/* divelist.c */ /* this creates the UI for the dive list - * controlled through the following interfaces: * * void flush_divelist(struct dive *dive) * GtkWidget dive_list_create(void) * void dive_list_update_dives(void) * void update_dive_list_units(void) * void set_divelist_font(const char *font) * void mark_divelist_changed(int changed) * int unsaved_changes() */ #include #include #include #include #include #include "divelist.h" #include "dive.h" #include "display.h" #include "display-gtk.h" struct DiveList { GtkWidget *tree_view; GtkWidget *container_widget; GtkTreeStore *model; GtkTreeViewColumn *nr, *date, *stars, *depth, *duration, *location; GtkTreeViewColumn *temperature, *cylinder, *nitrox, *sac, *otu; int changed; }; static struct DiveList dive_list; /* * The dive list has the dive data in both string format (for showing) * and in "raw" format (for sorting purposes) */ enum { DIVE_INDEX = 0, DIVE_NR, /* int: dive->nr */ DIVE_DATE, /* time_t: dive->when */ DIVE_RATING, /* int: 0-5 stars */ DIVE_DEPTH, /* int: dive->maxdepth in mm */ DIVE_DURATION, /* int: in seconds */ DIVE_TEMPERATURE, /* int: in mkelvin */ DIVE_CYLINDER, DIVE_NITROX, /* int: dummy */ DIVE_SAC, /* int: in ml/min */ DIVE_OTU, /* int: in OTUs */ DIVE_LOCATION, /* "2nd Cathedral, Lanai" */ DIVELIST_COLUMNS }; #ifdef DEBUG_MODEL static gboolean dump_model_entry(GtkTreeModel *model, GtkTreePath *path, GtkTreeIter *iter, gpointer data) { char *location; int idx, nr, rating, depth; gtk_tree_model_get(model, iter, DIVE_INDEX, &idx, DIVE_NR, &nr, DIVE_RATING, &rating, DIVE_DEPTH, &depth, DIVE_LOCATION, &location, -1); printf("entry #%d : nr %d rating %d depth %d location %s \n", idx, nr, rating, depth, location); free(location); return FALSE; } static void dump_model(GtkListStore *store) { gtk_tree_model_foreach(GTK_TREE_MODEL(store), dump_model_entry, NULL); } #endif static GList *selected_dives; static void selection_cb(GtkTreeSelection *selection, GtkTreeModel *model) { GtkTreeIter iter; GValue value = {0, }; GtkTreePath *path; int nr_selected = gtk_tree_selection_count_selected_rows(selection); if (selected_dives) { g_list_foreach (selected_dives, (GFunc) gtk_tree_path_free, NULL); g_list_free (selected_dives); } selected_dives = gtk_tree_selection_get_selected_rows(selection, NULL); switch (nr_selected) { case 0: /* keep showing the last selected dive */ return; case 1: /* just pick that dive as selected */ amount_selected = 1; path = g_list_nth_data(selected_dives, 0); if (gtk_tree_model_get_iter(model, &iter, path)) { gtk_tree_model_get_value(model, &iter, DIVE_INDEX, &value); /* an index of -1 should mean select all dives from that day * ===> still needs to be implemented */ selected_dive = g_value_get_int(&value); repaint_dive(); } return; default: /* multiple selections - what now? At this point I * don't want to change the selected dive unless * there is exactly one dive selected; not sure this * is the most intuitive solution. * I do however want to keep around which dives have * been selected */ amount_selected = g_list_length(selected_dives); process_selected_dives(selected_dives, model); repaint_dive(); return; } } const char *star_strings[] = { ZERO_STARS, ONE_STARS, TWO_STARS, THREE_STARS, FOUR_STARS, FIVE_STARS }; static void star_data_func(GtkTreeViewColumn *col, GtkCellRenderer *renderer, GtkTreeModel *model, GtkTreeIter *iter, gpointer data) { int nr_stars, idx; char buffer[40]; gtk_tree_model_get(model, iter, DIVE_INDEX, &idx, DIVE_RATING, &nr_stars, -1); if (idx == -1) { *buffer = '\0'; } else { if (nr_stars < 0 || nr_stars > 5) nr_stars = 0; snprintf(buffer, sizeof(buffer), "%s", star_strings[nr_stars]); } g_object_set(renderer, "text", buffer, NULL); } static void date_data_func(GtkTreeViewColumn *col, GtkCellRenderer *renderer, GtkTreeModel *model, GtkTreeIter *iter, gpointer data) { int val, idx; struct tm *tm; time_t when; char buffer[40]; gtk_tree_model_get(model, iter, DIVE_INDEX, &idx, DIVE_DATE, &val, -1); /* 2038 problem */ when = val; tm = gmtime(&when); if (idx == -1) snprintf(buffer, sizeof(buffer), "%s, %s %d, %d", weekday(tm->tm_wday), monthname(tm->tm_mon), tm->tm_mday, tm->tm_year + 1900); else snprintf(buffer, sizeof(buffer), "%s, %s %d, %d %02d:%02d", weekday(tm->tm_wday), monthname(tm->tm_mon), tm->tm_mday, tm->tm_year + 1900, tm->tm_hour, tm->tm_min); g_object_set(renderer, "text", buffer, NULL); } static void depth_data_func(GtkTreeViewColumn *col, GtkCellRenderer *renderer, GtkTreeModel *model, GtkTreeIter *iter, gpointer data) { int depth, integer, frac, len, idx; char buffer[40]; gtk_tree_model_get(model, iter, DIVE_INDEX, &idx, DIVE_DEPTH, &depth, -1); if (idx == -1) { *buffer = '\0'; } else { switch (output_units.length) { case METERS: /* To tenths of meters */ depth = (depth + 49) / 100; integer = depth / 10; frac = depth % 10; if (integer < 20) break; if (frac >= 5) integer++; frac = -1; break; case FEET: integer = mm_to_feet(depth) + 0.5; frac = -1; break; default: return; } len = snprintf(buffer, sizeof(buffer), "%d", integer); if (frac >= 0) len += snprintf(buffer+len, sizeof(buffer)-len, ".%d", frac); } g_object_set(renderer, "text", buffer, NULL); } static void duration_data_func(GtkTreeViewColumn *col, GtkCellRenderer *renderer, GtkTreeModel *model, GtkTreeIter *iter, gpointer data) { unsigned int sec, idx; char buffer[16]; gtk_tree_model_get(model, iter, DIVE_INDEX, &idx, DIVE_DURATION, &sec, -1); if (idx == -1) *buffer = '\0'; else snprintf(buffer, sizeof(buffer), "%d:%02d", sec / 60, sec % 60); g_object_set(renderer, "text", buffer, NULL); } static void temperature_data_func(GtkTreeViewColumn *col, GtkCellRenderer *renderer, GtkTreeModel *model, GtkTreeIter *iter, gpointer data) { int value, idx; char buffer[80]; gtk_tree_model_get(model, iter, DIVE_INDEX, &idx, DIVE_TEMPERATURE, &value, -1); *buffer = 0; if (idx != -1 && value) { double deg; switch (output_units.temperature) { case CELSIUS: deg = mkelvin_to_C(value); break; case FAHRENHEIT: deg = mkelvin_to_F(value); break; default: return; } snprintf(buffer, sizeof(buffer), "%.1f", deg); } g_object_set(renderer, "text", buffer, NULL); } static void nr_data_func(GtkTreeViewColumn *col, GtkCellRenderer *renderer, GtkTreeModel *model, GtkTreeIter *iter, gpointer data) { int idx, nr; char buffer[40]; gtk_tree_model_get(model, iter, DIVE_INDEX, &idx, DIVE_NR, &nr, -1); if (idx == -1) *buffer = '\0'; else snprintf(buffer, sizeof(buffer), "%d", nr); g_object_set(renderer, "text", buffer, NULL); } /* * Get "maximal" dive gas for a dive. * Rules: * - Trimix trumps nitrox (highest He wins, O2 breaks ties) * - Nitrox trumps air (even if hypoxic) * These are the same rules as the inter-dive sorting rules. */ static void get_dive_gas(struct dive *dive, int *o2_p, int *he_p, int *o2low_p) { int i; int maxo2 = -1, maxhe = -1, mino2 = 1000; for (i = 0; i < MAX_CYLINDERS; i++) { cylinder_t *cyl = dive->cylinder + i; struct gasmix *mix = &cyl->gasmix; int o2 = mix->o2.permille; int he = mix->he.permille; if (cylinder_none(cyl)) continue; if (!o2) o2 = AIR_PERMILLE; if (o2 < mino2) mino2 = o2; if (he > maxhe) goto newmax; if (he < maxhe) continue; if (o2 <= maxo2) continue; newmax: maxhe = he; maxo2 = o2; } /* All air? Show/sort as "air"/zero */ if (!maxhe && maxo2 == AIR_PERMILLE && mino2 == maxo2) maxo2 = mino2 = 0; *o2_p = maxo2; *he_p = maxhe; *o2low_p = mino2; } static gint nitrox_sort_func(GtkTreeModel *model, GtkTreeIter *iter_a, GtkTreeIter *iter_b, gpointer user_data) { int index_a, index_b; struct dive *a, *b; int a_o2, b_o2; int a_he, b_he; int a_o2low, b_o2low; gtk_tree_model_get(model, iter_a, DIVE_INDEX, &index_a, -1); gtk_tree_model_get(model, iter_b, DIVE_INDEX, &index_b, -1); a = get_dive(index_a); b = get_dive(index_b); get_dive_gas(a, &a_o2, &a_he, &a_o2low); get_dive_gas(b, &b_o2, &b_he, &b_o2low); /* Sort by Helium first, O2 second */ if (a_he == b_he) { if (a_o2 == b_o2) return a_o2low - b_o2low; return a_o2 - b_o2; } return a_he - b_he; } #define UTF8_ELLIPSIS "\xE2\x80\xA6" static void nitrox_data_func(GtkTreeViewColumn *col, GtkCellRenderer *renderer, GtkTreeModel *model, GtkTreeIter *iter, gpointer data) { int index, o2, he, o2low; char buffer[80]; struct dive *dive; gtk_tree_model_get(model, iter, DIVE_INDEX, &index, -1); if (index == -1) { *buffer = '\0'; goto exit; } dive = get_dive(index); get_dive_gas(dive, &o2, &he, &o2low); o2 = (o2 + 5) / 10; he = (he + 5) / 10; o2low = (o2low + 5) / 10; if (he) snprintf(buffer, sizeof(buffer), "%d/%d", o2, he); else if (o2) if (o2 == o2low) snprintf(buffer, sizeof(buffer), "%d", o2); else snprintf(buffer, sizeof(buffer), "%d" UTF8_ELLIPSIS "%d", o2low, o2); else strcpy(buffer, "air"); exit: g_object_set(renderer, "text", buffer, NULL); } /* Render the SAC data (integer value of "ml / min") */ static void sac_data_func(GtkTreeViewColumn *col, GtkCellRenderer *renderer, GtkTreeModel *model, GtkTreeIter *iter, gpointer data) { int value, idx; const char *fmt; char buffer[16]; double sac; gtk_tree_model_get(model, iter, DIVE_INDEX, &idx, DIVE_SAC, &value, -1); if (idx == -1 || !value) { *buffer = '\0'; goto exit; } sac = value / 1000.0; switch (output_units.volume) { case LITER: fmt = "%4.1f"; break; case CUFT: fmt = "%4.2f"; sac = ml_to_cuft(sac * 1000); break; } snprintf(buffer, sizeof(buffer), fmt, sac); exit: g_object_set(renderer, "text", buffer, NULL); } /* Render the OTU data (integer value of "OTU") */ static void otu_data_func(GtkTreeViewColumn *col, GtkCellRenderer *renderer, GtkTreeModel *model, GtkTreeIter *iter, gpointer data) { int value, idx; char buffer[16]; gtk_tree_model_get(model, iter, DIVE_INDEX, &idx, DIVE_OTU, &value, -1); if (idx == -1 || !value) *buffer = '\0'; else snprintf(buffer, sizeof(buffer), "%d", value); g_object_set(renderer, "text", buffer, NULL); } /* calculate OTU for a dive */ static int calculate_otu(struct dive *dive) { int i; double otu = 0.0; for (i = 1; i < dive->samples; i++) { int t; double po2; struct sample *sample = dive->sample + i; struct sample *psample = sample - 1; t = sample->time.seconds - psample->time.seconds; int o2 = dive->cylinder[sample->cylinderindex].gasmix.o2.permille; if (!o2) o2 = AIR_PERMILLE; po2 = o2 / 1000.0 * (sample->depth.mm + 10000) / 10000.0; if (po2 >= 0.5) otu += pow(po2 - 0.5, 0.83) * t / 30.0; } return otu + 0.5; } /* * Return air usage (in liters). */ static double calculate_airuse(struct dive *dive) { double airuse = 0; int i; for (i = 0; i < MAX_CYLINDERS; i++) { pressure_t start, end; cylinder_t *cyl = dive->cylinder + i; int size = cyl->type.size.mliter; double kilo_atm; if (!size) continue; start = cyl->start.mbar ? cyl->start : cyl->sample_start; end = cyl->end.mbar ? cyl->end : cyl->sample_end; kilo_atm = (to_ATM(start) - to_ATM(end)) / 1000.0; /* Liters of air at 1 atm == milliliters at 1k atm*/ airuse += kilo_atm * size; } return airuse; } static int calculate_sac(struct dive *dive) { double airuse, pressure, sac; int duration, i; airuse = calculate_airuse(dive); if (!airuse) return 0; if (!dive->duration.seconds) return 0; /* find and eliminate long surface intervals */ duration = dive->duration.seconds; for (i = 0; i < dive->samples; i++) { if (dive->sample[i].depth.mm < 100) { /* less than 10cm */ int end = i + 1; while (end < dive->samples && dive->sample[end].depth.mm < 100) end++; /* we only want the actual surface time during a dive */ if (end < dive->samples) { end--; duration -= dive->sample[end].time.seconds - dive->sample[i].time.seconds; i = end + 1; } } } /* Mean pressure in atm: 1 atm per 10m */ pressure = 1 + (dive->meandepth.mm / 10000.0); sac = airuse / pressure * 60 / duration; /* milliliters per minute.. */ return sac * 1000; } void update_cylinder_related_info(struct dive *dive) { if (dive != NULL) { dive->sac = calculate_sac(dive); dive->otu = calculate_otu(dive); } } static void get_string(char **str, const char *s) { int len; char *n; if (!s) s = ""; len = strlen(s); if (len > 60) len = 60; n = malloc(len+1); memcpy(n, s, len); n[len] = 0; *str = n; } static void get_location(struct dive *dive, char **str) { get_string(str, dive->location); } static void get_cylinder(struct dive *dive, char **str) { get_string(str, dive->cylinder[0].type.description); } /* * Set up anything that could have changed due to editing * of dive information */ static void fill_one_dive(struct dive *dive, GtkTreeModel *model, GtkTreeIter *iter) { char *location, *cylinder; get_cylinder(dive, &cylinder); get_location(dive, &location); gtk_tree_store_set(GTK_TREE_STORE(model), iter, DIVE_NR, dive->number, DIVE_LOCATION, location, DIVE_CYLINDER, cylinder, DIVE_RATING, dive->rating, DIVE_SAC, dive->sac, DIVE_OTU, dive->otu, -1); } static gboolean set_one_dive(GtkTreeModel *model, GtkTreePath *path, GtkTreeIter *iter, gpointer data) { int idx; struct dive *dive; /* Get the dive number */ gtk_tree_model_get(model, iter, DIVE_INDEX, &idx, -1); if (idx == -1) return TRUE; dive = get_dive(idx); if (!dive) return TRUE; if (data && dive != data) return FALSE; fill_one_dive(dive, model, iter); return dive == data; } void flush_divelist(struct dive *dive) { GtkTreeModel *model = GTK_TREE_MODEL(dive_list.model); gtk_tree_model_foreach(model, set_one_dive, dive); } void set_divelist_font(const char *font) { PangoFontDescription *font_desc = pango_font_description_from_string(font); gtk_widget_modify_font(dive_list.tree_view, font_desc); pango_font_description_free(font_desc); } void update_dive_list_units(void) { const char *unit; GtkTreeModel *model = GTK_TREE_MODEL(dive_list.model); (void) get_depth_units(0, NULL, &unit); gtk_tree_view_column_set_title(dive_list.depth, unit); (void) get_temp_units(0, &unit); gtk_tree_view_column_set_title(dive_list.temperature, unit); gtk_tree_model_foreach(model, set_one_dive, NULL); } void update_dive_list_col_visibility(void) { gtk_tree_view_column_set_visible(dive_list.cylinder, visible_cols.cylinder); gtk_tree_view_column_set_visible(dive_list.temperature, visible_cols.temperature); gtk_tree_view_column_set_visible(dive_list.nitrox, visible_cols.nitrox); gtk_tree_view_column_set_visible(dive_list.sac, visible_cols.sac); gtk_tree_view_column_set_visible(dive_list.otu, visible_cols.otu); return; } static int new_day(struct dive *dive, struct dive **last_dive, time_t *tm_date) { if (!last_dive) return TRUE; if (!*last_dive) { *last_dive = dive; if (tm_date) { struct tm *tm1 = gmtime(&dive->when); tm1->tm_sec = 0; tm1->tm_min = 0; tm1->tm_hour = 0; *tm_date = mktime(tm1); } return TRUE; } else { struct dive *ldive = *last_dive; struct tm tm1, tm2; (void) gmtime_r(&dive->when, &tm1); (void) gmtime_r(&ldive->when, &tm2); if (tm1.tm_year != tm2.tm_year || tm1.tm_mon != tm2.tm_mon || tm1.tm_mday != tm2.tm_mday) { *last_dive = dive; if (tm_date) { tm1.tm_sec = 0; tm1.tm_min = 0; tm1.tm_hour = 0; *tm_date = mktime(&tm1); } return TRUE; } } return FALSE; } static void fill_dive_list(void) { int i; GtkTreeIter iter, parent_iter, *parent = NULL; GtkTreeStore *store; struct dive *last_dive = NULL; time_t dive_date; store = GTK_TREE_STORE(dive_list.model); i = dive_table.nr; while (--i >= 0) { struct dive *dive = dive_table.dives[i]; if (new_day(dive, &last_dive, &dive_date)) { gtk_tree_store_append(store, &parent_iter, NULL); parent = &parent_iter; gtk_tree_store_set(store, parent, DIVE_INDEX, -1, DIVE_NR, -1, DIVE_DATE, dive_date, DIVE_LOCATION, "", DIVE_TEMPERATURE, 0, DIVE_SAC, 0, -1); } update_cylinder_related_info(dive); gtk_tree_store_append(store, &iter, parent); gtk_tree_store_set(store, &iter, DIVE_INDEX, i, DIVE_NR, dive->number, DIVE_DATE, dive->when, DIVE_DEPTH, dive->maxdepth, DIVE_DURATION, dive->duration.seconds, DIVE_LOCATION, dive->location, DIVE_RATING, dive->rating, DIVE_TEMPERATURE, dive->watertemp.mkelvin, DIVE_SAC, 0, -1); } update_dive_list_units(); if (gtk_tree_model_get_iter_first(GTK_TREE_MODEL(dive_list.model), &iter)) { GtkTreeSelection *selection; selection = gtk_tree_view_get_selection(GTK_TREE_VIEW(dive_list.tree_view)); gtk_tree_selection_select_iter(selection, &iter); } } void dive_list_update_dives(void) { gtk_tree_store_clear(GTK_TREE_STORE(dive_list.model)); fill_dive_list(); repaint_dive(); } static struct divelist_column { const char *header; data_func_t data; sort_func_t sort; unsigned int flags; int *visible; } dl_column[] = { [DIVE_NR] = { "#", nr_data_func, NULL, ALIGN_RIGHT | UNSORTABLE }, [DIVE_DATE] = { "Date", date_data_func, NULL, ALIGN_LEFT }, [DIVE_RATING] = { UTF8_BLACKSTAR, star_data_func, NULL, ALIGN_LEFT }, [DIVE_DEPTH] = { "ft", depth_data_func, NULL, ALIGN_RIGHT }, [DIVE_DURATION] = { "min", duration_data_func, NULL, ALIGN_RIGHT }, [DIVE_TEMPERATURE] = { UTF8_DEGREE "F", temperature_data_func, NULL, ALIGN_RIGHT, &visible_cols.temperature }, [DIVE_CYLINDER] = { "Cyl", NULL, NULL, 0, &visible_cols.cylinder }, [DIVE_NITROX] = { "O" UTF8_SUBSCRIPT_2 "%", nitrox_data_func, nitrox_sort_func, 0, &visible_cols.nitrox }, [DIVE_SAC] = { "SAC", sac_data_func, NULL, 0, &visible_cols.sac }, [DIVE_OTU] = { "OTU", otu_data_func, NULL, 0, &visible_cols.otu }, [DIVE_LOCATION] = { "Location", NULL, NULL, ALIGN_LEFT }, }; static GtkTreeViewColumn *divelist_column(struct DiveList *dl, struct divelist_column *col) { int index = col - &dl_column[0]; const char *title = col->header; data_func_t data_func = col->data; sort_func_t sort_func = col->sort; unsigned int flags = col->flags; int *visible = col->visible; GtkWidget *tree_view = dl->tree_view; GtkTreeStore *model = dl->model; GtkTreeViewColumn *ret; if (visible && !*visible) flags |= INVISIBLE; ret = tree_view_column(tree_view, index, title, data_func, flags); if (sort_func) gtk_tree_sortable_set_sort_func(GTK_TREE_SORTABLE(model), index, sort_func, NULL, NULL); return ret; } /* * This is some crazy crap. The only way to get default focus seems * to be to grab focus as the widget is being shown the first time. */ static void realize_cb(GtkWidget *tree_view, gpointer userdata) { gtk_widget_grab_focus(tree_view); } static void row_activated_cb(GtkTreeView *tree_view, GtkTreePath *path, GtkTreeViewColumn *column, GtkTreeModel *model) { int index; GtkTreeIter iter; if (!gtk_tree_model_get_iter(model, &iter, path)) return; gtk_tree_model_get(model, &iter, DIVE_INDEX, &index, -1); /* an index of -1 is special for the "group by date" entries */ if (index != -1) edit_dive_info(get_dive(index)); } void add_dive_cb(GtkWidget *menuitem, gpointer data) { struct dive *dive; dive = alloc_dive(); if (add_new_dive(dive)) { record_dive(dive); report_dives(TRUE); return; } free(dive); } static void popup_divelist_menu(GtkTreeView *tree_view, GtkTreeModel *model, int button) { GtkWidget *menu, *menuitem; menu = gtk_menu_new(); menuitem = gtk_menu_item_new_with_label("Add dive"); g_signal_connect(menuitem, "activate", G_CALLBACK(add_dive_cb), model); gtk_menu_shell_append(GTK_MENU_SHELL(menu), menuitem); gtk_widget_show_all(menu); gtk_menu_popup(GTK_MENU(menu), NULL, NULL, NULL, NULL, button, gtk_get_current_event_time()); } static void popup_menu_cb(GtkTreeView *tree_view, GtkTreeModel *model) { popup_divelist_menu(tree_view, model, 0); } static gboolean button_press_cb(GtkWidget *treeview, GdkEventButton *event, GtkTreeModel *model) { /* Right-click? Bring up the menu */ if (event->type == GDK_BUTTON_PRESS && event->button == 3) { popup_divelist_menu(GTK_TREE_VIEW(treeview), model, 3); return TRUE; } return FALSE; } GtkWidget *dive_list_create(void) { GtkTreeSelection *selection; dive_list.model = gtk_tree_store_new(DIVELIST_COLUMNS, G_TYPE_INT, /* index */ G_TYPE_INT, /* nr */ G_TYPE_INT, /* Date */ G_TYPE_INT, /* Star rating */ G_TYPE_INT, /* Depth */ G_TYPE_INT, /* Duration */ G_TYPE_INT, /* Temperature */ G_TYPE_STRING, /* Cylinder */ G_TYPE_INT, /* Nitrox */ G_TYPE_INT, /* SAC */ G_TYPE_INT, /* OTU */ G_TYPE_STRING /* Location */ ); dive_list.tree_view = gtk_tree_view_new_with_model(GTK_TREE_MODEL(dive_list.model)); set_divelist_font(divelist_font); selection = gtk_tree_view_get_selection(GTK_TREE_VIEW(dive_list.tree_view)); gtk_tree_selection_set_mode(GTK_TREE_SELECTION(selection), GTK_SELECTION_MULTIPLE); gtk_widget_set_size_request(dive_list.tree_view, 200, 200); dive_list.nr = divelist_column(&dive_list, dl_column + DIVE_NR); dive_list.date = divelist_column(&dive_list, dl_column + DIVE_DATE); dive_list.stars = divelist_column(&dive_list, dl_column + DIVE_RATING); dive_list.depth = divelist_column(&dive_list, dl_column + DIVE_DEPTH); dive_list.duration = divelist_column(&dive_list, dl_column + DIVE_DURATION); dive_list.temperature = divelist_column(&dive_list, dl_column + DIVE_TEMPERATURE); dive_list.cylinder = divelist_column(&dive_list, dl_column + DIVE_CYLINDER); dive_list.nitrox = divelist_column(&dive_list, dl_column + DIVE_NITROX); dive_list.sac = divelist_column(&dive_list, dl_column + DIVE_SAC); dive_list.otu = divelist_column(&dive_list, dl_column + DIVE_OTU); dive_list.location = divelist_column(&dive_list, dl_column + DIVE_LOCATION); fill_dive_list(); g_object_set(G_OBJECT(dive_list.tree_view), "headers-visible", TRUE, "search-column", DIVE_LOCATION, "rules-hint", TRUE, NULL); g_signal_connect_after(dive_list.tree_view, "realize", G_CALLBACK(realize_cb), NULL); g_signal_connect(dive_list.tree_view, "row-activated", G_CALLBACK(row_activated_cb), dive_list.model); g_signal_connect(dive_list.tree_view, "button-press-event", G_CALLBACK(button_press_cb), dive_list.model); g_signal_connect(dive_list.tree_view, "popup-menu", G_CALLBACK(popup_menu_cb), dive_list.model); g_signal_connect(selection, "changed", G_CALLBACK(selection_cb), dive_list.model); dive_list.container_widget = gtk_scrolled_window_new(NULL, NULL); gtk_scrolled_window_set_policy(GTK_SCROLLED_WINDOW(dive_list.container_widget), GTK_POLICY_AUTOMATIC, GTK_POLICY_AUTOMATIC); gtk_container_add(GTK_CONTAINER(dive_list.container_widget), dive_list.tree_view); dive_list.changed = 0; return dive_list.container_widget; } void mark_divelist_changed(int changed) { dive_list.changed = changed; } int unsaved_changes() { return dive_list.changed; }