subsurface/core/statistics.c
Berthold Stoeger 360f07e453 Cleanup: pass gasmix by value
In a previous commit, the get_gasmix_* functions were changed to
return by value. For consistency, also pass gasmix by value.

Note that on common 64-bit platforms struct gasmix is the size
of a pointer [2 * 32 bit vs. 64 bit] and therefore uses the
same space on the stack. On 32-bit platforms, the stack use
is probably doubled, but in return a dereference is avoided.

Supporting arbitrary gas-mixes (H2, Ar, ...) will be such an
invasive change that going back to pointers is probably the
least of our worries.

This commit is a step in const-ifying input parameters (passing
by value is the ultimate way of signaling that the input parameter
will not be changed [unless there are references to said parameter]).

Signed-off-by: Berthold Stoeger <bstoeger@mail.tuwien.ac.at>
2018-08-23 05:16:38 -07:00

341 lines
10 KiB
C

// SPDX-License-Identifier: GPL-2.0
/* statistics.c
*
* core logic for the Info & Stats page -
* char *get_minutes(int seconds);
* void process_all_dives(struct dive *dive, struct dive **prev_dive);
*/
#include "gettext.h"
#include <string.h>
#include <ctype.h>
#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;
stats_t *stats_by_type = NULL;
static void process_temperatures(struct dive *dp, stats_t *stats)
{
temperature_t min_temp, mean_temp, max_temp = {.mkelvin = 0};
max_temp.mkelvin = dp->maxtemp.mkelvin;
if (max_temp.mkelvin && (!stats->max_temp.mkelvin || max_temp.mkelvin > stats->max_temp.mkelvin))
stats->max_temp.mkelvin = max_temp.mkelvin;
min_temp.mkelvin = dp->mintemp.mkelvin;
if (min_temp.mkelvin && (!stats->min_temp.mkelvin || min_temp.mkelvin < stats->min_temp.mkelvin))
stats->min_temp.mkelvin = min_temp.mkelvin;
if (min_temp.mkelvin || max_temp.mkelvin) {
mean_temp.mkelvin = min_temp.mkelvin;
if (mean_temp.mkelvin)
mean_temp.mkelvin = (mean_temp.mkelvin + max_temp.mkelvin) / 2;
else
mean_temp.mkelvin = max_temp.mkelvin;
stats->combined_temp.mkelvin += mean_temp.mkelvin;
stats->combined_count++;
}
}
static void process_dive(struct dive *dive, stats_t *stats)
{
int old_tadt, sac_time = 0;
int32_t duration = dive->duration.seconds;
old_tadt = stats->total_average_depth_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 (dive->maxdepth.mm > stats->max_depth.mm)
stats->max_depth.mm = dive->maxdepth.mm;
if (stats->min_depth.mm == 0 || dive->maxdepth.mm < stats->min_depth.mm)
stats->min_depth.mm = dive->maxdepth.mm;
process_temperatures(dive, stats);
/* Maybe we should drop zero-duration dives */
if (!duration)
return;
if (dive->meandepth.mm) {
stats->total_average_depth_time.seconds += duration;
stats->avg_depth.mm = lrint((1.0 * old_tadt * stats->avg_depth.mm +
duration * dive->meandepth.mm) /
stats->total_average_depth_time.seconds);
}
if (dive->sac > 100) { /* less than .1 l/min is bogus, even with a pSCR */
sac_time = stats->total_sac_time.seconds + duration;
stats->avg_sac.mliter = lrint((1.0 * stats->total_sac_time.seconds * stats->avg_sac.mliter +
duration * dive->sac) /
sac_time);
if (dive->sac > stats->max_sac.mliter)
stats->max_sac.mliter = dive->sac;
if (stats->min_sac.mliter == 0 || dive->sac < stats->min_sac.mliter)
stats->min_sac.mliter = dive->sac;
stats->total_sac_time.seconds = 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, tsize;
*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);
free(stats_by_type);
size = sizeof(stats_t) * (dive_table.nr + 1);
tsize = sizeof(stats_t) * (NUM_DIVEMODE + 1);
stats_yearly = malloc(size);
stats_monthly = malloc(size);
stats_by_trip = malloc(size);
stats_by_type = malloc(tsize);
if (!stats_yearly || !stats_monthly || !stats_by_trip || !stats_by_type)
return;
memset(stats_yearly, 0, size);
memset(stats_monthly, 0, size);
memset(stats_by_trip, 0, size);
memset(stats_by_type, 0, tsize);
stats_yearly[0].is_year = true;
/* Setting the is_trip to true to show the location as first
* field in the statistics window */
stats_by_type[0].location = strdup(translate("gettextFromC", "All (by type stats)"));
stats_by_type[0].is_trip = true;
stats_by_type[1].location = strdup(translate("gettextFromC", divemode_text_ui[OC]));
stats_by_type[1].is_trip = true;
stats_by_type[2].location = strdup(translate("gettextFromC", divemode_text_ui[CCR]));
stats_by_type[2].is_trip = true;
stats_by_type[3].location = strdup(translate("gettextFromC", divemode_text_ui[PSCR]));
stats_by_type[3].is_trip = true;
stats_by_type[4].location = strdup(translate("gettextFromC", divemode_text_ui[FREEDIVE]));
stats_by_type[4].is_trip = 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;
if (current_year != tm.tm_year) {
current_year = tm.tm_year;
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;
/* stats_by_type[0] is all the dives combined */
stats_by_type[0].selection_size++;
process_dive(dp, &(stats_by_type[0]));
process_dive(dp, &(stats_by_type[dp->dc.divemode + 1]));
stats_by_type[dp->dc.divemode + 1].selection_size++;
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(translate("gettextFromC", "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;
}
#define SOME_GAS 5000 // 5bar drop in cylinder pressure makes cylinder used
bool has_gaschange_event(struct dive *dive, struct divecomputer *dc, int idx)
{
bool first_gas_explicit = false;
struct event *event = get_next_event(dc->events, "gaschange");
while (event) {
if (dc->sample && (event->time.seconds == 0 ||
(dc->samples && dc->sample[0].time.seconds == event->time.seconds)))
first_gas_explicit = true;
if (get_cylinder_index(dive, event) == idx)
return true;
event = get_next_event(event->next, "gaschange");
}
if (dc->divemode == CCR) {
if (idx == get_cylinder_idx_by_use(dive, DILUENT))
return true;
if (idx == get_cylinder_idx_by_use(dive, OXYGEN))
return true;
}
return !first_gas_explicit && idx == 0;
}
bool is_cylinder_used(struct dive *dive, int idx)
{
struct divecomputer *dc;
if (cylinder_none(&dive->cylinder[idx]))
return false;
if ((dive->cylinder[idx].start.mbar - dive->cylinder[idx].end.mbar) > SOME_GAS)
return true;
if ((dive->cylinder[idx].sample_start.mbar - dive->cylinder[idx].sample_end.mbar) > SOME_GAS)
return true;
for_each_dc(dive, dc) {
if (has_gaschange_event(dive, dc, idx))
return true;
}
return false;
}
bool is_cylinder_prot(struct dive *dive, int idx)
{
struct divecomputer *dc;
if (cylinder_none(&dive->cylinder[idx]))
return false;
for_each_dc(dive, dc) {
if (has_gaschange_event(dive, dc, idx))
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;
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 = lrint(((double)vol.mliter * (1000 - get_he(mix) - get_o2(mix))) / (1000 - o2_in_topup));
he->mliter = lrint(((double)vol.mliter * get_he(mix)) / 1000.0);
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;
}
}
}
}