/* statistics.c * * core logic for the Info & Stats page - * char *get_time_string(int seconds, int maxdays); * char *get_minutes(int seconds); * void process_all_dives(struct dive *dive, struct dive **prev_dive); * void get_selected_dives_text(char *buffer, int size); */ #include "gettext.h" #include #include #include "dive.h" #include "display.h" #include "divelist.h" #include "statistics.h" static stats_t stats; stats_t stats_selection; stats_t *stats_monthly = NULL; stats_t *stats_yearly = NULL; stats_t *stats_by_trip = NULL; static void process_temperatures(struct dive *dp, stats_t *stats) { int min_temp, mean_temp, max_temp = 0; max_temp = dp->maxtemp.mkelvin; if (max_temp && (!stats->max_temp || max_temp > stats->max_temp)) stats->max_temp = max_temp; min_temp = dp->mintemp.mkelvin; if (min_temp && (!stats->min_temp || min_temp < stats->min_temp)) stats->min_temp = min_temp; if (min_temp || max_temp) { mean_temp = min_temp; if (mean_temp) mean_temp = (mean_temp + max_temp) / 2; else mean_temp = max_temp; stats->combined_temp += get_temp_units(mean_temp, NULL); stats->combined_count++; } } static void process_dive(struct dive *dp, stats_t *stats) { int old_tt, sac_time = 0; int duration = dp->duration.seconds; old_tt = stats->total_time.seconds; stats->total_time.seconds += duration; if (duration > stats->longest_time.seconds) stats->longest_time.seconds = duration; if (stats->shortest_time.seconds == 0 || duration < stats->shortest_time.seconds) stats->shortest_time.seconds = duration; if (dp->maxdepth.mm > stats->max_depth.mm) stats->max_depth.mm = dp->maxdepth.mm; if (stats->min_depth.mm == 0 || dp->maxdepth.mm < stats->min_depth.mm) stats->min_depth.mm = dp->maxdepth.mm; process_temperatures(dp, stats); /* Maybe we should drop zero-duration dives */ if (!duration) return; stats->avg_depth.mm = (1.0 * old_tt * stats->avg_depth.mm + duration * dp->meandepth.mm) / stats->total_time.seconds; if (dp->sac > 100) { /* less than .1 l/min is bogus, even with a pSCR */ sac_time = stats->total_sac_time + duration; stats->avg_sac.mliter = (1.0 * stats->total_sac_time * stats->avg_sac.mliter + duration * dp->sac) / sac_time; if (dp->sac > stats->max_sac.mliter) stats->max_sac.mliter = dp->sac; if (stats->min_sac.mliter == 0 || dp->sac < stats->min_sac.mliter) stats->min_sac.mliter = dp->sac; stats->total_sac_time = sac_time; } } char *get_minutes(int seconds) { static char buf[80]; snprintf(buf, sizeof(buf), "%d:%.2d", FRACTION(seconds, 60)); return buf; } void process_all_dives(struct dive *dive, struct dive **prev_dive) { int idx; struct dive *dp; struct tm tm; int current_year = 0; int current_month = 0; int year_iter = 0; int month_iter = 0; int prev_month = 0, prev_year = 0; int trip_iter = 0; dive_trip_t *trip_ptr = 0; unsigned int size; *prev_dive = NULL; memset(&stats, 0, sizeof(stats)); if (dive_table.nr > 0) { stats.shortest_time.seconds = dive_table.dives[0]->duration.seconds; stats.min_depth.mm = dive_table.dives[0]->maxdepth.mm; stats.selection_size = dive_table.nr; } /* allocate sufficient space to hold the worst * case (one dive per year or all dives during * one month) for yearly and monthly statistics*/ free(stats_yearly); free(stats_monthly); free(stats_by_trip); size = sizeof(stats_t) * (dive_table.nr + 1); stats_yearly = malloc(size); stats_monthly = malloc(size); stats_by_trip = malloc(size); if (!stats_yearly || !stats_monthly || !stats_by_trip) return; memset(stats_yearly, 0, size); memset(stats_monthly, 0, size); memset(stats_by_trip, 0, size); stats_yearly[0].is_year = true; /* this relies on the fact that the dives in the dive_table * are in chronological order */ for_each_dive (idx, dp) { if (dive && dp->when == dive->when) { /* that's the one we are showing */ if (idx > 0) *prev_dive = dive_table.dives[idx - 1]; } process_dive(dp, &stats); /* yearly statistics */ utc_mkdate(dp->when, &tm); if (current_year == 0) current_year = tm.tm_year + 1900; if (current_year != tm.tm_year + 1900) { current_year = tm.tm_year + 1900; process_dive(dp, &(stats_yearly[++year_iter])); stats_yearly[year_iter].is_year = true; } else { process_dive(dp, &(stats_yearly[year_iter])); } stats_yearly[year_iter].selection_size++; stats_yearly[year_iter].period = current_year; if (dp->divetrip != NULL) { if (trip_ptr != dp->divetrip) { trip_ptr = dp->divetrip; trip_iter++; } /* stats_by_trip[0] is all the dives combined */ stats_by_trip[0].selection_size++; process_dive(dp, &(stats_by_trip[0])); stats_by_trip[0].is_trip = true; stats_by_trip[0].location = strdup("All (by trip stats)"); process_dive(dp, &(stats_by_trip[trip_iter])); stats_by_trip[trip_iter].selection_size++; stats_by_trip[trip_iter].is_trip = true; stats_by_trip[trip_iter].location = dp->divetrip->location; } /* monthly statistics */ if (current_month == 0) { current_month = tm.tm_mon + 1; } else { if (current_month != tm.tm_mon + 1) current_month = tm.tm_mon + 1; if (prev_month != current_month || prev_year != current_year) month_iter++; } process_dive(dp, &(stats_monthly[month_iter])); stats_monthly[month_iter].selection_size++; stats_monthly[month_iter].period = current_month; prev_month = current_month; prev_year = current_year; } } /* make sure we skip the selected summary entries */ void process_selected_dives(void) { struct dive *dive; unsigned int i, nr; memset(&stats_selection, 0, sizeof(stats_selection)); nr = 0; for_each_dive(i, dive) { if (dive->selected) { process_dive(dive, &stats_selection); nr++; } } stats_selection.selection_size = nr; } char *get_time_string(int seconds, int maxdays) { static char buf[80]; if (maxdays && seconds > 3600 * 24 * maxdays) { snprintf(buf, sizeof(buf), translate("gettextFromC", "more than %d days"), maxdays); } else { int days = seconds / 3600 / 24; int hours = (seconds - days * 3600 * 24) / 3600; int minutes = (seconds - days * 3600 * 24 - hours * 3600) / 60; if (days > 0) snprintf(buf, sizeof(buf), translate("gettextFromC", "%dd %dh %dmin"), days, hours, minutes); else snprintf(buf, sizeof(buf), translate("gettextFromC", "%dh %dmin"), hours, minutes); } return buf; } /* this gets called when at least two but not all dives are selected */ static void get_ranges(char *buffer, int size) { int i, len; int first = -1, last = -1; struct dive *dive; snprintf(buffer, size, "%s", translate("gettextFromC", "for dives #")); for_each_dive (i, dive) { if (!dive->selected) continue; if (dive->number < 1) { /* uhh - weird numbers - bail */ snprintf(buffer, size, "%s", translate("gettextFromC", "for selected dives")); return; } len = strlen(buffer); if (last == -1) { snprintf(buffer + len, size - len, "%d", dive->number); first = last = dive->number; } else { if (dive->number == last + 1) { last++; continue; } else { if (first == last) snprintf(buffer + len, size - len, ", %d", dive->number); else if (first + 1 == last) snprintf(buffer + len, size - len, ", %d, %d", last, dive->number); else snprintf(buffer + len, size - len, "-%d, %d", last, dive->number); first = last = dive->number; } } } len = strlen(buffer); if (first != last) { if (first + 1 == last) snprintf(buffer + len, size - len, ", %d", last); else snprintf(buffer + len, size - len, "-%d", last); } } void get_selected_dives_text(char *buffer, int size) { if (amount_selected == 1) { if (current_dive) snprintf(buffer, size, translate("gettextFromC", "for dive #%d"), current_dive->number); else snprintf(buffer, size, "%s", translate("gettextFromC", "for selected dive")); } else if (amount_selected == dive_table.nr) { snprintf(buffer, size, "%s", translate("gettextFromC", "for all dives")); } else if (amount_selected == 0) { snprintf(buffer, size, "%s", translate("gettextFromC", "(no dives)")); } else { get_ranges(buffer, size); if (strlen(buffer) == size - 1) { /* add our own ellipse... the way Pango does this is ugly * as it will leave partial numbers there which I don't like */ int offset = 4; while (offset < size && isdigit(buffer[size - offset])) offset++; strcpy(buffer + size - offset, "..."); } } } bool is_cylinder_used(struct dive *dive, int idx) { struct divecomputer *dc; bool firstGasExplicit = false; if (cylinder_none(&dive->cylinder[idx])) return false; for_each_dc(dive, dc) { struct event *event = get_next_event(dc->events, "gaschange"); while (event) { if (event->time.seconds == dc->sample[0].time.seconds) firstGasExplicit = true; if (get_cylinder_index(dive, event) == idx) return true; event = get_next_event(event->next, "gaschange"); } } if (idx == 0 && !firstGasExplicit) return true; return false; } void get_gas_used(struct dive *dive, volume_t gases[MAX_CYLINDERS]) { int idx; for (idx = 0; idx < MAX_CYLINDERS; idx++) { cylinder_t *cyl = &dive->cylinder[idx]; pressure_t start, end; if (!is_cylinder_used(dive, idx)) continue; start = cyl->start.mbar ? cyl->start : cyl->sample_start; end = cyl->end.mbar ? cyl->end : cyl->sample_end; if (end.mbar && start.mbar > end.mbar) gases[idx].mliter = gas_volume(cyl, start) - gas_volume(cyl, end); } } /* Quite crude reverse-blender-function, but it produces a approx result */ static void get_gas_parts(struct gasmix mix, volume_t vol, int o2_in_topup, volume_t *o2, volume_t *he) { volume_t air = {}; if (gasmix_is_air(&mix)) { o2->mliter = 0; he->mliter = 0; return; } air.mliter = (vol.mliter * (1000 - get_he(&mix) - get_o2(&mix))) / (1000 - o2_in_topup); he->mliter = (vol.mliter * get_he(&mix)) / 1000; o2->mliter += vol.mliter - he->mliter - air.mliter; } void selected_dives_gas_parts(volume_t *o2_tot, volume_t *he_tot) { int i, j; struct dive *d; for_each_dive (i, d) { if (!d->selected) continue; volume_t diveGases[MAX_CYLINDERS] = {}; get_gas_used(d, diveGases); for (j = 0; j < MAX_CYLINDERS; j++) { if (diveGases[j].mliter) { volume_t o2 = {}, he = {}; get_gas_parts(d->cylinder[j].gasmix, diveGases[j], O2_IN_AIR, &o2, &he); o2_tot->mliter += o2.mliter; he_tot->mliter += he.mliter; } } } }