/* 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 #include #include "divelist.h" #include "dive.h" #include "display.h" #include "display-gtk.h" struct DiveList { GtkWidget *tree_view; GtkWidget *container_widget; GtkTreeStore *model, *listmodel, *treemodel; GtkTreeViewColumn *nr, *date, *stars, *depth, *duration, *location; GtkTreeViewColumn *temperature, *cylinder, *totalweight, *suit, *nitrox, *sac, *otu, *maxcns; int changed; }; static struct DiveList dive_list; #define MODEL(_dl) GTK_TREE_MODEL((_dl).model) #define TREEMODEL(_dl) GTK_TREE_MODEL((_dl).treemodel) #define LISTMODEL(_dl) GTK_TREE_MODEL((_dl).listmodel) #define STORE(_dl) GTK_TREE_STORE((_dl).model) #define TREESTORE(_dl) GTK_TREE_STORE((_dl).treemodel) #define LISTSTORE(_dl) GTK_TREE_STORE((_dl).listmodel) dive_trip_t *dive_trip_list; gboolean autogroup = FALSE; /* * 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, /* timestamp_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_TOTALWEIGHT, /* int: in grams */ DIVE_SUIT, /* "wet, 3mm" */ DIVE_CYLINDER, DIVE_NITROX, /* int: dummy */ DIVE_SAC, /* int: in ml/min */ DIVE_OTU, /* int: in OTUs */ DIVE_MAXCNS, /* int: in % */ DIVE_LOCATION, /* "2nd Cathedral, Lanai" */ DIVELIST_COLUMNS }; static void turn_dive_into_trip(GtkTreePath *path); static void merge_dive_into_trip_above_cb(GtkWidget *menuitem, GtkTreePath *path); #ifdef DEBUG_MODEL static gboolean dump_model_entry(GtkTreeModel *model, GtkTreePath *path, GtkTreeIter *iter, gpointer data) { char *location; int idx, nr, duration; struct dive *dive; timestamp_t when; struct tm tm; gtk_tree_model_get(model, iter, DIVE_INDEX, &idx, DIVE_NR, &nr, DIVE_DATE, &when, DIVE_DURATION, &duration, DIVE_LOCATION, &location, -1); utc_mkdate(when, &tm); printf("iter %x:%x entry #%d : nr %d @ %04d-%02d-%02d %02d:%02d:%02d duration %d location %s ", iter->stamp, iter->user_data, idx, nr, tm.tm_year+1900, tm.tm_mon+1, tm.tm_mday, tm.tm_hour, tm.tm_min, tm.tm_sec, duration, location); dive = get_dive(idx); if (dive) printf("tripflag %d\n", dive->tripflag); else printf("without matching dive\n"); free(location); return FALSE; } static void dump_model(GtkListStore *store) { gtk_tree_model_foreach(GTK_TREE_MODEL(store), dump_model_entry, NULL); printf("\n---\n\n"); } #endif #if DEBUG_SELECTION_TRACKING void dump_selection(void) { int i; struct dive *dive; printf("currently selected are %u dives:", amount_selected); for_each_dive(i, dive) { if (dive->selected) printf(" %d", i); } printf("\n"); } #endif /* when subsurface starts we want to have the last dive selected. So we simply walk to the first leaf (and skip the summary entries - which have negative DIVE_INDEX) */ static void first_leaf(GtkTreeModel *model, GtkTreeIter *iter, int *diveidx) { GtkTreeIter parent; GtkTreePath *tpath; while (*diveidx < 0) { memcpy(&parent, iter, sizeof(parent)); tpath = gtk_tree_model_get_path(model, &parent); if (!gtk_tree_model_iter_children(model, iter, &parent)) { /* we should never have a parent without child */ gtk_tree_path_free(tpath); return; } if(!gtk_tree_view_row_expanded(GTK_TREE_VIEW(dive_list.tree_view), tpath)) gtk_tree_view_expand_row(GTK_TREE_VIEW(dive_list.tree_view), tpath, FALSE); gtk_tree_path_free(tpath); gtk_tree_model_get(model, iter, DIVE_INDEX, diveidx, -1); } } static struct dive *dive_from_path(GtkTreePath *path) { GtkTreeIter iter; int idx; if (gtk_tree_model_get_iter(MODEL(dive_list), &iter, path)) { gtk_tree_model_get(MODEL(dive_list), &iter, DIVE_INDEX, &idx, -1); return get_dive(idx); } else { return NULL; } } /* make sure that if we expand a summary row that is selected, the children show up as selected, too */ void row_expanded_cb(GtkTreeView *tree_view, GtkTreeIter *iter, GtkTreePath *path, gpointer data) { GtkTreeIter child; GtkTreeModel *model = MODEL(dive_list); GtkTreeSelection *selection = gtk_tree_view_get_selection(GTK_TREE_VIEW(dive_list.tree_view)); if (!gtk_tree_model_iter_children(model, &child, iter)) return; do { int idx; struct dive *dive; gtk_tree_model_get(model, &child, DIVE_INDEX, &idx, -1); dive = get_dive(idx); if (dive->selected) gtk_tree_selection_select_iter(selection, &child); else gtk_tree_selection_unselect_iter(selection, &child); } while (gtk_tree_model_iter_next(model, &child)); } static int selected_children(GtkTreeModel *model, GtkTreeIter *iter) { GtkTreeIter child; if (!gtk_tree_model_iter_children(model, &child, iter)) return FALSE; do { int idx; struct dive *dive; gtk_tree_model_get(model, &child, DIVE_INDEX, &idx, -1); dive = get_dive(idx); if (dive->selected) return TRUE; } while (gtk_tree_model_iter_next(model, &child)); return FALSE; } /* Make sure that if we collapse a summary row with any selected children, the row shows up as selected too */ void row_collapsed_cb(GtkTreeView *tree_view, GtkTreeIter *iter, GtkTreePath *path, gpointer data) { GtkTreeModel *model = MODEL(dive_list); GtkTreeSelection *selection = gtk_tree_view_get_selection(GTK_TREE_VIEW(dive_list.tree_view)); if (selected_children(model, iter)) gtk_tree_selection_select_iter(selection, iter); } static GList *selection_changed = NULL; /* * This is called _before_ the selection is changed, for every single entry; * * We simply create a list of all changed entries, and make sure that the * group entries go at the end of the list. */ gboolean modify_selection_cb(GtkTreeSelection *selection, GtkTreeModel *model, GtkTreePath *path, gboolean was_selected, gpointer userdata) { GtkTreeIter iter, *p; if (!gtk_tree_model_get_iter(model, &iter, path)) return TRUE; /* Add the group entries to the end */ p = gtk_tree_iter_copy(&iter); if (gtk_tree_model_iter_has_child(model, p)) selection_changed = g_list_append(selection_changed, p); else selection_changed = g_list_prepend(selection_changed, p); return TRUE; } static void select_dive(struct dive *dive, int selected) { if (dive->selected != selected) { amount_selected += selected ? 1 : -1; dive->selected = selected; } } /* * This gets called when a dive group has changed selection. */ static void select_dive_group(GtkTreeModel *model, GtkTreeSelection *selection, GtkTreeIter *iter, int selected) { int first = 1; GtkTreeIter child; if (selected == selected_children(model, iter)) return; if (!gtk_tree_model_iter_children(model, &child, iter)) return; do { int idx; struct dive *dive; gtk_tree_model_get(model, &child, DIVE_INDEX, &idx, -1); if (first && selected) selected_dive = idx; first = 0; dive = get_dive(idx); if (dive->selected == selected) continue; select_dive(dive, selected); if (selected) gtk_tree_selection_select_iter(selection, &child); else gtk_tree_selection_unselect_iter(selection, &child); } while (gtk_tree_model_iter_next(model, &child)); } /* * This gets called _after_ the selections have changed, for each entry that * may have changed. Check if the gtk selection state matches our internal * selection state to verify. * * The group entries are at the end, this guarantees that we have handled * all the dives before we handle groups. */ static void check_selection_cb(GtkTreeIter *iter, GtkTreeSelection *selection) { GtkTreeModel *model = MODEL(dive_list); struct dive *dive; int idx, gtk_selected; gtk_tree_model_get(model, iter, DIVE_INDEX, &idx, -1); dive = get_dive(idx); gtk_selected = gtk_tree_selection_iter_is_selected(selection, iter); if (idx < 0) select_dive_group(model, selection, iter, gtk_selected); else { select_dive(dive, gtk_selected); if (gtk_selected) selected_dive = idx; } gtk_tree_iter_free(iter); } /* this is called when gtk thinks that the selection has changed */ static void selection_cb(GtkTreeSelection *selection, GtkTreeModel *model) { GList *changed = selection_changed; selection_changed = NULL; g_list_foreach(changed, (GFunc) check_selection_cb, selection); g_list_free(changed); #if DEBUG_SELECTION_TRACKING dump_selection(); #endif process_selected_dives(); repaint_dive(); } 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 < 0) { *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 idx, nr; struct tm tm; timestamp_t when; /* this should be enought for most languages. if not increase the value. */ char buffer[256]; gtk_tree_model_get(model, iter, DIVE_INDEX, &idx, DIVE_DATE, &when, -1); nr = gtk_tree_model_iter_n_children(model, iter); utc_mkdate(when, &tm); if (idx < 0) { snprintf(buffer, sizeof(buffer), /*++GETTEXT 60 char buffer weekday, monthname, day of month, year, nr dives */ ngettext("Trip %1$s, %2$s %3$d, %4$d (%5$d dive)", "Trip %1$s, %2$s %3$d, %4$d (%5$d dives)", nr), weekday(tm.tm_wday), monthname(tm.tm_mon), tm.tm_mday, tm.tm_year + 1900, nr); } else { snprintf(buffer, sizeof(buffer), /*++GETTEXT 60 char buffer weekday, monthname, day of month, year, hour:min */ _("%1$s, %2$s %3$d, %4$d %5$02d:%6$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 < 0) { *buffer = '\0'; } else { switch (prefs.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; int idx; char buffer[16]; gtk_tree_model_get(model, iter, DIVE_INDEX, &idx, DIVE_DURATION, &sec, -1); if (idx < 0) *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 >= 0 && value) { double deg; switch (prefs.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]; struct dive *dive; gtk_tree_model_get(model, iter, DIVE_INDEX, &idx, DIVE_NR, &nr, -1); if (idx < 0) { *buffer = '\0'; } else { /* make dives that are not in trips stand out */ dive = get_dive(idx); if (!DIVE_IN_TRIP(dive)) snprintf(buffer, sizeof(buffer), "%d", nr); else snprintf(buffer, sizeof(buffer), "%d", nr); } g_object_set(renderer, "markup", 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; } int total_weight(struct dive *dive) { int i, total_grams = 0; if (dive) for (i=0; i< MAX_WEIGHTSYSTEMS; i++) total_grams += dive->weightsystem[i].weight.grams; return total_grams; } static void weight_data_func(GtkTreeViewColumn *col, GtkCellRenderer *renderer, GtkTreeModel *model, GtkTreeIter *iter, gpointer data) { int indx, decimals; double value; char buffer[80]; struct dive *dive; gtk_tree_model_get(model, iter, DIVE_INDEX, &indx, -1); dive = get_dive(indx); value = get_weight_units(total_weight(dive), &decimals, NULL); if (value == 0.0) *buffer = '\0'; else snprintf(buffer, sizeof(buffer), "%.*f", decimals, value); g_object_set(renderer, "text", buffer, NULL); } 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 idx, o2, he, o2low; char buffer[80]; struct dive *dive; gtk_tree_model_get(model, iter, DIVE_INDEX, &idx, -1); if (idx < 0) { *buffer = '\0'; goto exit; } dive = get_dive(idx); 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 < 0 || !value) { *buffer = '\0'; goto exit; } sac = value / 1000.0; switch (prefs.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 < 0 || !value) *buffer = '\0'; else snprintf(buffer, sizeof(buffer), "%d", value); g_object_set(renderer, "text", buffer, NULL); } /* Render the CNS data (in full %) */ static void cns_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_MAXCNS, &value, -1); if (idx < 0 || !value) *buffer = '\0'; else snprintf(buffer, sizeof(buffer), "%d%%", value); g_object_set(renderer, "text", buffer, NULL); } static int active_o2(struct dive *dive, struct divecomputer *dc, duration_t time) { int o2permille = dive->cylinder[0].gasmix.o2.permille; struct event *event = dc->events; if (!o2permille) o2permille = AIR_PERMILLE; for (event = dc->events; event; event = event->next) { if (event->time.seconds > time.seconds) break; if (strcmp(event->name, "gaschange")) continue; o2permille = 10*(event->value & 0xffff); } return o2permille; } /* calculate OTU for a dive */ static int calculate_otu(struct dive *dive, struct divecomputer *dc) { int i; double otu = 0.0; for (i = 1; i < dc->samples; i++) { int t; double po2; struct sample *sample = dc->sample + i; struct sample *psample = sample - 1; t = sample->time.seconds - psample->time.seconds; if (sample->po2) { po2 = sample->po2; } else { int o2 = active_o2(dive, dc, sample->time); po2 = o2 / 1000.0 * depth_to_mbar(sample->depth.mm, dive) / 1000.0; } 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, struct divecomputer *dc) { 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 < dc->samples; i++) { if (dc->sample[i].depth.mm < 100) { /* less than 10cm */ int end = i + 1; while (end < dc->samples && dc->sample[end].depth.mm < 100) end++; /* we only want the actual surface time during a dive */ if (end < dc->samples) { end--; duration -= dc->sample[end].time.seconds - dc->sample[i].time.seconds; i = end + 1; } } } /* Mean pressure in bar (SAC calculations are in bar*l/min) */ pressure = depth_to_mbar(dive->meandepth.mm, dive) / 1000.0; sac = airuse / pressure * 60 / duration; /* milliliters per minute.. */ return sac * 1000; } /* for now we do this based on the first divecomputer */ static void add_dive_to_deco(struct dive *dive) { struct divecomputer *dc = &dive->dc; int i; if (!dc) return; for (i = 1; i < dive->dc.samples; i++) { struct sample *psample = dc->sample + i - 1; struct sample *sample = dc->sample + i; int t0 = psample->time.seconds; int t1 = sample->time.seconds; int j; for (j = t0; j < t1; j++) { int depth = 0.5 + psample->depth.mm + (j - t0) * (sample->depth.mm - psample->depth.mm) / (t1 - t0); (void) add_segment(depth_to_mbar(depth, dive) / 1000.0, &dive->cylinder[sample->sensor].gasmix, 1, sample->po2 / 1000.0, dive); } } } static struct gasmix air = { .o2.permille = 209 }; /* take into account previous dives until there is a 48h gap between dives */ double init_decompression(struct dive *dive) { int i, divenr = -1; timestamp_t when; gboolean deco_init = FALSE; double tissue_tolerance; if (!dive) return 0.0; while (++divenr < dive_table.nr && get_dive(divenr) != dive) ; when = dive->when; i = divenr; while (--i) { struct dive* pdive = get_dive(i); if (!pdive || pdive->when > when || pdive->when + pdive->duration.seconds + 48 * 60 * 60 < when) break; when = pdive->when; } while (++i < divenr) { struct dive* pdive = get_dive(i); double surface_pressure = pdive->surface_pressure.mbar ? pdive->surface_pressure.mbar / 1000.0 : 1.013; unsigned int surface_time = get_dive(i+1)->when - pdive->when - pdive->duration.seconds; if (!deco_init) { clear_deco(surface_pressure); deco_init = TRUE; #if DECO_CALC_DEBUG & 2 dump_tissues(); #endif } add_dive_to_deco(pdive); #if DECO_CALC_DEBUG & 2 printf("added dive #%d\n", pdive->number); dump_tissues(); #endif tissue_tolerance = add_segment(surface_pressure, &air, surface_time, 0.0, dive); #if DECO_CALC_DEBUG & 2 printf("after surface intervall of %d:%02u\n", FRACTION(surface_time,60)); dump_tissues(); #endif } if (!deco_init) { double surface_pressure = dive->surface_pressure.mbar ? dive->surface_pressure.mbar / 1000.0 : 1.013; clear_deco(surface_pressure); #if DECO_CALC_DEBUG & 2 printf("no previous dive\n"); dump_tissues(); #endif } return tissue_tolerance; } void update_cylinder_related_info(struct dive *dive) { if (dive != NULL) { dive->sac = calculate_sac(dive, &dive->dc); dive->otu = calculate_otu(dive, &dive->dc); } } static void get_string(char **str, const char *s) { int len; char *n; if (!s) s = ""; len = g_utf8_strlen(s, -1); if (len > 60) len = 60; n = malloc(len * sizeof(gunichar) + 1); g_utf8_strncpy(n, s, len); *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); } static void get_suit(struct dive *dive, char **str) { get_string(str, dive->suit); } /* * Set up anything that could have changed due to editing * of dive information; we need to do this for both models, * so we simply call set_one_dive again with the non-current model */ /* forward declaration for recursion */ static gboolean set_one_dive(GtkTreeModel *model, GtkTreePath *path, GtkTreeIter *iter, gpointer data); static void fill_one_dive(struct dive *dive, GtkTreeModel *model, GtkTreeIter *iter) { char *location, *cylinder, *suit; GtkTreeModel *othermodel; get_cylinder(dive, &cylinder); get_location(dive, &location); get_suit(dive, &suit); 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, DIVE_MAXCNS, dive->maxcns, DIVE_TOTALWEIGHT, total_weight(dive), DIVE_SUIT, suit, -1); free(location); free(cylinder); free(suit); if (model == TREEMODEL(dive_list)) othermodel = LISTMODEL(dive_list); else othermodel = TREEMODEL(dive_list); if (othermodel != MODEL(dive_list)) /* recursive call */ gtk_tree_model_foreach(othermodel, set_one_dive, dive); } 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 < 0) return FALSE; 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 = MODEL(dive_list); 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 = MODEL(dive_list); (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); (void) get_weight_units(0, NULL, &unit); gtk_tree_view_column_set_title(dive_list.totalweight, 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, prefs.visible_cols.cylinder); gtk_tree_view_column_set_visible(dive_list.temperature, prefs.visible_cols.temperature); gtk_tree_view_column_set_visible(dive_list.totalweight, prefs.visible_cols.totalweight); gtk_tree_view_column_set_visible(dive_list.suit, prefs.visible_cols.suit); gtk_tree_view_column_set_visible(dive_list.nitrox, prefs.visible_cols.nitrox); gtk_tree_view_column_set_visible(dive_list.sac, prefs.visible_cols.sac); gtk_tree_view_column_set_visible(dive_list.otu, prefs.visible_cols.otu); gtk_tree_view_column_set_visible(dive_list.maxcns, prefs.visible_cols.maxcns); return; } /* * helper functions for dive_trip handling */ #ifdef DEBUG_TRIP static void dump_trip_list(void) { dive_trip_t *trip; int i=0; timestamp_t last_time = 0; for (trip = dive_trip_list; trip; trip = trip->next) { struct tm tm; utc_mkdate(trip->when, &tm); if (trip->when < last_time) printf("\n\ndive_trip_list OUT OF ORDER!!!\n\n\n"); printf("%s trip %d to \"%s\" on %04u-%02u-%02u %02u:%02u:%02u (%d dives - %p)\n", trip->autogen ? "autogen " : "", ++i, trip->location, tm.tm_year + 1900, tm.tm_mon+1, tm.tm_mday, tm.tm_hour, tm.tm_min, tm.tm_sec, trip->nrdives, trip); last_time = trip->when; } printf("-----\n"); } #endif /* this finds a trip that starts at precisely the time given */ static dive_trip_t *find_trip_by_time(timestamp_t when) { dive_trip_t *trip = dive_trip_list; while (trip && trip->when < when) trip = trip->next; if (trip && trip->when == when) { #ifdef DEBUG_TRIP struct tm tm; utc_mkdate(trip->when, &tm); printf("found trip %p @ %04d-%02d-%02d %02d:%02d:%02d\n", trip, tm.tm_year+1900, tm.tm_mon+1, tm.tm_mday, tm.tm_hour, tm.tm_min, tm.tm_sec); #endif return trip; } #ifdef DEBUG_TRIP printf("no matching trip\n"); #endif return NULL; } /* this finds the last trip that at or before the time given */ static dive_trip_t *find_matching_trip(timestamp_t when) { dive_trip_t *trip = dive_trip_list; if (!trip || trip->when > when) { #ifdef DEBUG_TRIP printf("no matching trip\n"); #endif return NULL; } while (trip->next && trip->next->when <= when) trip = trip->next; #ifdef DEBUG_TRIP { struct tm tm; utc_mkdate(trip->when, &tm); printf("found trip %p @ %04d-%02d-%02d %02d:%02d:%02d\n", trip, tm.tm_year+1900, tm.tm_mon+1, tm.tm_mday, tm.tm_hour, tm.tm_min, tm.tm_sec); } #endif return trip; } /* insert the trip into the dive_trip_list - but ensure you don't have * two trips for the same date; but if you have, make sure you don't * keep the one with less information */ void insert_trip(dive_trip_t **dive_trip_p) { dive_trip_t *dive_trip = *dive_trip_p; dive_trip_t **p = &dive_trip_list; dive_trip_t *trip; struct dive *divep; /* Walk the dive trip list looking for the right location.. */ while ((trip = *p) != NULL && trip->when < dive_trip->when) p = &trip->next; if (trip && trip->when == dive_trip->when) { if (! trip->location) trip->location = dive_trip->location; if (! trip->notes) trip->notes = dive_trip->notes; divep = dive_trip->dives; while (divep) { add_dive_to_trip(divep, trip); divep = divep->next; } *dive_trip_p = trip; } else { dive_trip->next = trip; *p = dive_trip; } #ifdef DEBUG_TRIP dump_trip_list(); #endif } static void delete_trip(dive_trip_t *trip) { dive_trip_t **p, *tmp; assert(!trip->dives); /* Remove the trip from the list of trips */ p = &dive_trip_list; while ((tmp = *p) != NULL) { if (tmp == trip) { *p = trip->next; break; } p = &tmp->next; } /* .. and free it */ if (trip->location) free(trip->location); if (trip->notes) free(trip->notes); free(trip); } static void find_new_trip_start_time(dive_trip_t *trip) { struct dive *dive = trip->dives; timestamp_t when = dive->when; while ((dive = dive->next) != NULL) { if (dive->when < when) when = dive->when; } trip->when = when; } void remove_dive_from_trip(struct dive *dive) { struct dive *next, **pprev; dive_trip_t *trip = dive->divetrip; if (!trip) return; /* Remove the dive from the trip's list of dives */ next = dive->next; pprev = dive->pprev; *pprev = next; if (next) next->pprev = pprev; dive->divetrip = NULL; dive->tripflag = TF_NONE; assert(trip->nrdives > 0); if (!--trip->nrdives) delete_trip(trip); else if (trip->when == dive->when) find_new_trip_start_time(trip); } void add_dive_to_trip(struct dive *dive, dive_trip_t *trip) { if (dive->divetrip == trip) return; assert(trip->when); remove_dive_from_trip(dive); trip->nrdives++; dive->divetrip = trip; dive->tripflag = ASSIGNED_TRIP; /* Add it to the trip's list of dives*/ dive->next = trip->dives; if (dive->next) dive->next->pprev = &dive->next; trip->dives = dive; dive->pprev = &trip->dives; if (dive->when && trip->when > dive->when) trip->when = dive->when; } static dive_trip_t *create_and_hookup_trip_from_dive(struct dive *dive) { dive_trip_t *dive_trip = calloc(sizeof(dive_trip_t),1); dive_trip->when = dive->when; if (dive->location) dive_trip->location = strdup(dive->location); insert_trip(&dive_trip); dive->tripflag = IN_TRIP; add_dive_to_trip(dive, dive_trip); return dive_trip; } /* * Walk the dives from the oldest dive, and see if we can autogroup them */ static void autogroup_dives(void) { int i; struct dive *dive, *lastdive = NULL; for_each_dive(i, dive) { dive_trip_t *trip; if (dive->divetrip) { lastdive = dive; continue; } if (!DIVE_NEEDS_TRIP(dive)) { lastdive = NULL; continue; } /* Do we have a trip we can combine this into? */ if (lastdive && dive->when < lastdive->when + TRIP_THRESHOLD) { dive_trip_t *trip = lastdive->divetrip; add_dive_to_trip(dive, trip); if (dive->location && !trip->location) trip->location = strdup(dive->location); lastdive = dive; continue; } lastdive = dive; trip = create_and_hookup_trip_from_dive(dive); trip->autogen = 1; } #ifdef DEBUG_TRIP dump_trip_list(); #endif } static void clear_trip_indexes(void) { dive_trip_t *trip; for (trip = dive_trip_list; trip != NULL; trip = trip->next) trip->index = 0; } void select_last_dive(void) { GtkTreeSelection *selection; GtkTreeIter iter; struct dive *dive; int i; /* select the last dive (and make sure it's an actual dive that is selected) */ /* WARNING - this only works when sorted by date!!! * * * */ gtk_tree_model_get_iter_first(MODEL(dive_list), &iter); selection = gtk_tree_view_get_selection(GTK_TREE_VIEW(dive_list.tree_view)); gtk_tree_selection_unselect_all(selection); for_each_dive(i, dive) dive->selected = FALSE; amount_selected = 0; gtk_tree_model_get(MODEL(dive_list), &iter, DIVE_INDEX, &selected_dive, -1); first_leaf(MODEL(dive_list), &iter, &selected_dive); gtk_tree_selection_select_iter(selection, &iter); } static void fill_dive_list(void) { int i, trip_index = 0; GtkTreeIter iter, parent_iter, lookup, *parent_ptr = NULL; GtkTreeStore *liststore, *treestore; /* Do we need to create any dive groups automatically? */ if (autogroup) autogroup_dives(); treestore = TREESTORE(dive_list); liststore = LISTSTORE(dive_list); clear_trip_indexes(); i = dive_table.nr; while (--i >= 0) { struct dive *dive = get_dive(i); dive_trip_t *trip = dive->divetrip; if (!trip) { parent_ptr = NULL; } else if (!trip->index) { trip->index = ++trip_index; /* Create new trip entry */ gtk_tree_store_append(treestore, &parent_iter, NULL); parent_ptr = &parent_iter; /* a duration of 0 (and negative index) identifies a group */ gtk_tree_store_set(treestore, parent_ptr, DIVE_INDEX, -trip_index, DIVE_DATE, trip->when, DIVE_LOCATION, trip->location, DIVE_DURATION, 0, -1); } else { int idx, ok; GtkTreeModel *model = TREEMODEL(dive_list); parent_ptr = NULL; ok = gtk_tree_model_get_iter_first(model, &lookup); while (ok) { gtk_tree_model_get(model, &lookup, DIVE_INDEX, &idx, -1); if (idx == -trip->index) { parent_ptr = &lookup; break; } ok = gtk_tree_model_iter_next(model, &lookup); } } /* store dive */ update_cylinder_related_info(dive); gtk_tree_store_append(treestore, &iter, parent_ptr); gtk_tree_store_set(treestore, &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); gtk_tree_store_append(liststore, &iter, NULL); gtk_tree_store_set(liststore, &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_TOTALWEIGHT, 0, DIVE_SUIT, dive->suit, DIVE_SAC, 0, -1); } update_dive_list_units(); if (amount_selected == 0 && gtk_tree_model_get_iter_first(MODEL(dive_list), &iter)) { GtkTreeSelection *selection; /* select the last dive (and make sure it's an actual dive that is selected) */ gtk_tree_model_get(MODEL(dive_list), &iter, DIVE_INDEX, &selected_dive, -1); first_leaf(MODEL(dive_list), &iter, &selected_dive); 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(TREESTORE(dive_list)); gtk_tree_store_clear(LISTSTORE(dive_list)); fill_dive_list(); repaint_dive(); } static gint dive_nr_sort(GtkTreeModel *model, GtkTreeIter *iter_a, GtkTreeIter *iter_b, gpointer user_data) { int idx_a, idx_b; timestamp_t when_a, when_b; struct dive *a, *b; dive_trip_t *tripa,*tripb; gtk_tree_model_get(model, iter_a, DIVE_INDEX, &idx_a, DIVE_DATE, &when_a, -1); gtk_tree_model_get(model, iter_b, DIVE_INDEX, &idx_b, DIVE_DATE, &when_b, -1); if (idx_a < 0) { a = NULL; tripa = find_trip_by_time(when_a); } else { a = get_dive(idx_a); if (a) tripa = a->divetrip; } if (idx_b < 0) { b = NULL; tripb = find_trip_by_time(when_b); } else { b = get_dive(idx_b); if (b) tripb = b->divetrip; } /* * Compare dive dates within the same trip (or when there * are no trips involved at all). But if we have two * different trips use the trip dates for comparison */ if (tripa != tripb) { if (tripa) when_a = tripa->when; if (tripb) when_b = tripb->when; } return when_a - when_b; } 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, dive_nr_sort, ALIGN_RIGHT }, [DIVE_DATE] = { N_("Date"), date_data_func, NULL, ALIGN_LEFT }, [DIVE_RATING] = { UTF8_BLACKSTAR, star_data_func, NULL, ALIGN_LEFT }, [DIVE_DEPTH] = { N_("ft"), depth_data_func, NULL, ALIGN_RIGHT }, [DIVE_DURATION] = { N_("min"), duration_data_func, NULL, ALIGN_RIGHT }, [DIVE_TEMPERATURE] = { UTF8_DEGREE "F", temperature_data_func, NULL, ALIGN_RIGHT, &prefs.visible_cols.temperature }, [DIVE_TOTALWEIGHT] = { N_("lbs"), weight_data_func, NULL, ALIGN_RIGHT, &prefs.visible_cols.totalweight }, [DIVE_SUIT] = { N_("Suit"), NULL, NULL, ALIGN_LEFT, &prefs.visible_cols.suit }, [DIVE_CYLINDER] = { N_("Cyl"), NULL, NULL, 0, &prefs.visible_cols.cylinder }, [DIVE_NITROX] = { "O" UTF8_SUBSCRIPT_2 "%", nitrox_data_func, nitrox_sort_func, 0, &prefs.visible_cols.nitrox }, [DIVE_SAC] = { N_("SAC"), sac_data_func, NULL, 0, &prefs.visible_cols.sac }, [DIVE_OTU] = { N_("OTU"), otu_data_func, NULL, 0, &prefs.visible_cols.otu }, [DIVE_MAXCNS] = { N_("maxCNS"), cns_data_func, NULL, 0, &prefs.visible_cols.maxcns }, [DIVE_LOCATION] = { N_("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 *treemodel = dl->treemodel; GtkTreeStore *listmodel = dl->listmodel; GtkTreeViewColumn *ret; if (visible && !*visible) flags |= INVISIBLE; ret = tree_view_column(tree_view, index, title, data_func, flags); if (sort_func) { /* the sort functions are needed in the corresponding models */ if (index == DIVE_NR) gtk_tree_sortable_set_sort_func(GTK_TREE_SORTABLE(treemodel), index, sort_func, NULL, NULL); else gtk_tree_sortable_set_sort_func(GTK_TREE_SORTABLE(listmodel), 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); } /* * Double-clicking on a group entry will expand a collapsed group * and vice versa. */ static void collapse_expand(GtkTreeView *tree_view, GtkTreePath *path) { if (!gtk_tree_view_row_expanded(tree_view, path)) gtk_tree_view_expand_row(tree_view, path, FALSE); else gtk_tree_view_collapse_row(tree_view, path); } /* Double-click on a dive list */ static void row_activated_cb(GtkTreeView *tree_view, GtkTreePath *path, GtkTreeViewColumn *column, gpointer userdata) { int index; GtkTreeIter iter; if (!gtk_tree_model_get_iter(MODEL(dive_list), &iter, path)) return; gtk_tree_model_get(MODEL(dive_list), &iter, DIVE_INDEX, &index, -1); /* a negative index is special for the "group by date" entries */ if (index < 0) { collapse_expand(tree_view, path); return; } edit_dive_info(get_dive(index), FALSE); } 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, FALSE); return; } free(dive); } void edit_trip_cb(GtkWidget *menuitem, GtkTreePath *path) { GtkTreeIter iter; timestamp_t when; dive_trip_t *dive_trip; gtk_tree_model_get_iter(MODEL(dive_list), &iter, path); gtk_tree_model_get(MODEL(dive_list), &iter, DIVE_DATE, &when, -1); dive_trip = find_trip_by_time(when); if (edit_trip(dive_trip)) gtk_tree_store_set(STORE(dive_list), &iter, DIVE_LOCATION, dive_trip->location, -1); } void edit_selected_dives_cb(GtkWidget *menuitem, gpointer data) { edit_multi_dive_info(NULL); } void edit_dive_from_path_cb(GtkWidget *menuitem, GtkTreePath *path) { struct dive *dive = dive_from_path(path); edit_multi_dive_info(dive); } void edit_dive_when_cb(GtkWidget *menuitem, struct dive *dive) { GtkWidget *dialog, *cal, *h, *m; timestamp_t when; guint yval, mval, dval; int success; struct tm tm; if (!dive) return; when = dive->when; utc_mkdate(when, &tm); dialog = create_date_time_widget(&tm, &cal, &h, &m); gtk_widget_show_all(dialog); success = gtk_dialog_run(GTK_DIALOG(dialog)) == GTK_RESPONSE_ACCEPT; if (!success) { gtk_widget_destroy(dialog); return; } memset(&tm, 0, sizeof(tm)); gtk_calendar_get_date(GTK_CALENDAR(cal), &yval, &mval, &dval); tm.tm_year = yval; tm.tm_mon = mval; tm.tm_mday = dval; tm.tm_hour = gtk_spin_button_get_value(GTK_SPIN_BUTTON(h)); tm.tm_min = gtk_spin_button_get_value(GTK_SPIN_BUTTON(m)); gtk_widget_destroy(dialog); when = utc_mktime(&tm); if (dive->when != when) { /* if this is the only dive in the trip, just change the trip time */ if (dive->divetrip && dive->divetrip->nrdives == 1) dive->divetrip->when = when; /* if this is suddenly before the start of the trip, remove it from the trip */ else if (dive->divetrip && dive->divetrip->when > when) remove_dive_from_trip(dive); else if (find_matching_trip(when) != dive->divetrip) remove_dive_from_trip(dive); dive->when = when; mark_divelist_changed(TRUE); remember_tree_state(); report_dives(FALSE, FALSE); dive_list_update_dives(); restore_tree_state(); } } static void expand_all_cb(GtkWidget *menuitem, GtkTreeView *tree_view) { gtk_tree_view_expand_all(tree_view); } static void collapse_all_cb(GtkWidget *menuitem, GtkTreeView *tree_view) { gtk_tree_view_collapse_all(tree_view); } /* copy the node and return the index */ static int copy_tree_node(GtkTreeIter *a, GtkTreeIter *b) { struct dive store_dive; int totalweight, idx; char *cylinder_text; gtk_tree_model_get(MODEL(dive_list), a, DIVE_INDEX, &idx, DIVE_NR, &store_dive.number, DIVE_DATE, &store_dive.when, DIVE_RATING, &store_dive.rating, DIVE_DEPTH, &store_dive.maxdepth, DIVE_DURATION, &store_dive.duration, DIVE_TEMPERATURE, &store_dive.watertemp.mkelvin, DIVE_TOTALWEIGHT, &totalweight, DIVE_SUIT, &store_dive.suit, DIVE_CYLINDER, &cylinder_text, DIVE_SAC, &store_dive.sac, DIVE_OTU, &store_dive.otu, DIVE_MAXCNS, &store_dive.maxcns, DIVE_LOCATION, &store_dive.location, -1); gtk_tree_store_set(STORE(dive_list), b, DIVE_INDEX, idx, DIVE_NR, store_dive.number, DIVE_DATE, store_dive.when, DIVE_RATING, store_dive.rating, DIVE_DEPTH, store_dive.maxdepth, DIVE_DURATION, store_dive.duration, DIVE_TEMPERATURE, store_dive.watertemp.mkelvin, DIVE_TOTALWEIGHT, totalweight, DIVE_SUIT, store_dive.suit, DIVE_CYLINDER, cylinder_text, DIVE_SAC, store_dive.sac, DIVE_OTU, store_dive.otu, DIVE_MAXCNS, store_dive.maxcns, DIVE_LOCATION, store_dive.location, -1); free(cylinder_text); free(store_dive.location); free(store_dive.suit); return idx; } /* to avoid complicated special cases based on ordering or number of children, we always take the first and last child and pick the smaller timestamp_t (which works regardless of ordering and also with just one child) */ static void update_trip_timestamp(GtkTreeIter *parent, dive_trip_t *divetrip) { GtkTreeIter first_child, last_child; int nr; timestamp_t t1, t2, tnew; if (gtk_tree_store_iter_depth(STORE(dive_list), parent) != 0 || gtk_tree_model_iter_n_children(MODEL(dive_list), parent) == 0) return; nr = gtk_tree_model_iter_n_children(MODEL(dive_list), parent); gtk_tree_model_iter_nth_child(MODEL(dive_list), &first_child, parent, 0); gtk_tree_model_get(MODEL(dive_list), &first_child, DIVE_DATE, &t1, -1); gtk_tree_model_iter_nth_child(MODEL(dive_list), &last_child, parent, nr - 1); gtk_tree_model_get(MODEL(dive_list), &last_child, DIVE_DATE, &t2, -1); tnew = MIN(t1, t2); gtk_tree_store_set(STORE(dive_list), parent, DIVE_DATE, tnew, -1); if (divetrip) divetrip->when = tnew; } /* move dive_iter, which is a child of old_trip (could be NULL) to new_trip (could be NULL); * either of the trips being NULL means that this was (or will be) a dive without a trip; * update the dive trips (especially the starting times) accordingly * maintain the selected status of the dive * IMPORTANT - the move needs to keep the tree consistant - so no out of order moving... */ static GtkTreeIter *move_dive_between_trips(GtkTreeIter *dive_iter, GtkTreeIter *old_trip, GtkTreeIter *new_trip, GtkTreeIter *sibling, gboolean before) { int idx; timestamp_t old_when, new_when; struct dive *dive; dive_trip_t *old_divetrip, *new_divetrip; GtkTreeIter *new_iter = malloc(sizeof(GtkTreeIter)); if (before) gtk_tree_store_insert_before(STORE(dive_list), new_iter, new_trip, sibling); else gtk_tree_store_insert_after(STORE(dive_list), new_iter, new_trip, sibling); idx = copy_tree_node(dive_iter, new_iter); gtk_tree_model_get(MODEL(dive_list), new_iter, DIVE_INDEX, &idx, -1); dive = get_dive(idx); gtk_tree_store_remove(STORE(dive_list), dive_iter); if (old_trip) { gtk_tree_model_get(MODEL(dive_list), old_trip, DIVE_DATE, &old_when, -1); old_divetrip = find_matching_trip(old_when); update_trip_timestamp(old_trip, old_divetrip); } if (new_trip) { gtk_tree_model_get(MODEL(dive_list), new_trip, DIVE_DATE, &new_when, -1); new_divetrip = dive->divetrip; update_trip_timestamp(new_trip, new_divetrip); } if (dive->selected) { GtkTreeSelection *selection = gtk_tree_view_get_selection(GTK_TREE_VIEW(dive_list.tree_view)); gtk_tree_selection_select_iter(selection, new_iter); } return new_iter; } /* this gets called when we are on a top level dive and we know that the previous * top level node is a trip; if multiple consecutive dives are selected, they are * all merged into the previous trip*/ static void merge_dive_into_trip_above_cb(GtkWidget *menuitem, GtkTreePath *path) { int idx; GtkTreeIter dive_iter, trip_iter, prev_iter; GtkTreePath *trip_path; struct dive *dive, *prev_dive; /* get the path and iter for the trip and the last dive of that trip */ trip_path = gtk_tree_path_copy(path); (void)gtk_tree_path_prev(trip_path); gtk_tree_model_get_iter(MODEL(dive_list), &trip_iter, trip_path); gtk_tree_model_get_iter(MODEL(dive_list), &dive_iter, path); gtk_tree_model_iter_nth_child(MODEL(dive_list), &prev_iter, &trip_iter, gtk_tree_model_iter_n_children(MODEL(dive_list), &trip_iter) - 1); gtk_tree_model_get(MODEL(dive_list), &dive_iter, DIVE_INDEX, &idx, -1); dive = get_dive(idx); gtk_tree_model_get(MODEL(dive_list), &prev_iter, DIVE_INDEX, &idx, -1); prev_dive = get_dive(idx); /* add the dive to the trip */ for (;;) { add_dive_to_trip(dive, prev_dive->divetrip); /* we intentionally changed the dive_trip, so update the time * stamp that we fall back to when toggling autogroup */ dive->tripflag = IN_TRIP; free(move_dive_between_trips(&dive_iter, NULL, &trip_iter, NULL, TRUE)); prev_dive = dive; /* by merging the dive into the trip above the path now points to the next top level entry. If that iter exists, it's also a dive and both this dive and that next dive are selected, continue merging dives into the trip */ if (!gtk_tree_model_get_iter(MODEL(dive_list), &dive_iter, path)) break; gtk_tree_model_get(MODEL(dive_list), &dive_iter, DIVE_INDEX, &idx, -1); if (idx < 0) break; dive = get_dive(idx); if (!dive->selected || !prev_dive->selected) break; } mark_divelist_changed(TRUE); } static void turn_dive_into_trip(GtkTreePath *path) { GtkTreeIter iter, *newiter, newparent; GtkTreePath *treepath; timestamp_t when; char *location; int idx; struct dive *dive; /* this is a dive on the top level, insert trip AFTER it, populate its date / location, and * then move the dive below that trip */ gtk_tree_model_get_iter(MODEL(dive_list), &iter, path); gtk_tree_store_insert_after(STORE(dive_list), &newparent, NULL, &iter); gtk_tree_model_get(MODEL(dive_list), &iter, DIVE_INDEX, &idx, DIVE_DATE, &when, DIVE_LOCATION, &location, -1); gtk_tree_store_set(STORE(dive_list), &newparent, DIVE_INDEX, -1, DIVE_DATE, when, DIVE_LOCATION, location, -1); free(location); newiter = move_dive_between_trips(&iter, NULL, &newparent, NULL, FALSE); treepath = gtk_tree_model_get_path(MODEL(dive_list), newiter); gtk_tree_view_expand_to_path(GTK_TREE_VIEW(dive_list.tree_view), treepath); gtk_tree_path_free(treepath); dive = get_dive(idx); create_and_hookup_trip_from_dive(dive); free(newiter); } /* we know that path is pointing at a dive in a trip and are asked to split this trip into two */ static void insert_trip_before(GtkTreePath *path) { GtkTreeIter iter, prev_iter, parent, newparent, nextsibling; GtkTreePath *treepath, *prev_path; struct dive *dive, *prev_dive; dive_trip_t *new_divetrip; int idx, nr, i; gtk_tree_model_get_iter(MODEL(dive_list), &iter, path); prev_path = gtk_tree_path_copy(path); if (!gtk_tree_path_prev(prev_path) || !gtk_tree_model_iter_parent(MODEL(dive_list), &parent, &iter)) return; gtk_tree_model_get_iter(MODEL(dive_list), &prev_iter, prev_path); gtk_tree_model_get(MODEL(dive_list), &prev_iter, DIVE_INDEX, &idx, -1); prev_dive = get_dive(idx); gtk_tree_store_insert_after(STORE(dive_list), &newparent, NULL, &parent); copy_tree_node(&parent, &newparent); gtk_tree_model_get(MODEL(dive_list), &iter, DIVE_INDEX, &idx, -1); dive = get_dive(idx); /* make sure that the timestamp_t of the previous divetrip is correct before * inserting a new one */ if (dive->when < prev_dive->when) if (prev_dive->divetrip && prev_dive->divetrip->when < prev_dive->when) prev_dive->divetrip->when = prev_dive->when; new_divetrip = create_and_hookup_trip_from_dive(dive); /* in order for the data structures to stay consistent we need to walk from * the last child backwards to this one. The easiest way seems to be to do * this with the nth iterator API */ nr = gtk_tree_model_iter_n_children(MODEL(dive_list), &parent); for (i = nr - 1; i >= 0; i--) { gtk_tree_model_iter_nth_child(MODEL(dive_list), &nextsibling, &parent, i); treepath = gtk_tree_model_get_path(MODEL(dive_list), &nextsibling); gtk_tree_model_get(MODEL(dive_list), &nextsibling, DIVE_INDEX, &idx, -1); dive = get_dive(idx); add_dive_to_trip(dive, new_divetrip); free(move_dive_between_trips(&nextsibling, &parent, &newparent, NULL, FALSE)); if (gtk_tree_path_compare(path, treepath) == 0) { /* we copied the dive we were called with; we are done */ gtk_tree_path_free(treepath); break; } gtk_tree_path_free(treepath); } /* treat this divetrip as if it had been read from a file */ treepath = gtk_tree_model_get_path(MODEL(dive_list), &newparent); gtk_tree_view_expand_to_path(GTK_TREE_VIEW(dive_list.tree_view), treepath); gtk_tree_path_free(treepath); #ifdef DEBUG_TRIP dump_trip_list(); #endif } static void insert_trip_before_cb(GtkWidget *menuitem, GtkTreePath *path) { /* is this splitting a trip or turning a dive into a trip? */ if (gtk_tree_path_get_depth(path) == 2) { insert_trip_before(path); } else { /* this is a top level dive */ struct dive *dive, *next_dive; GtkTreePath *next_path; dive = dive_from_path(path); if (dive->selected) { next_path = gtk_tree_path_copy(path); for (;;) { /* let's find the first dive in a block of selected dives */ if (gtk_tree_path_prev(next_path)) { next_dive = dive_from_path(next_path); if (next_dive && next_dive->selected) { path = gtk_tree_path_copy(next_path); continue; } } break; } } /* now path points at the first selected dive in a consecutive block */ turn_dive_into_trip(path); /* if the dive was selected and the next dive was selected, too, * then all of them should be part of the new trip */ if (dive->selected) { next_path = gtk_tree_path_copy(path); gtk_tree_path_next(next_path); next_dive = dive_from_path(next_path); if (next_dive && next_dive->selected) merge_dive_into_trip_above_cb(menuitem, next_path); } } mark_divelist_changed(TRUE); } static void remove_from_trip(GtkTreePath *path) { GtkTreeIter iter, nextiter, *newiter, parent; GtkTreePath *nextpath; struct dive *dive; int idx; gtk_tree_model_get_iter(MODEL(dive_list), &iter, path); if (!gtk_tree_model_iter_parent(MODEL(dive_list), &parent, &iter)) return; /* if this isn't the last dive in a trip we simply split the trip in two right after this dive */ nextpath = gtk_tree_path_copy(path); gtk_tree_path_next(nextpath); if (gtk_tree_model_get_iter(MODEL(dive_list), &nextiter, nextpath)) insert_trip_before(nextpath); /* now move the dive to the top level, as sibling after its former parent */ newiter = move_dive_between_trips(&iter, &parent, NULL, &parent, FALSE); gtk_tree_model_get(MODEL(dive_list), newiter, DIVE_INDEX, &idx, -1); dive = get_dive(idx); if (dive->selected) { GtkTreeSelection *selection = gtk_tree_view_get_selection(GTK_TREE_VIEW(dive_list.tree_view)); gtk_tree_selection_select_iter(selection, newiter); } /* if this was the last dive on the trip, remove the trip */ if (! gtk_tree_model_iter_has_child(MODEL(dive_list), &parent)) { gtk_tree_store_remove(STORE(dive_list), &parent); } /* mark the dive as intentionally at the top level */ dive->tripflag = NO_TRIP; remove_dive_from_trip(dive); #ifdef DEBUG_TRIP dump_trip_list(); #endif free(newiter); } static void remove_rowref_from_trip(gpointer data, gpointer user_data) { GtkTreeRowReference *rowref = data; GtkTreePath *path = gtk_tree_row_reference_get_path(rowref); if (path) remove_from_trip(path); } static gboolean add_rowref_if_selected(GtkTreeModel *model, GtkTreePath *path, GtkTreeIter *iter, gpointer data) { GList **rowref_list = data; int idx; struct dive *dive; gtk_tree_model_get(MODEL(dive_list), iter, DIVE_INDEX, &idx, -1); if (idx >=0 ) { dive = get_dive(idx); if (dive->selected) { /* we need to store the Row References as those stay valid across modifications of the model */ GtkTreeRowReference *rowref; rowref = gtk_tree_row_reference_new(TREEMODEL(dive_list), path); *rowref_list = g_list_append(*rowref_list, rowref); } } return FALSE; /* continue foreach loop */ } static void remove_from_trip_cb(GtkWidget *menuitem, GtkTreePath *path) { GtkTreeIter iter, parent; struct dive *dive; int idx; gtk_tree_model_get_iter(MODEL(dive_list), &iter, path); if (!gtk_tree_model_iter_parent(MODEL(dive_list), &parent, &iter)) return; gtk_tree_model_get(MODEL(dive_list), &iter, DIVE_INDEX, &idx, -1); if (idx < 0 ) return; dive = get_dive(idx); if (dive->selected) { /* remove all the selected dives since removing the dives from trips changes the model we need to take the extra step of acquiring rowrefs before actually moving dives */ GList *rowref_list = NULL; gtk_tree_model_foreach(MODEL(dive_list), add_rowref_if_selected, &rowref_list); /* We need to walk that list backwards as otherwise the newly insered trips below dives that were removed also mess with the validity */ rowref_list = g_list_reverse(rowref_list); g_list_foreach(rowref_list, remove_rowref_from_trip, NULL); } else { /* just remove the dive the mouse pointer is on */ remove_from_trip(path); } mark_divelist_changed(TRUE); } void remove_trip(GtkTreePath *trippath, gboolean force_no_trip) { GtkTreeIter newiter, parent, child, *lastiter = &parent; struct dive *dive; int idx; GtkTreePath *childpath; GtkTreeSelection *selection = gtk_tree_view_get_selection(GTK_TREE_VIEW(dive_list.tree_view)); /* what a pain - we can't just move the nodes, we have to * create new ones and delete the existing ones instead */ gtk_tree_model_get_iter(MODEL(dive_list), &parent, trippath); childpath = gtk_tree_path_copy(trippath); gtk_tree_path_down(childpath); for (;;) { if( ! gtk_tree_model_get_iter(MODEL(dive_list), &child, childpath)) break; gtk_tree_store_insert_after(STORE(dive_list), &newiter, NULL, lastiter); copy_tree_node(&child, &newiter); /* we need to track what was selected */ gtk_tree_model_get(MODEL(dive_list), &child, DIVE_INDEX, &idx, -1); dive = get_dive(idx); if (dive->selected) gtk_tree_selection_select_iter(selection, &newiter); if (force_no_trip) dive->tripflag = NO_TRIP; else dive->tripflag = TF_NONE; remove_dive_from_trip(dive); /* this removes the child - now childpath points to the next child */ gtk_tree_store_remove(STORE(dive_list), &child); lastiter = &newiter; } /* finally, remove the trip */ gtk_tree_store_remove(STORE(dive_list), &parent); #ifdef DEBUG_TRIP dump_trip_list(); #endif } void remove_trip_cb(GtkWidget *menuitem, GtkTreePath *trippath) { int success; GtkWidget *dialog; dialog = gtk_dialog_new_with_buttons(_("Remove Trip"), GTK_WINDOW(main_window), GTK_DIALOG_DESTROY_WITH_PARENT, GTK_STOCK_OK, GTK_RESPONSE_ACCEPT, GTK_STOCK_CANCEL, GTK_RESPONSE_REJECT, NULL); gtk_widget_show_all(dialog); success = gtk_dialog_run(GTK_DIALOG(dialog)) == GTK_RESPONSE_ACCEPT; gtk_widget_destroy(dialog); if (!success) return; remove_trip(trippath, TRUE); mark_divelist_changed(TRUE); } void merge_trips_cb(GtkWidget *menuitem, GtkTreePath *trippath) { GtkTreePath *prevpath; GtkTreeIter thistripiter, prevtripiter; GtkTreeModel *tm = MODEL(dive_list); dive_trip_t *thistrip, *prevtrip; timestamp_t when; /* this only gets called when we are on a trip and there is another trip right before */ prevpath = gtk_tree_path_copy(trippath); gtk_tree_path_prev(prevpath); gtk_tree_model_get_iter(tm, &thistripiter, trippath); gtk_tree_model_get(tm, &thistripiter, DIVE_DATE, &when, -1); thistrip = find_matching_trip(when); gtk_tree_model_get_iter(tm, &prevtripiter, prevpath); gtk_tree_model_get(tm, &prevtripiter, DIVE_DATE, &when, -1); prevtrip = find_matching_trip(when); remember_tree_state(); /* move dives from trip */ assert(thistrip != prevtrip); while (thistrip->dives) add_dive_to_trip(thistrip->dives, prevtrip); dive_list_update_dives(); restore_tree_state(); mark_divelist_changed(TRUE); } /* this implements the mechanics of removing the dive from the table, * but doesn't deal with updating dive trips, etc */ void delete_single_dive(int idx) { int i; struct dive *dive = get_dive(idx); if (!dive) return; /* this should never happen */ remove_dive_from_trip(dive); for (i = idx; i < dive_table.nr - 1; i++) dive_table.dives[i] = dive_table.dives[i+1]; dive_table.nr--; if (dive->selected) amount_selected--; /* free all allocations */ free(dive->dc.sample); if (dive->location) free((void *)dive->location); if (dive->notes) free((void *)dive->notes); if (dive->divemaster) free((void *)dive->divemaster); if (dive->buddy) free((void *)dive->buddy); if (dive->suit) free((void *)dive->suit); free(dive); } void add_single_dive(int idx, struct dive *dive) { int i; dive_table.nr++; if (dive->selected) amount_selected++; for (i = idx; i < dive_table.nr ; i++) { struct dive *tmp = dive_table.dives[i]; dive_table.dives[i] = dive; dive = tmp; } } /* remember expanded state */ void remember_tree_state() { dive_trip_t *trip; GtkTreeIter iter; if (!gtk_tree_model_get_iter_first(TREEMODEL(dive_list), &iter)) return; do { int idx; timestamp_t when; GtkTreePath *path; gtk_tree_model_get(TREEMODEL(dive_list), &iter, DIVE_INDEX, &idx, DIVE_DATE, &when, -1); if (idx >= 0) continue; path = gtk_tree_model_get_path(TREEMODEL(dive_list), &iter); if (gtk_tree_view_row_expanded(GTK_TREE_VIEW(dive_list.tree_view), path)) { trip = find_trip_by_time(when); if (trip) trip->expanded = TRUE; } gtk_tree_path_free(path); } while (gtk_tree_model_iter_next(TREEMODEL(dive_list), &iter)); } static gboolean restore_node_state(GtkTreeModel *model, GtkTreePath *path, GtkTreeIter *iter, gpointer data) { int idx; timestamp_t when; struct dive *dive; dive_trip_t *trip; GtkTreeView *tree_view = GTK_TREE_VIEW(dive_list.tree_view); GtkTreeSelection *selection = gtk_tree_view_get_selection(tree_view); gtk_tree_model_get(model, iter, DIVE_INDEX, &idx, DIVE_DATE, &when, -1); if (idx < 0) { trip = find_trip_by_time(when); if (trip && trip->expanded) gtk_tree_view_expand_row(tree_view, path, FALSE); if (trip && trip->selected) gtk_tree_selection_select_iter(selection, iter); } else { dive = get_dive(idx); if (dive && dive->selected) gtk_tree_selection_select_iter(selection, iter); } /* continue foreach */ return FALSE; } /* restore expanded and selected state */ void restore_tree_state() { gtk_tree_model_foreach(MODEL(dive_list), restore_node_state, NULL); } /* called when multiple dives are selected and one of these is right-clicked for delete */ static void delete_selected_dives_cb(GtkWidget *menuitem, GtkTreePath *path) { int i; struct dive *dive; int success; GtkWidget *dialog; char *dialog_title; if (!amount_selected) return; if (amount_selected == 1) dialog_title = _("Delete dive"); else dialog_title = _("Delete dives"); dialog = gtk_dialog_new_with_buttons(dialog_title, GTK_WINDOW(main_window), GTK_DIALOG_DESTROY_WITH_PARENT, GTK_STOCK_OK, GTK_RESPONSE_ACCEPT, GTK_STOCK_CANCEL, GTK_RESPONSE_REJECT, NULL); gtk_widget_show_all(dialog); success = gtk_dialog_run(GTK_DIALOG(dialog)) == GTK_RESPONSE_ACCEPT; gtk_widget_destroy(dialog); if (!success) return; remember_tree_state(); /* walk the dive list in chronological order */ for (i = 0; i < dive_table.nr; i++) { dive = get_dive(i); if (!dive) continue; if (!dive->selected) continue; /* now remove the dive from the table and free it. also move the iterator back, * so that we don't skip a dive */ delete_single_dive(i); i--; } dive_list_update_dives(); restore_tree_state(); /* if no dives are selected at this point clear the display widgets */ if (!amount_selected) { selected_dive = 0; process_selected_dives(); clear_stats_widgets(); clear_equipment_widgets(); show_dive_info(NULL); } mark_divelist_changed(TRUE); } /* this gets called with path pointing to a dive, either in the top level * or as part of a trip */ static void delete_dive_cb(GtkWidget *menuitem, GtkTreePath *path) { int idx; GtkTreeIter iter; int success; GtkWidget *dialog; dialog = gtk_dialog_new_with_buttons(_("Delete dive"), GTK_WINDOW(main_window), GTK_DIALOG_DESTROY_WITH_PARENT, GTK_STOCK_OK, GTK_RESPONSE_ACCEPT, GTK_STOCK_CANCEL, GTK_RESPONSE_REJECT, NULL); gtk_widget_show_all(dialog); success = gtk_dialog_run(GTK_DIALOG(dialog)) == GTK_RESPONSE_ACCEPT; gtk_widget_destroy(dialog); if (!success) return; remember_tree_state(); if (!gtk_tree_model_get_iter(MODEL(dive_list), &iter, path)) return; gtk_tree_model_get(MODEL(dive_list), &iter, DIVE_INDEX, &idx, -1); delete_single_dive(idx); dive_list_update_dives(); restore_tree_state(); mark_divelist_changed(TRUE); } static void merge_dive_index(int i, struct dive *a) { struct dive *b = get_dive(i+1); struct dive *res; res = merge_dives(a, b, b->when - a->when, FALSE); if (!res) return; remember_tree_state(); add_single_dive(i, res); delete_single_dive(i+1); delete_single_dive(i+1); dive_list_update_dives(); restore_tree_state(); mark_divelist_changed(TRUE); } static void merge_dives_cb(GtkWidget *menuitem, void *unused) { int i; struct dive *dive; for_each_dive(i, dive) { if (dive->selected) { merge_dive_index(i, dive); return; } } } /* Called if there are exactly two selected dives and the dive at idx is one of them */ static void add_dive_merge_label(int idx, GtkMenuShell *menu) { struct dive *a, *b; GtkWidget *menuitem; /* The other selected dive must be next to it.. */ a = get_dive(idx); b = get_dive(idx+1); if (!b || !b->selected) { b = a; a = get_dive(idx-1); if (!a || !a->selected) return; } /* .. and they had better be in the same dive trip */ if (a->divetrip != b->divetrip) return; /* .. and if the surface interval is excessive, you must be kidding us */ if (b->when > a->when + a->duration.seconds + 30*60) return; /* If so, we can add a "merge dive" menu entry */ menuitem = gtk_menu_item_new_with_label(_("Merge dives")); g_signal_connect(menuitem, "activate", G_CALLBACK(merge_dives_cb), NULL); gtk_menu_shell_append(menu, menuitem); } static void popup_divelist_menu(GtkTreeView *tree_view, GtkTreeModel *model, int button, GdkEventButton *event) { GtkWidget *menu, *menuitem, *image; char editplurallabel[] = N_("Edit dives"); char editsinglelabel[] = N_("Edit dive"); char *editlabel; char deleteplurallabel[] = N_("Delete dives"); char deletesinglelabel[] = N_("Delete dive"); char *deletelabel; GtkTreePath *path, *prevpath, *nextpath; GtkTreeIter iter, previter, nextiter; int idx, previdx, nextidx; struct dive *dive; if (!gtk_tree_view_get_path_at_pos(tree_view, event->x, event->y, &path, NULL, NULL, NULL)) return; gtk_tree_model_get_iter(MODEL(dive_list), &iter, path); gtk_tree_model_get(MODEL(dive_list), &iter, DIVE_INDEX, &idx, -1); menu = gtk_menu_new(); menuitem = gtk_image_menu_item_new_with_label(_("Add dive")); image = gtk_image_new_from_stock(GTK_STOCK_ADD, GTK_ICON_SIZE_MENU); gtk_image_menu_item_set_image(GTK_IMAGE_MENU_ITEM(menuitem), image); g_signal_connect(menuitem, "activate", G_CALLBACK(add_dive_cb), NULL); gtk_menu_shell_append(GTK_MENU_SHELL(menu), menuitem); if (idx < 0) { /* mouse pointer is on a trip summary entry */ menuitem = gtk_menu_item_new_with_label(_("Edit Trip Summary")); g_signal_connect(menuitem, "activate", G_CALLBACK(edit_trip_cb), path); gtk_menu_shell_append(GTK_MENU_SHELL(menu), menuitem); prevpath = gtk_tree_path_copy(path); if (gtk_tree_path_prev(prevpath) && gtk_tree_model_get_iter(MODEL(dive_list), &previter, prevpath)) { gtk_tree_model_get(MODEL(dive_list), &previter, DIVE_INDEX, &previdx, -1); if (previdx < 0) { menuitem = gtk_menu_item_new_with_label(_("Merge trip with trip above")); g_signal_connect(menuitem, "activate", G_CALLBACK(merge_trips_cb), path); gtk_menu_shell_append(GTK_MENU_SHELL(menu), menuitem); } } nextpath = gtk_tree_path_copy(path); gtk_tree_path_next(nextpath); if (gtk_tree_model_get_iter(MODEL(dive_list), &nextiter, nextpath)) { gtk_tree_model_get(MODEL(dive_list), &nextiter, DIVE_INDEX, &nextidx, -1); if (nextidx < 0) { menuitem = gtk_menu_item_new_with_label(_("Merge trip with trip below")); g_signal_connect(menuitem, "activate", G_CALLBACK(merge_trips_cb), nextpath); gtk_menu_shell_append(GTK_MENU_SHELL(menu), menuitem); } } menuitem = gtk_menu_item_new_with_label(_("Remove Trip")); g_signal_connect(menuitem, "activate", G_CALLBACK(remove_trip_cb), path); gtk_menu_shell_append(GTK_MENU_SHELL(menu), menuitem); } else { dive = get_dive(idx); /* if we right click on selected dive(s), edit or delete those */ if (dive->selected) { if (amount_selected == 1) { deletelabel = _(deletesinglelabel); editlabel = _(editsinglelabel); menuitem = gtk_menu_item_new_with_label(_("Edit dive date/time")); g_signal_connect(menuitem, "activate", G_CALLBACK(edit_dive_when_cb), dive); gtk_menu_shell_append(GTK_MENU_SHELL(menu), menuitem); } else { deletelabel = _(deleteplurallabel); editlabel = _(editplurallabel); } menuitem = gtk_menu_item_new_with_label(deletelabel); g_signal_connect(menuitem, "activate", G_CALLBACK(delete_selected_dives_cb), path); gtk_menu_shell_append(GTK_MENU_SHELL(menu), menuitem); menuitem = gtk_menu_item_new_with_label(editlabel); g_signal_connect(menuitem, "activate", G_CALLBACK(edit_selected_dives_cb), NULL); gtk_menu_shell_append(GTK_MENU_SHELL(menu), menuitem); /* Two contiguous selected dives? */ if (amount_selected == 2) add_dive_merge_label(idx, GTK_MENU_SHELL(menu)); } else { menuitem = gtk_menu_item_new_with_label(_("Edit dive date/time")); g_signal_connect(menuitem, "activate", G_CALLBACK(edit_dive_when_cb), dive); gtk_menu_shell_append(GTK_MENU_SHELL(menu), menuitem); deletelabel = _(deletesinglelabel); menuitem = gtk_menu_item_new_with_label(deletelabel); g_signal_connect(menuitem, "activate", G_CALLBACK(delete_dive_cb), path); gtk_menu_shell_append(GTK_MENU_SHELL(menu), menuitem); editlabel = _(editsinglelabel); menuitem = gtk_menu_item_new_with_label(editlabel); g_signal_connect(menuitem, "activate", G_CALLBACK(edit_dive_from_path_cb), path); gtk_menu_shell_append(GTK_MENU_SHELL(menu), menuitem); } /* only offer trip editing options when we are displaying the tree model */ if (dive_list.model == dive_list.treemodel) { int depth = gtk_tree_path_get_depth(path); int *indices = gtk_tree_path_get_indices(path); /* top level dive or child dive that is not the first child */ if (depth == 1 || indices[1] > 0) { menuitem = gtk_menu_item_new_with_label(_("Create new trip above")); g_signal_connect(menuitem, "activate", G_CALLBACK(insert_trip_before_cb), path); gtk_menu_shell_append(GTK_MENU_SHELL(menu), menuitem); } prevpath = gtk_tree_path_copy(path); /* top level dive with a trip right before it */ if (depth == 1 && gtk_tree_path_prev(prevpath) && gtk_tree_model_get_iter(MODEL(dive_list), &previter, prevpath) && gtk_tree_model_iter_n_children(model, &previter)) { menuitem = gtk_menu_item_new_with_label(_("Add to trip above")); g_signal_connect(menuitem, "activate", G_CALLBACK(merge_dive_into_trip_above_cb), path); gtk_menu_shell_append(GTK_MENU_SHELL(menu), menuitem); } if (DIVE_IN_TRIP(dive)) { if (dive->selected && amount_selected > 1) menuitem = gtk_menu_item_new_with_label(_("Remove selected dives from trip")); else menuitem = gtk_menu_item_new_with_label(_("Remove dive from trip")); g_signal_connect(menuitem, "activate", G_CALLBACK(remove_from_trip_cb), path); gtk_menu_shell_append(GTK_MENU_SHELL(menu), menuitem); } } } menuitem = gtk_menu_item_new_with_label(_("Expand all")); g_signal_connect(menuitem, "activate", G_CALLBACK(expand_all_cb), tree_view); gtk_menu_shell_append(GTK_MENU_SHELL(menu), menuitem); menuitem = gtk_menu_item_new_with_label(_("Collapse all")); g_signal_connect(menuitem, "activate", G_CALLBACK(collapse_all_cb), tree_view); 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, gpointer userdata) { popup_divelist_menu(tree_view, MODEL(dive_list), 0, NULL); } static gboolean button_press_cb(GtkWidget *treeview, GdkEventButton *event, gpointer userdata) { /* Right-click? Bring up the menu */ if (event->type == GDK_BUTTON_PRESS && event->button == 3) { popup_divelist_menu(GTK_TREE_VIEW(treeview), MODEL(dive_list), 3, event); return TRUE; } return FALSE; } /* we need to have a temporary copy of the selected dives while switching model as the selection_cb function keeps getting called when gtk_tree_selection_select_path is called. We also need to keep copies of the sort order so we can restore that as well after switching models. */ static gboolean second_call = FALSE; static GtkSortType sortorder[] = { [0 ... DIVELIST_COLUMNS - 1] = GTK_SORT_DESCENDING, }; static int lastcol = DIVE_NR; /* Check if this dive was selected previously and select it again in the new model; * This is used after we switch models to maintain consistent selections. * We always return FALSE to iterate through all dives */ static gboolean set_selected(GtkTreeModel *model, GtkTreePath *path, GtkTreeIter *iter, gpointer data) { GtkTreeSelection *selection = GTK_TREE_SELECTION(data); int idx, selected; struct dive *dive; gtk_tree_model_get(model, iter, DIVE_INDEX, &idx, -1); if (idx < 0) { GtkTreeIter child; if (gtk_tree_model_iter_children(model, &child, iter)) gtk_tree_model_get(model, &child, DIVE_INDEX, &idx, -1); } dive = get_dive(idx); selected = dive && dive->selected; if (selected) { gtk_tree_view_expand_to_path(GTK_TREE_VIEW(dive_list.tree_view), path); gtk_tree_selection_select_path(selection, path); } return FALSE; } static void update_column_and_order(int colid) { /* Careful: the index into treecolumns is off by one as we don't have a tree_view column for DIVE_INDEX */ GtkTreeViewColumn **treecolumns = &dive_list.nr; /* this will trigger a second call into sort_column_change_cb, so make sure we don't start an infinite recursion... */ second_call = TRUE; gtk_tree_sortable_set_sort_column_id(GTK_TREE_SORTABLE(dive_list.model), colid, sortorder[colid]); gtk_tree_view_column_set_sort_order(treecolumns[colid - 1], sortorder[colid]); second_call = FALSE; } /* If the sort column is nr (default), show the tree model. For every other sort column only show the list model. If the model changed, inform the new model of the chosen sort column and make sure the same dives are still selected. The challenge with this function is that once we change the model we also need to change the sort column again (as it was changed in the other model) and that causes this function to be called recursively - so we need to catch that. */ static void sort_column_change_cb(GtkTreeSortable *treeview, gpointer data) { int colid; GtkSortType order; GtkTreeStore *currentmodel = dive_list.model; if (second_call) return; gtk_tree_sortable_get_sort_column_id(treeview, &colid, &order); if(colid == lastcol) { /* we just changed sort order */ sortorder[colid] = order; return; } else { lastcol = colid; } if(colid == DIVE_NR) dive_list.model = dive_list.treemodel; else dive_list.model = dive_list.listmodel; if (dive_list.model != currentmodel) { GtkTreeSelection *selection = gtk_tree_view_get_selection(GTK_TREE_VIEW(dive_list.tree_view)); gtk_tree_view_set_model(GTK_TREE_VIEW(dive_list.tree_view), MODEL(dive_list)); update_column_and_order(colid); gtk_tree_model_foreach(MODEL(dive_list), set_selected, selection); } else { if (order != sortorder[colid]) { update_column_and_order(colid); } } } GtkWidget *dive_list_create(void) { GtkTreeSelection *selection; dive_list.listmodel = gtk_tree_store_new(DIVELIST_COLUMNS, G_TYPE_INT, /* index */ G_TYPE_INT, /* nr */ G_TYPE_INT64, /* Date */ G_TYPE_INT, /* Star rating */ G_TYPE_INT, /* Depth */ G_TYPE_INT, /* Duration */ G_TYPE_INT, /* Temperature */ G_TYPE_INT, /* Total weight */ G_TYPE_STRING, /* Suit */ G_TYPE_STRING, /* Cylinder */ G_TYPE_INT, /* Nitrox */ G_TYPE_INT, /* SAC */ G_TYPE_INT, /* OTU */ G_TYPE_INT, /* MAXCNS */ G_TYPE_STRING /* Location */ ); dive_list.treemodel = gtk_tree_store_new(DIVELIST_COLUMNS, G_TYPE_INT, /* index */ G_TYPE_INT, /* nr */ G_TYPE_INT64, /* Date */ G_TYPE_INT, /* Star rating */ G_TYPE_INT, /* Depth */ G_TYPE_INT, /* Duration */ G_TYPE_INT, /* Temperature */ G_TYPE_INT, /* Total weight */ G_TYPE_STRING, /* Suit */ G_TYPE_STRING, /* Cylinder */ G_TYPE_INT, /* Nitrox */ G_TYPE_INT, /* SAC */ G_TYPE_INT, /* OTU */ G_TYPE_INT, /* MAXCNS */ G_TYPE_STRING /* Location */ ); dive_list.model = dive_list.treemodel; dive_list.tree_view = gtk_tree_view_new_with_model(TREEMODEL(dive_list)); 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); /* check if utf8 stars are available as a default OS feature */ if (!subsurface_os_feature_available(UTF8_FONT_WITH_STARS)) dl_column[3].header = "*"; 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.totalweight = divelist_column(&dive_list, dl_column + DIVE_TOTALWEIGHT); dive_list.suit = divelist_column(&dive_list, dl_column + DIVE_SUIT); 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.maxcns = divelist_column(&dive_list, dl_column + DIVE_MAXCNS); 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), NULL); g_signal_connect(dive_list.tree_view, "row-expanded", G_CALLBACK(row_expanded_cb), NULL); g_signal_connect(dive_list.tree_view, "row-collapsed", G_CALLBACK(row_collapsed_cb), NULL); g_signal_connect(dive_list.tree_view, "button-press-event", G_CALLBACK(button_press_cb), NULL); g_signal_connect(dive_list.tree_view, "popup-menu", G_CALLBACK(popup_menu_cb), NULL); g_signal_connect(selection, "changed", G_CALLBACK(selection_cb), dive_list.model); g_signal_connect(dive_list.listmodel, "sort-column-changed", G_CALLBACK(sort_column_change_cb), NULL); g_signal_connect(dive_list.treemodel, "sort-column-changed", G_CALLBACK(sort_column_change_cb), NULL); gtk_tree_selection_set_select_function(selection, modify_selection_cb, NULL, NULL); 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 dive_list_destroy(void) { gtk_widget_destroy(dive_list.tree_view); } void mark_divelist_changed(int changed) { dive_list.changed = changed; } int unsaved_changes() { return dive_list.changed; } void remove_autogen_trips() { int i; struct dive *dive; for_each_dive(i, dive) { dive_trip_t *trip = dive->divetrip; if (trip && trip->autogen) remove_dive_from_trip(dive); } } struct iteridx { int idx; GtkTreeIter *iter; }; static gboolean iter_has_idx(GtkTreeModel *model, GtkTreePath *path, GtkTreeIter *iter, gpointer _data) { struct iteridx *iteridx = _data; int idx; /* Get the dive number */ gtk_tree_model_get(model, iter, DIVE_INDEX, &idx, -1); if (idx == iteridx->idx) { iteridx->iter = gtk_tree_iter_copy(iter); return TRUE; /* end foreach */ } return FALSE; } static GtkTreeIter *get_iter_from_idx(int idx) { struct iteridx iteridx = {idx, }; gtk_tree_model_foreach(MODEL(dive_list), iter_has_idx, &iteridx); return iteridx.iter; } void select_next_dive(void) { GtkTreeIter *nextiter, *parent; GtkTreeIter *iter = get_iter_from_idx(selected_dive); GtkTreeSelection *selection = gtk_tree_view_get_selection(GTK_TREE_VIEW(dive_list.tree_view)); GtkTreePath *treepath; int idx; if (!iter) return; nextiter = gtk_tree_iter_copy(iter); if (!gtk_tree_model_iter_next(MODEL(dive_list), nextiter)) { if (!gtk_tree_model_iter_parent(MODEL(dive_list), nextiter, iter)) { /* we're at the last top level node */ return; } if (!gtk_tree_model_iter_next(MODEL(dive_list), nextiter)) { /* last trip */ return; } } gtk_tree_model_get(MODEL(dive_list), nextiter, DIVE_INDEX, &idx, -1); if (idx < 0) { /* need the first child */ parent = gtk_tree_iter_copy(nextiter); if (! gtk_tree_model_iter_children(MODEL(dive_list), nextiter, parent)) return; } treepath = gtk_tree_model_get_path(MODEL(dive_list), nextiter); gtk_tree_view_expand_to_path(GTK_TREE_VIEW(dive_list.tree_view), treepath); gtk_tree_view_scroll_to_cell(GTK_TREE_VIEW(dive_list.tree_view), treepath, NULL, FALSE, 0, 0); gtk_tree_selection_unselect_all(selection); gtk_tree_selection_select_iter(selection, nextiter); gtk_tree_path_free(treepath); } void select_prev_dive(void) { GtkTreeIter previter, *parent; GtkTreeIter *iter = get_iter_from_idx(selected_dive); GtkTreeSelection *selection = gtk_tree_view_get_selection(GTK_TREE_VIEW(dive_list.tree_view)); GtkTreePath *treepath; int idx; if (!iter) return; treepath = gtk_tree_model_get_path(MODEL(dive_list), iter); if (!gtk_tree_path_prev(treepath)) { if (!gtk_tree_model_iter_parent(MODEL(dive_list), &previter, iter)) /* we're at the last top level node */ goto free_path; gtk_tree_path_free(treepath); treepath = gtk_tree_model_get_path(MODEL(dive_list), &previter); if (!gtk_tree_path_prev(treepath)) /* first trip */ goto free_path; if (!gtk_tree_model_get_iter(MODEL(dive_list), &previter, treepath)) goto free_path; } if (!gtk_tree_model_get_iter(MODEL(dive_list), &previter, treepath)) goto free_path; gtk_tree_model_get(MODEL(dive_list), &previter, DIVE_INDEX, &idx, -1); if (idx < 0) { /* need the last child */ parent = gtk_tree_iter_copy(&previter); if (! gtk_tree_model_iter_nth_child(MODEL(dive_list), &previter, parent, gtk_tree_model_iter_n_children(MODEL(dive_list), parent) - 1)) goto free_path; } gtk_tree_path_free(treepath); treepath = gtk_tree_model_get_path(MODEL(dive_list), &previter); gtk_tree_view_expand_to_path(GTK_TREE_VIEW(dive_list.tree_view), treepath); gtk_tree_view_scroll_to_cell(GTK_TREE_VIEW(dive_list.tree_view), treepath, NULL, FALSE, 0, 0); gtk_tree_selection_unselect_all(selection); gtk_tree_selection_select_iter(selection, &previter); free_path: gtk_tree_path_free(treepath); }