr); } tm_tag_unref(tag_a); tm_tag_unref(tag_b); return cmp; } static void sort_tree(GtkTreeStore *store, gboolean sort_by_name) { gtk_tree_sortable_set_sort_func(GTK_TREE_SORTABLE(store), SYMBOLS_COLUMN_NAME, tree_sort_func, GINT_TO_POINTER(sort_by_name), NULL); gtk_tree_sortable_set_sort_column_id(GTK_TREE_SORTABLE(store), SYMBOLS_COLUMN_NAME, GTK_SORT_ASCENDING); } gboolean symbols_recreate_tag_list(GeanyDocument *doc, gint sort_mode) { GList *tags; g_return_val_if_fail(doc != NULL, FALSE); tags = get_tag_list(doc, tm_tag_max_t); if (tags == NULL) return FALSE; /* FIXME: Not sure why we detached the model here? */ /* disable sorting during update because the code doesn't support correctly * models that are currently being built */ gtk_tree_sortable_set_sort_column_id(GTK_TREE_SORTABLE(doc->priv->tag_store), GTK_TREE_SORTABLE_UNSORTED_SORT_COLUMN_ID, 0); /* add grandparent type iters */ add_top_level_items(doc); update_tree_tags(doc, &tags); g_list_free(tags); hide_empty_rows(doc->priv->tag_store); if (sort_mode == SYMBOLS_SORT_USE_PREVIOUS) sort_mode = doc->priv->symbol_list_sort_mode; sort_tree(doc->priv->tag_store, sort_mode == SYMBOLS_SORT_BY_NAME); doc->priv->symbol_list_sort_mode = sort_mode; return TRUE; } /* Detects a global tags filetype from the *.lang.* language extension. * Returns NULL if there was no matching TM language. */ static GeanyFiletype *detect_global_tags_filetype(const gchar *utf8_filename) { gchar *tags_ext; gchar *shortname = utils_strdupa(utf8_filename); GeanyFiletype *ft = NULL; tags_ext = g_strrstr(shortname, ".tags"); if (tags_ext) { *tags_ext = '\0'; /* remove .tags extension */ ft = filetypes_detect_from_extension(shortname); if (ft->id != GEANY_FILETYPES_NONE) return ft; } return NULL; } /* Adapted from anjuta-2.0.2/global-tags/tm_global_tags.c, thanks. * Needs full paths for filenames, except for C/C++ tag files, when CFLAGS includes * the relevant path. * Example: * CFLAGS=-I/home/user/libname-1.x geany -g libname.d.tags libname.h */ int symbols_generate_global_tags(int argc, char **argv, gboolean want_preprocess) { /* -E pre-process, -dD output user macros, -p prof info (?) */ const char pre_process[] = "gcc -E -dD -p -I."; if (argc > 2) { /* Create global taglist */ int status; char *command; const char *tags_file = argv[1]; char *utf8_fname; GeanyFiletype *ft; utf8_fname = utils_get_utf8_from_locale(tags_file); ft = detect_global_tags_filetype(utf8_fname); g_free(utf8_fname); if (ft == NULL) { g_printerr(_("Unknown filetype extension for \"%s\".\n"), tags_file); return 1; } /* load config in case of custom filetypes */ filetypes_load_config(ft->id, FALSE); /* load ignore list for C/C++ parser */ if (ft->id == GEANY_FILETYPES_C || ft->id == GEANY_FILETYPES_CPP) load_c_ignore_tags(); if (want_preprocess && (ft->id == GEANY_FILETYPES_C || ft->id == GEANY_FILETYPES_CPP)) command = g_strdup_printf("%s %s", pre_process, NVL(getenv("CFLAGS"), "")); else command = NULL; /* don't preprocess */ geany_debug("Generating %s tags file.", ft->name); tm_get_workspace(); status = tm_workspace_create_global_tags(command, (const char **) (argv + 2), argc - 2, tags_file, ft->lang); g_free(command); symbols_finalize(); /* free c_tags_ignore data */ if (! status) { g_printerr(_("Failed to create tags file, perhaps because no tags " "were found.\n")); return 1; } } else { g_printerr(_("Usage: %s -g \n\n"), argv[0]); g_printerr(_("Example:\n" "CFLAGS=`pkg-config gtk+-2.0 --cflags` %s -g gtk2.c.tags" " /usr/include/gtk-2.0/gtk/gtk.h\n"), argv[0]); return 1; } return 0; } void symbols_show_load_tags_dialog(void) { GtkWidget *dialog; GtkFileFilter *filter; dialog = gtk_file_chooser_dialog_new(_("Load Tags"), GTK_WINDOW(main_widgets.window), GTK_FILE_CHOOSER_ACTION_OPEN, GTK_STOCK_CANCEL, GTK_RESPONSE_CANCEL, GTK_STOCK_OPEN, GTK_RESPONSE_OK, NULL); gtk_widget_set_name(dialog, "GeanyDialog"); filter = gtk_file_filter_new(); gtk_file_filter_set_name(filter, _("Geany tag files (*.*.tags)")); gtk_file_filter_add_pattern(filter, "*.*.tags"); gtk_file_chooser_add_filter(GTK_FILE_CHOOSER(dialog), filter); if (gtk_dialog_run(GTK_DIALOG(dialog)) == GTK_RESPONSE_OK) { GSList *flist = gtk_file_chooser_get_filenames(GTK_FILE_CHOOSER(dialog)); GSList *item; for (item = flist; item != NULL; item = g_slist_next(item)) { gchar *fname = item->data; gchar *utf8_fname; GeanyFiletype *ft; utf8_fname = utils_get_utf8_from_locale(fname); ft = detect_global_tags_filetype(utf8_fname); if (ft != NULL && symbols_load_global_tags(fname, ft)) /* For translators: the first wildcard is the filetype, the second the filename */ ui_set_statusbar(TRUE, _("Loaded %s tags file '%s'."), filetypes_get_display_name(ft), utf8_fname); else ui_set_statusbar(TRUE, _("Could not load tags file '%s'."), utf8_fname); g_free(utf8_fname); g_free(fname); } g_slist_free(flist); } gtk_widget_destroy(dialog); } static void detect_tag_files(const GSList *file_list) { const GSList *node; for (node = file_list; node != NULL; node = g_slist_next(node)) { gchar *fname = node->data; gchar *utf8_fname = utils_get_utf8_from_locale(fname); GeanyFiletype *ft = detect_global_tags_filetype(utf8_fname); g_free(utf8_fname); if (FILETYPE_ID(ft) != GEANY_FILETYPES_NONE) ft->priv->tag_files = g_slist_prepend(ft->priv->tag_files, fname); else geany_debug("Unknown filetype for file '%s'.", fname); } } static void init_user_tags(void) { GSList *file_list = NULL, *list = NULL; gchar *dir; dir = g_build_filename(app->configdir, "tags", NULL); /* create the user tags dir for next time if it doesn't exist */ if (! g_file_test(dir, G_FILE_TEST_IS_DIR)) { utils_mkdir(dir, FALSE); } file_list = utils_get_file_list_full(dir, TRUE, FALSE, NULL); SETPTR(dir, g_build_filename(app->datadir, "tags", NULL)); list = utils_get_file_list_full(dir, TRUE, FALSE, NULL); g_free(dir); file_list = g_slist_concat(file_list, list); detect_tag_files(file_list); /* don't need to delete list contents because they are stored in ft->priv->tag_files */ g_slist_free(file_list); } static void load_user_tags(filetype_id ft_id) { static guchar *tags_loaded = NULL; static gboolean init_tags = FALSE; const GSList *node; GeanyFiletype *ft = filetypes[ft_id]; g_return_if_fail(ft_id > 0); if (!tags_loaded) tags_loaded = g_new0(guchar, filetypes_array->len); if (tags_loaded[ft_id]) return; tags_loaded[ft_id] = TRUE; /* prevent reloading */ if (!init_tags) { init_user_tags(); init_tags = TRUE; } for (node = ft->priv->tag_files; node != NULL; node = g_slist_next(node)) { const gchar *fname = node->data; symbols_load_global_tags(fname, ft); } } static gboolean goto_tag(const gchar *name, gboolean definition) { const gint forward_types = tm_tag_prototype_t | tm_tag_externvar_t; guint type; TMTag *tmtag = NULL; GeanyDocument *old_doc = document_get_current(); /* goto tag definition: all except prototypes / forward declarations / externs */ type = (definition) ? tm_tag_max_t - forward_types : forward_types; /* first look in the current document */ if (old_doc != NULL && old_doc->tm_file) tmtag = find_work_object_tag(old_doc->tm_file, name, type); /* if not found, look in the workspace */ if (tmtag == NULL) tmtag = find_workspace_tag(name, type); if (tmtag != NULL) { GeanyDocument *new_doc = document_find_by_real_path( tmtag->atts.entry.file->work_object.file_name); if (new_doc) { /* If we are already on the tag line, swap definition/declaration */ if (new_doc == old_doc && tmtag->atts.entry.line == (guint)sci_get_current_line(old_doc->editor->sci) + 1) { if (goto_tag(name, !definition)) return TRUE; } } else { /* not found in opened document, should open */ new_doc = document_open_file(tmtag->atts.entry.file->work_object.file_name, FALSE, NULL, NULL); } if (navqueue_goto_line(old_doc, new_doc, tmtag->atts.entry.line)) return TRUE; } return FALSE; } gboolean symbols_goto_tag(const gchar *name, gboolean definition) { if (goto_tag(name, definition)) return TRUE; /* if we are here, there was no match and we are beeping ;-) */ utils_beep(); if (!definition) ui_set_statusbar(FALSE, _("Forward declaration \"%s\" not found."), name); else ui_set_statusbar(FALSE, _("Definition of \"%s\" not found."), name); return FALSE; } /* This could perhaps be improved to check for #if, class etc. */ static gint get_function_fold_number(GeanyDocument *doc) { /* for Java the functions are always one fold level above the class scope */ if (doc->file_type->id == GEANY_FILETYPES_JAVA) return SC_FOLDLEVELBASE + 1; else return SC_FOLDLEVELBASE; } /* Should be used only with get_current_tag_cached. * tag_types caching might trigger recomputation too often but this isn't used differently often * enough to be an issue for now */ static gboolean current_tag_changed(GeanyDocument *doc, gint cur_line, gint fold_level, guint tag_types) { static gint old_line = -2; static GeanyDocument *old_doc = NULL; static gint old_fold_num = -1; static guint old_tag_types = 0; const gint fold_num = fold_level & SC_FOLDLEVELNUMBERMASK; gboolean ret; /* check if the cached line and file index have changed since last time: */ if (doc == NULL || doc != old_doc || old_tag_types != tag_types) ret = TRUE; else if (cur_line == old_line) ret = FALSE; else { /* if the line has only changed by 1 */ if (abs(cur_line - old_line) == 1) { /* It's the same function if the fold number hasn't changed */ ret = (fold_num != old_fold_num); } else ret = TRUE; } /* record current line and file index for next time */ old_line = cur_line; old_doc = doc; old_fold_num = fold_num; old_tag_types = tag_types; return ret; } /* Parse the function name up to 2 lines before tag_line. * C++ like syntax should be parsed by parse_cpp_function_at_line, otherwise the return * type or argument names can be confused with the function name. */ static gchar *parse_function_at_line(ScintillaObject *sci, gint tag_line) { gint start, end, max_pos; gchar *cur_tag; gint fn_style; switch (sci_get_lexer(sci)) { case SCLEX_RUBY: fn_style = SCE_RB_DEFNAME; break; case SCLEX_PYTHON: fn_style = SCE_P_DEFNAME; break; default: fn_style = SCE_C_IDENTIFIER; /* several lexers use SCE_C_IDENTIFIER */ } start = sci_get_position_from_line(sci, tag_line - 2); max_pos = sci_get_position_from_line(sci, tag_line + 1); while (sci_get_style_at(sci, start) != fn_style && start < max_pos) start++; end = start; while (sci_get_style_at(sci, end) == fn_style && end < max_pos) end++; if (start == end) return NULL; cur_tag = g_malloc(end - start + 1); sci_get_text_range(sci, start, end, cur_tag); return cur_tag; } /* Parse the function name */ static gchar *parse_cpp_function_at_line(ScintillaObject *sci, gint tag_line) { gint start, end, first_pos, max_pos; gint tmp; gchar c; gchar *cur_tag; first_pos = end = sci_get_position_from_line(sci, tag_line); max_pos = sci_get_position_from_line(sci, tag_line + 1); tmp = 0; /* goto the begin of function body */ while (end < max_pos && (tmp = sci_get_char_at(sci, end)) != '{' && tmp != 0) end++; if (tmp == 0) end --; /* go back to the end of function identifier */ while (end > 0 && end > first_pos - 500 && (tmp = sci_get_char_at(sci, end)) != '(' && tmp != 0) end--; end--; if (end < 0) end = 0; /* skip whitespaces between identifier and ( */ while (end > 0 && isspace(sci_get_char_at(sci, end))) end--; start = end; c = 0; /* Use tmp to find SCE_C_IDENTIFIER or SCE_C_GLOBALCLASS chars */ while (start >= 0 && ((tmp = sci_get_style_at(sci, start)) == SCE_C_IDENTIFIER || tmp == SCE_C_GLOBALCLASS || (c = sci_get_char_at(sci, start)) == '~' || c == ':')) start--; if (start != 0 && start < end) start++; /* correct for last non-matching char */ if (start == end) return NULL; cur_tag = g_malloc(end - start + 2); sci_get_text_range(sci, start, end + 1, cur_tag); return cur_tag; } static gint get_fold_header_after(ScintillaObject *sci, gint line) { gint line_count = sci_get_line_count(sci); for (; line < line_count; line++) { if (sci_get_fold_level(sci, line) & SC_FOLDLEVELHEADERFLAG) return line; } return -1; } static gint get_current_tag_name(GeanyDocument *doc, gchar **tagname, guint tag_types) { gint line; gint parent; line = sci_get_current_line(doc->editor->sci); parent = sci_get_fold_parent(doc->editor->sci, line); /* if we're inside a fold level and we have up-to-date tags, get the function from TM */ if (parent >= 0 && doc->tm_file != NULL && doc->tm_file->tags_array != NULL && (! doc->changed || editor_prefs.autocompletion_update_freq > 0)) { const TMTag *tag = tm_get_current_tag(doc->tm_file->tags_array, parent + 1, tag_types); if (tag) { gint tag_line = tag->atts.entry.line - 1; gint last_child = line + 1; /* if it may be a false positive because we're inside a fold level not inside anything * we match, e.g. a #if in C or C++, we check we're inside the fold level that start * right after the tag we got from TM */ if (abs(tag_line - parent) > 1) { gint tag_fold = get_fold_header_after(doc->editor->sci, tag_line); if (tag_fold >= 0) last_child = scintilla_send_message(doc->editor->sci, SCI_GETLASTCHILD, tag_fold, -1); } if (line <= last_child) { if (tag->atts.entry.scope) *tagname = g_strconcat(tag->atts.entry.scope, symbols_get_context_separator(doc->file_type->id), tag->name, NULL); else *tagname = g_strdup(tag->name); return tag_line; } } } /* for the poor guy with a modified document and without real time tag parsing, we fallback * to dirty and inaccurate hand-parsing */ else if (parent >= 0 && doc->file_type != NULL && doc->file_type->id != GEANY_FILETYPES_NONE) { const gint fn_fold = get_function_fold_number(doc); gint tag_line = parent; gint fold_level = sci_get_fold_level(doc->editor->sci, tag_line); /* find the top level fold point */ while (tag_line >= 0 && (fold_level & SC_FOLDLEVELNUMBERMASK) != fn_fold) { tag_line = sci_get_fold_parent(doc->editor->sci, tag_line); fold_level = sci_get_fold_level(doc->editor->sci, tag_line); } if (tag_line >= 0) { gchar *cur_tag; if (sci_get_lexer(doc->editor->sci) == SCLEX_CPP) cur_tag = parse_cpp_function_at_line(doc->editor->sci, tag_line); else cur_tag = parse_function_at_line(doc->editor->sci, tag_line); if (cur_tag != NULL) { *tagname = cur_tag; return tag_line; } } } *tagname = g_strdup(_("unknown")); return -1; } static gint get_current_tag_name_cached(GeanyDocument *doc, const gchar **tagname, guint tag_types) { static gint tag_line = -1; static gchar *cur_tag = NULL; if (doc == NULL) /* reset current function */ { current_tag_changed(NULL, -1, -1, 0); g_free(cur_tag); cur_tag = g_strdup(_("unknown")); if (tagname != NULL) *tagname = cur_tag; tag_line = -1; } else { gint line = sci_get_current_line(doc->editor->sci); gint fold_level = sci_get_fold_level(doc->editor->sci, line); if (current_tag_changed(doc, line, fold_level, tag_types)) { g_free(cur_tag); tag_line = get_current_tag_name(doc, &cur_tag, tag_types); } *tagname = cur_tag; } return tag_line; } /* Sets *tagname to point at the current function or tag name. * If doc is NULL, reset the cached current tag data to ensure it will be reparsed on the next * call to this function. * Returns: line number of the current tag, or -1 if unknown. */ gint symbols_get_current_function(GeanyDocument *doc, const gchar **tagname) { return get_current_tag_name_cached(doc, tagname, tm_tag_function_t | tm_tag_method_t); } /* same as symbols_get_current_function() but finds class, namespaces and more */ gint symbols_get_current_scope(GeanyDocument *doc, const gchar **tagname) { guint tag_types = (tm_tag_function_t | tm_tag_method_t | tm_tag_class_t | tm_tag_struct_t | tm_tag_enum_t | tm_tag_union_t); /* Python parser reports imports as namespaces which confuses the scope detection */ if (doc && doc->file_type->lang != filetypes[GEANY_FILETYPES_PYTHON]->lang) tag_types |= tm_tag_namespace_t; return get_current_tag_name_cached(doc, tagname, tag_types); } static void on_symbol_tree_sort_clicked(GtkMenuItem *menuitem, gpointer user_data) { gint sort_mode = GPOINTER_TO_INT(user_data); GeanyDocument *doc = document_get_current(); if (ignore_callback) return; if (doc != NULL) doc->has_tags = symbols_recreate_tag_list(doc, sort_mode); } static void on_symbol_tree_menu_show(GtkWidget *widget, gpointer user_data) { GeanyDocument *doc = document_get_current(); gboolean enable; enable = doc && doc->has_tags; gtk_widget_set_sensitive(symbol_menu.sort_by_name, enable); gtk_widget_set_sensitive(symbol_menu.sort_by_appearance, enable); gtk_widget_set_sensitive(symbol_menu.expand_all, enable); gtk_widget_set_sensitive(symbol_menu.collapse_all, enable); gtk_widget_set_sensitive(symbol_menu.find_usage, enable); gtk_widget_set_sensitive(symbol_menu.find_doc_usage, enable); if (! doc) return; ignore_callback = TRUE; if (doc->priv->symbol_list_sort_mode == SYMBOLS_SORT_BY_NAME) gtk_check_menu_item_set_active(GTK_CHECK_MENU_ITEM(symbol_menu.sort_by_name), TRUE); else gtk_check_menu_item_set_active(GTK_CHECK_MENU_ITEM(symbol_menu.sort_by_appearance), TRUE); ignore_callback = FALSE; } static void on_expand_collapse(GtkWidget *widget, gpointer user_data) { gboolean expand = GPOINTER_TO_INT(user_data); GeanyDocument *doc = document_get_current(); if (! doc) return; g_return_if_fail(doc->priv->tag_tree); if (expand) gtk_tree_view_expand_all(GTK_TREE_VIEW(doc->priv->tag_tree)); else gtk_tree_view_collapse_all(GTK_TREE_VIEW(doc->priv->tag_tree)); } static void on_find_usage(GtkWidget *widget, G_GNUC_UNUSED gpointer unused) { GtkTreeIter iter; GtkTreeSelection *selection; GtkTreeModel *model; GeanyDocument *doc; TMTag *tag = NULL; doc = document_get_current(); if (!doc) return; selection = gtk_tree_view_get_selection(GTK_TREE_VIEW(doc->priv->tag_tree)); if (gtk_tree_selection_get_selected(selection, &model, &iter)) gtk_tree_model_get(model, &iter, SYMBOLS_COLUMN_TAG, &tag, -1); if (tag) { if (widget == symbol_menu.find_in_files) search_show_find_in_files_dialog_full(tag->name, NULL); else search_find_usage(tag->name, tag->name, SCFIND_WHOLEWORD | SCFIND_MATCHCASE, widget == symbol_menu.find_usage); tm_tag_unref(tag); } } static void create_taglist_popup_menu(void) { GtkWidget *item, *menu; tv.popup_taglist = menu = gtk_menu_new(); symbol_menu.expand_all = item = ui_image_menu_item_new(GTK_STOCK_ADD, _("_Expand All")); gtk_widget_show(item); gtk_container_add(GTK_CONTAINER(menu), item); g_signal_connect(item, "activate", G_CALLBACK(on_expand_collapse), GINT_TO_POINTER(TRUE)); symbol_menu.collapse_all = item = ui_image_menu_item_new(GTK_STOCK_REMOVE, _("_Collapse All")); gtk_widget_show(item); gtk_container_add(GTK_CONTAINER(menu), item); g_signal_connect(item, "activate", G_CALLBACK(on_expand_collapse), GINT_TO_POINTER(FALSE)); item = gtk_separator_menu_item_new(); gtk_widget_show(item); gtk_container_add(GTK_CONTAINER(menu), item); symbol_menu.sort_by_name = item = gtk_radio_menu_item_new_with_mnemonic(NULL, _("Sort by _Name")); gtk_widget_show(item); gtk_container_add(GTK_CONTAINER(menu), item); g_signal_connect(item, "activate", G_CALLBACK(on_symbol_tree_sort_clicked), GINT_TO_POINTER(SYMBOLS_SORT_BY_NAME)); symbol_menu.sort_by_appearance = item = gtk_radio_menu_item_new_with_mnemonic_from_widget( GTK_RADIO_MENU_ITEM(item), _("Sort by _Appearance")); gtk_widget_show(item); gtk_container_add(GTK_CONTAINER(menu), item); g_signal_connect(item, "activate", G_CALLBACK(on_symbol_tree_sort_clicked), GINT_TO_POINTER(SYMBOLS_SORT_BY_APPEARANCE)); item = gtk_separator_menu_item_new(); gtk_widget_show(item); gtk_container_add(GTK_CONTAINER(menu), item); symbol_menu.find_usage = item = ui_image_menu_item_new(GTK_STOCK_FIND, _("Find _Usage")); gtk_widget_show(item); gtk_container_add(GTK_CONTAINER(menu), item); g_signal_connect(item, "activate", G_CALLBACK(on_find_usage), symbol_menu.find_usage); symbol_menu.find_doc_usage = item = ui_image_menu_item_new(GTK_STOCK_FIND, _("Find _Document Usage")); gtk_widget_show(item); gtk_container_add(GTK_CONTAINER(menu), item); g_signal_connect(item, "activate", G_CALLBACK(on_find_usage), symbol_menu.find_doc_usage); symbol_menu.find_in_files = item = ui_image_menu_item_new(GTK_STOCK_FIND, _("Find in F_iles")); gtk_widget_show(item); gtk_container_add(GTK_CONTAINER(menu), item); g_signal_connect(item, "activate", G_CALLBACK(on_find_usage), NULL); g_signal_connect(menu, "show", G_CALLBACK(on_symbol_tree_menu_show), NULL); sidebar_add_common_menu_items(GTK_MENU(menu)); } static void on_document_save(G_GNUC_UNUSED GObject *object, GeanyDocument *doc) { gchar *f = g_build_filename(app->configdir, "ignore.tags", NULL); g_return_if_fail(NZV(doc->real_path)); if (utils_str_equal(doc->real_path, f)) load_c_ignore_tags(); g_free(f); } void symbols_init(void) { gchar *f; create_taglist_popup_menu(); f = g_build_filename(app->configdir, "ignore.tags", NULL); ui_add_config_file_menu_item(f, NULL, NULL); g_free(f); g_signal_connect(geany_object, "document-save", G_CALLBACK(on_document_save), NULL); } void symbols_finalize(void) { g_strfreev(html_entities); g_strfreev(c_tags_ignore); }