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|
// SPDX-License-Identifier: GPL-2.0
/* planner.c
*
* code that allows us to plan future dives
*
* (c) Dirk Hohndel 2013
*/
#include <assert.h>
#include <unistd.h>
#include <ctype.h>
#include <string.h>
#include "dive.h"
#include "deco.h"
#include "divelist.h"
#include "planner.h"
#include "gettext.h"
#include "libdivecomputer/parser.h"
#include "qthelperfromc.h"
#include "version.h"
#define TIMESTEP 2 /* second */
int decostoplevels_metric[] = { 0, 3000, 6000, 9000, 12000, 15000, 18000, 21000, 24000, 27000,
30000, 33000, 36000, 39000, 42000, 45000, 48000, 51000, 54000, 57000,
60000, 63000, 66000, 69000, 72000, 75000, 78000, 81000, 84000, 87000,
90000, 100000, 110000, 120000, 130000, 140000, 150000, 160000, 170000,
180000, 190000, 200000, 220000, 240000, 260000, 280000, 300000,
320000, 340000, 360000, 380000 };
int decostoplevels_imperial[] = { 0, 3048, 6096, 9144, 12192, 15240, 18288, 21336, 24384, 27432,
30480, 33528, 36576, 39624, 42672, 45720, 48768, 51816, 54864, 57912,
60960, 64008, 67056, 70104, 73152, 76200, 79248, 82296, 85344, 88392,
91440, 101600, 111760, 121920, 132080, 142240, 152400, 162560, 172720,
182880, 193040, 203200, 223520, 243840, 264160, 284480, 304800,
325120, 345440, 365760, 386080 };
double plangflow, plangfhigh;
int bottom_time = 0;
extern double regressiona();
extern double regressionb();
extern void reset_regression();
char *disclaimer;
int plot_depth = 0;
#if DEBUG_PLAN
void dump_plan(struct diveplan *diveplan)
{
struct divedatapoint *dp;
struct tm tm;
if (!diveplan) {
printf("Diveplan NULL\n");
return;
}
utc_mkdate(diveplan->when, &tm);
printf("\nDiveplan @ %04d-%02d-%02d %02d:%02d:%02d (surfpres %dmbar):\n",
tm.tm_year, tm.tm_mon + 1, tm.tm_mday,
tm.tm_hour, tm.tm_min, tm.tm_sec,
diveplan->surface_pressure);
dp = diveplan->dp;
while (dp) {
printf("\t%3u:%02u: %6dmm cylid: %2d setpoint: %d\n", FRACTION(dp->time, 60), dp->depth, dp->cylinderid, dp->setpoint);
dp = dp->next;
}
}
#endif
bool diveplan_empty(struct diveplan *diveplan)
{
struct divedatapoint *dp;
if (!diveplan || !diveplan->dp)
return true;
dp = diveplan->dp;
while (dp) {
if (dp->time)
return false;
dp = dp->next;
}
return true;
}
/* get the gas at a certain time during the dive */
void get_gas_at_time(struct dive *dive, struct divecomputer *dc, duration_t time, struct gasmix *gas)
{
// we always start with the first gas, so that's our gas
// unless an event tells us otherwise
struct event *event = dc->events;
*gas = dive->cylinder[0].gasmix;
while (event && event->time.seconds <= time.seconds) {
if (!strcmp(event->name, "gaschange")) {
int cylinder_idx = get_cylinder_index(dive, event);
*gas = dive->cylinder[cylinder_idx].gasmix;
}
event = event->next;
}
}
/* get the cylinder index at a certain time during the dive */
int get_cylinderid_at_time(struct dive *dive, struct divecomputer *dc, duration_t time)
{
// we start with the first cylinder unless an event tells us otherwise
int cylinder_idx = 0;
struct event *event = dc->events;
while (event && event->time.seconds <= time.seconds) {
if (!strcmp(event->name, "gaschange"))
cylinder_idx = get_cylinder_index(dive, event);
event = event->next;
}
return cylinder_idx;
}
int get_gasidx(struct dive *dive, struct gasmix *mix)
{
return find_best_gasmix_match(mix, dive->cylinder, 0);
}
void interpolate_transition(struct dive *dive, duration_t t0, duration_t t1, depth_t d0, depth_t d1, const struct gasmix *gasmix, o2pressure_t po2)
{
uint32_t j;
for (j = t0.seconds; j < t1.seconds; j++) {
int depth = interpolate(d0.mm, d1.mm, j - t0.seconds, t1.seconds - t0.seconds);
add_segment(depth_to_bar(depth, dive), gasmix, 1, po2.mbar, dive, prefs.bottomsac);
}
if (d1.mm > d0.mm)
calc_crushing_pressure(depth_to_bar(d1.mm, &displayed_dive));
}
/* returns the tissue tolerance at the end of this (partial) dive */
int tissue_at_end(struct dive *dive, struct deco_state **cached_datap)
{
struct divecomputer *dc;
struct sample *sample, *psample;
int i;
depth_t lastdepth = {};
duration_t t0 = {}, t1 = {};
struct gasmix gas;
int surface_interval = 0;
if (!dive)
return 0;
if (*cached_datap) {
restore_deco_state(*cached_datap, true);
} else {
surface_interval = init_decompression(dive);
cache_deco_state(cached_datap);
}
dc = &dive->dc;
if (!dc->samples)
return 0;
psample = sample = dc->sample;
for (i = 0; i < dc->samples; i++, sample++) {
o2pressure_t setpoint;
if (i)
setpoint = sample[-1].setpoint;
else
setpoint = sample[0].setpoint;
t1 = sample->time;
get_gas_at_time(dive, dc, t0, &gas);
if (i > 0)
lastdepth = psample->depth;
/* The ceiling in the deeper portion of a multilevel dive is sometimes critical for the VPM-B
* Boyle's law compensation. We should check the ceiling prior to ascending during the bottom
* portion of the dive. The maximum ceiling might be reached while ascending, but testing indicates
* that it is only marginally deeper than the ceiling at the start of ascent.
* Do not set the first_ceiling_pressure variable (used for the Boyle's law compensation calculation)
* at this stage, because it would interfere with calculating the ceiling at the end of the bottom
* portion of the dive.
* Remember the value for later.
*/
if ((decoMode() == VPMB) && (lastdepth.mm > sample->depth.mm)) {
pressure_t ceiling_pressure;
nuclear_regeneration(t0.seconds);
vpmb_start_gradient();
ceiling_pressure.mbar = depth_to_mbar(deco_allowed_depth(tissue_tolerance_calc(dive,
depth_to_bar(lastdepth.mm, dive)),
dive->surface_pressure.mbar / 1000.0,
dive,
1),
dive);
if (ceiling_pressure.mbar > deco_state->max_bottom_ceiling_pressure.mbar)
deco_state->max_bottom_ceiling_pressure.mbar = ceiling_pressure.mbar;
}
interpolate_transition(dive, t0, t1, lastdepth, sample->depth, &gas, setpoint);
psample = sample;
t0 = t1;
}
return surface_interval;
}
/* if a default cylinder is set, use that */
void fill_default_cylinder(cylinder_t *cyl)
{
const char *cyl_name = prefs.default_cylinder;
struct tank_info_t *ti = tank_info;
pressure_t pO2 = {.mbar = 1600};
if (!cyl_name)
return;
while (ti->name != NULL) {
if (strcmp(ti->name, cyl_name) == 0)
break;
ti++;
}
if (ti->name == NULL)
/* didn't find it */
return;
cyl->type.description = strdup(ti->name);
if (ti->ml) {
cyl->type.size.mliter = ti->ml;
cyl->type.workingpressure.mbar = ti->bar * 1000;
} else {
cyl->type.workingpressure.mbar = psi_to_mbar(ti->psi);
if (ti->psi)
cyl->type.size.mliter = lrint(cuft_to_l(ti->cuft) * 1000 / bar_to_atm(psi_to_bar(ti->psi)));
}
// MOD of air
cyl->depth = gas_mod(&cyl->gasmix, pO2, &displayed_dive, 1);
}
/* calculate the new end pressure of the cylinder, based on its current end pressure and the
* latest segment. */
static void update_cylinder_pressure(struct dive *d, int old_depth, int new_depth, int duration, int sac, cylinder_t *cyl, bool in_deco)
{
volume_t gas_used;
pressure_t delta_p;
depth_t mean_depth;
int factor = 1000;
if (d->dc.divemode == PSCR)
factor = prefs.pscr_ratio;
if (!cyl)
return;
mean_depth.mm = (old_depth + new_depth) / 2;
gas_used.mliter = lrint(depth_to_atm(mean_depth.mm, d) * sac / 60 * duration * factor / 1000);
cyl->gas_used.mliter += gas_used.mliter;
if (in_deco)
cyl->deco_gas_used.mliter += gas_used.mliter;
if (cyl->type.size.mliter) {
delta_p.mbar = lrint(gas_used.mliter * 1000.0 / cyl->type.size.mliter * gas_compressibility_factor(&cyl->gasmix, cyl->end.mbar / 1000.0));
cyl->end.mbar -= delta_p.mbar;
}
}
/* simply overwrite the data in the displayed_dive
* return false if something goes wrong */
static void create_dive_from_plan(struct diveplan *diveplan, struct dive *dive, bool track_gas)
{
struct divedatapoint *dp;
struct divecomputer *dc;
struct sample *sample;
struct event *ev;
cylinder_t *cyl;
int oldpo2 = 0;
int lasttime = 0;
depth_t lastdepth = {.mm = 0};
int lastcylid;
enum dive_comp_type type = dive->dc.divemode;
if (!diveplan || !diveplan->dp)
return;
#if DEBUG_PLAN & 4
printf("in create_dive_from_plan\n");
dump_plan(diveplan);
#endif
dive->salinity = diveplan->salinity;
// reset the cylinders and clear out the samples and events of the
// displayed dive so we can restart
reset_cylinders(dive, track_gas);
dc = &dive->dc;
dc->when = dive->when = diveplan->when;
dc->surface_pressure.mbar = diveplan->surface_pressure;
dc->salinity = diveplan->salinity;
free(dc->sample);
dc->sample = NULL;
dc->samples = 0;
dc->alloc_samples = 0;
while ((ev = dc->events)) {
dc->events = dc->events->next;
free(ev);
}
dp = diveplan->dp;
/* Create first sample at time = 0, not based on dp because
* there is no real dp for time = 0, set first cylinder to 0
* O2 setpoint for this sample will be filled later from next dp */
cyl = &dive->cylinder[0];
sample = prepare_sample(dc);
sample->sac.mliter = prefs.bottomsac;
if (track_gas && cyl->type.workingpressure.mbar)
sample->pressure[0].mbar = cyl->end.mbar;
sample->manually_entered = true;
finish_sample(dc);
lastcylid = 0;
while (dp) {
int po2 = dp->setpoint;
if (dp->setpoint)
type = CCR;
int time = dp->time;
depth_t depth = dp->depth;
if (time == 0) {
/* special entries that just inform the algorithm about
* additional gases that are available */
dp = dp->next;
continue;
}
/* Check for SetPoint change */
if (oldpo2 != po2) {
/* this is a bad idea - we should get a different SAMPLE_EVENT type
* reserved for this in libdivecomputer... overloading SMAPLE_EVENT_PO2
* with a different meaning will only cause confusion elsewhere in the code */
add_event(dc, lasttime, SAMPLE_EVENT_PO2, 0, po2, QT_TRANSLATE_NOOP("gettextFromC", "SP change"));
oldpo2 = po2;
}
/* Make sure we have the new gas, and create a gas change event */
if (dp->cylinderid != lastcylid) {
/* need to insert a first sample for the new gas */
add_gas_switch_event(dive, dc, lasttime + 1, dp->cylinderid);
cyl = &dive->cylinder[dp->cylinderid];
sample = prepare_sample(dc);
sample[-1].setpoint.mbar = po2;
sample->time.seconds = lasttime + 1;
sample->depth = lastdepth;
sample->manually_entered = dp->entered;
sample->sac.mliter = dp->entered ? prefs.bottomsac : prefs.decosac;
finish_sample(dc);
lastcylid = dp->cylinderid;
}
/* Create sample */
sample = prepare_sample(dc);
/* set po2 at beginning of this segment */
/* and keep it valid for last sample - where it likely doesn't matter */
sample[-1].setpoint.mbar = po2;
sample->setpoint.mbar = po2;
sample->time.seconds = lasttime = time;
sample->depth = lastdepth = depth;
sample->manually_entered = dp->entered;
sample->sac.mliter = dp->entered ? prefs.bottomsac : prefs.decosac;
if (track_gas && !sample[-1].setpoint.mbar) { /* Don't track gas usage for CCR legs of dive */
update_cylinder_pressure(dive, sample[-1].depth.mm, depth.mm, time - sample[-1].time.seconds,
dp->entered ? diveplan->bottomsac : diveplan->decosac, cyl, !dp->entered);
if (cyl->type.workingpressure.mbar)
sample->pressure[0].mbar = cyl->end.mbar;
}
finish_sample(dc);
dp = dp->next;
}
dc->divemode = type;
#if DEBUG_PLAN & 32
save_dive(stdout, &displayed_dive);
#endif
return;
}
void free_dps(struct diveplan *diveplan)
{
if (!diveplan)
return;
struct divedatapoint *dp = diveplan->dp;
while (dp) {
struct divedatapoint *ndp = dp->next;
free(dp);
dp = ndp;
}
diveplan->dp = NULL;
}
struct divedatapoint *create_dp(int time_incr, int depth, int cylinderid, int po2)
{
struct divedatapoint *dp;
dp = malloc(sizeof(struct divedatapoint));
dp->time = time_incr;
dp->depth.mm = depth;
dp->cylinderid = cylinderid;
dp->minimum_gas.mbar = 0;
dp->setpoint = po2;
dp->entered = false;
dp->next = NULL;
return dp;
}
void add_to_end_of_diveplan(struct diveplan *diveplan, struct divedatapoint *dp)
{
struct divedatapoint **lastdp = &diveplan->dp;
struct divedatapoint *ldp = *lastdp;
int lasttime = 0;
while (*lastdp) {
ldp = *lastdp;
if (ldp->time > lasttime)
lasttime = ldp->time;
lastdp = &(*lastdp)->next;
}
*lastdp = dp;
if (ldp && dp->time != 0)
dp->time += lasttime;
}
struct divedatapoint *plan_add_segment(struct diveplan *diveplan, int duration, int depth, int cylinderid, int po2, bool entered)
{
struct divedatapoint *dp = create_dp(duration, depth, cylinderid, po2);
dp->entered = entered;
add_to_end_of_diveplan(diveplan, dp);
return dp;
}
struct gaschanges {
int depth;
int gasidx;
};
static struct gaschanges *analyze_gaslist(struct diveplan *diveplan, int *gaschangenr, int depth, int *asc_cylinder)
{
int nr = 0;
struct gaschanges *gaschanges = NULL;
struct divedatapoint *dp = diveplan->dp;
int best_depth = displayed_dive.cylinder[*asc_cylinder].depth.mm;
bool total_time_zero = true;
while (dp) {
if (dp->time == 0 && total_time_zero) {
if (dp->depth.mm <= depth) {
int i = 0;
nr++;
gaschanges = realloc(gaschanges, nr * sizeof(struct gaschanges));
while (i < nr - 1) {
if (dp->depth.mm < gaschanges[i].depth) {
memmove(gaschanges + i + 1, gaschanges + i, (nr - i - 1) * sizeof(struct gaschanges));
break;
}
i++;
}
gaschanges[i].depth = dp->depth.mm;
gaschanges[i].gasidx = dp->cylinderid;
assert(gaschanges[i].gasidx != -1);
} else {
/* is there a better mix to start deco? */
if (dp->depth.mm < best_depth) {
best_depth = dp->depth.mm;
*asc_cylinder = dp->cylinderid;
}
}
} else {
total_time_zero = false;
}
dp = dp->next;
}
*gaschangenr = nr;
#if DEBUG_PLAN & 16
for (nr = 0; nr < *gaschangenr; nr++) {
int idx = gaschanges[nr].gasidx;
printf("gaschange nr %d: @ %5.2lfm gasidx %d (%s)\n", nr, gaschanges[nr].depth / 1000.0,
idx, gasname(&displayed_dive.cylinder[idx].gasmix));
}
#endif
return gaschanges;
}
/* sort all the stops into one ordered list */
static int *sort_stops(int *dstops, int dnr, struct gaschanges *gstops, int gnr)
{
int i, gi, di;
int total = dnr + gnr;
int *stoplevels = malloc(total * sizeof(int));
/* no gaschanges */
if (gnr == 0) {
memcpy(stoplevels, dstops, dnr * sizeof(int));
return stoplevels;
}
i = total - 1;
gi = gnr - 1;
di = dnr - 1;
while (i >= 0) {
if (dstops[di] > gstops[gi].depth) {
stoplevels[i] = dstops[di];
di--;
} else if (dstops[di] == gstops[gi].depth) {
stoplevels[i] = dstops[di];
di--;
gi--;
} else {
stoplevels[i] = gstops[gi].depth;
gi--;
}
i--;
if (di < 0) {
while (gi >= 0)
stoplevels[i--] = gstops[gi--].depth;
break;
}
if (gi < 0) {
while (di >= 0)
stoplevels[i--] = dstops[di--];
break;
}
}
while (i >= 0)
stoplevels[i--] = 0;
#if DEBUG_PLAN & 16
int k;
for (k = gnr + dnr - 1; k >= 0; k--) {
printf("stoplevel[%d]: %5.2lfm\n", k, stoplevels[k] / 1000.0);
if (stoplevels[k] == 0)
break;
}
#endif
return stoplevels;
}
int ascent_velocity(int depth, int avg_depth, int bottom_time)
{
(void) bottom_time;
/* We need to make this configurable */
/* As an example (and possibly reasonable default) this is the Tech 1 provedure according
* to http://www.globalunderwaterexplorers.org/files/Standards_and_Procedures/SOP_Manual_Ver2.0.2.pdf */
if (depth * 4 > avg_depth * 3) {
return prefs.ascrate75;
} else {
if (depth * 2 > avg_depth) {
return prefs.ascrate50;
} else {
if (depth > 6000)
return prefs.ascratestops;
else
return prefs.ascratelast6m;
}
}
}
void track_ascent_gas(int depth, cylinder_t *cylinder, int avg_depth, int bottom_time, bool safety_stop)
{
while (depth > 0) {
int deltad = ascent_velocity(depth, avg_depth, bottom_time) * TIMESTEP;
if (deltad > depth)
deltad = depth;
update_cylinder_pressure(&displayed_dive, depth, depth - deltad, TIMESTEP, prefs.decosac, cylinder, true);
if (depth <= 5000 && depth >= (5000 - deltad) && safety_stop) {
update_cylinder_pressure(&displayed_dive, 5000, 5000, 180, prefs.decosac, cylinder, true);
safety_stop = false;
}
depth -= deltad;
}
}
// Determine whether ascending to the next stop will break the ceiling. Return true if the ascent is ok, false if it isn't.
bool trial_ascent(int wait_time, int trial_depth, int stoplevel, int avg_depth, int bottom_time, struct gasmix *gasmix, int po2, double surface_pressure, struct dive *dive)
{
bool clear_to_ascend = true;
struct deco_state *trial_cache = NULL;
// For consistency with other VPM-B implementations, we should not start the ascent while the ceiling is
// deeper than the next stop (thus the offgasing during the ascent is ignored).
// However, we still need to make sure we don't break the ceiling due to on-gassing during ascent.
cache_deco_state(&trial_cache);
if (wait_time)
add_segment(depth_to_bar(trial_depth, dive),
gasmix,
wait_time, po2, dive, prefs.decosac);
if (decoMode() == VPMB && (deco_allowed_depth(tissue_tolerance_calc(dive,
depth_to_bar(stoplevel, dive)),
surface_pressure, dive, 1) > stoplevel)) {
restore_deco_state(trial_cache, false);
free(trial_cache);
return false;
}
while (trial_depth > stoplevel) {
int deltad = ascent_velocity(trial_depth, avg_depth, bottom_time) * TIMESTEP;
if (deltad > trial_depth) /* don't test against depth above surface */
deltad = trial_depth;
add_segment(depth_to_bar(trial_depth, dive),
gasmix,
TIMESTEP, po2, dive, prefs.decosac);
if (deco_allowed_depth(tissue_tolerance_calc(dive, depth_to_bar(trial_depth, dive)),
surface_pressure, dive, 1) > trial_depth - deltad) {
/* We should have stopped */
clear_to_ascend = false;
break;
}
trial_depth -= deltad;
}
restore_deco_state(trial_cache, false);
free(trial_cache);
return clear_to_ascend;
}
/* Determine if there is enough gas for the dive. Return true if there is enough.
* Also return true if this cannot be calculated because the cylinder doesn't have
* size or a starting pressure.
*/
bool enough_gas(int current_cylinder)
{
cylinder_t *cyl;
cyl = &displayed_dive.cylinder[current_cylinder];
if (!cyl->start.mbar)
return true;
if (cyl->type.size.mliter)
return (float)(cyl->end.mbar - prefs.reserve_gas) * cyl->type.size.mliter / 1000.0 > (float) cyl->deco_gas_used.mliter;
else
return true;
}
/* Do a binary search for the time the ceiling is clear to ascent to target_depth.
* Minimal solution is min + 1, and the solution should be an integer multiple of stepsize.
* leap is a guess for the maximum but there is no guarantee that leap is an upper limit.
* So we always test at the upper bundary, not in the middle!
*/
int wait_until(struct dive *dive, int clock, int min, int leap, int stepsize, int depth, int target_depth, int avg_depth, int bottom_time, struct gasmix *gasmix, int po2, double surface_pressure)
{
// Round min + leap up to the next multiple of stepsize
int upper = min + leap + stepsize - 1 - (min + leap - 1) % stepsize;
// Is the upper boundary too small?
if (!trial_ascent(upper - clock, depth, target_depth, avg_depth, bottom_time, gasmix, po2, surface_pressure, dive))
return wait_until(dive, clock, upper, leap, stepsize, depth, target_depth, avg_depth, bottom_time, gasmix, po2, surface_pressure);
if (upper - min <= stepsize)
return upper;
return wait_until(dive, clock, min, leap / 2, stepsize, depth, target_depth, avg_depth, bottom_time, gasmix, po2, surface_pressure);
}
// Work out the stops. Return value is if there were any mandatory stops.
void printdecotable(struct decostop *table)
{
while (table->depth) {
printf("depth=%d time=%d\n", table->depth, table->time);
++table;
}
}
bool plan(struct diveplan *diveplan, struct dive *dive, int timestep, struct decostop *decostoptable, struct deco_state **cached_datap, bool is_planner, bool show_disclaimer)
{
int bottom_depth;
int bottom_gi;
int bottom_stopidx;
bool is_final_plan = true;
int deco_time;
int previous_deco_time;
struct deco_state *bottom_cache = NULL;
struct sample *sample;
int po2;
int transitiontime, gi;
int current_cylinder, stopcylinder;
int stopidx;
int depth;
struct gaschanges *gaschanges = NULL;
int gaschangenr;
int *decostoplevels;
int decostoplevelcount;
int *stoplevels = NULL;
bool stopping = false;
bool pendinggaschange = false;
int clock, previous_point_time;
int avg_depth, max_depth;
int last_ascend_rate;
int best_first_ascend_cylinder;
struct gasmix gas, bottom_gas;
int o2time = 0;
int breaktime = -1;
int break_cylinder = -1, breakfrom_cylinder = 0;
int error = 0;
bool decodive = false;
int first_stop_depth = 0;
int laststoptime = timestep;
bool o2breaking = false;
int decostopcounter = 0;
set_gf(diveplan->gflow, diveplan->gfhigh);
set_vpmb_conservatism(diveplan->vpmb_conservatism);
if (!diveplan->surface_pressure)
diveplan->surface_pressure = SURFACE_PRESSURE;
dive->surface_pressure.mbar = diveplan->surface_pressure;
clear_deco(dive->surface_pressure.mbar / 1000.0);
deco_state->max_bottom_ceiling_pressure.mbar = deco_state->first_ceiling_pressure.mbar = 0;
create_dive_from_plan(diveplan, dive, is_planner);
// Do we want deco stop array in metres or feet?
if (prefs.units.length == METERS ) {
decostoplevels = decostoplevels_metric;
decostoplevelcount = sizeof(decostoplevels_metric) / sizeof(int);
} else {
decostoplevels = decostoplevels_imperial;
decostoplevelcount = sizeof(decostoplevels_imperial) / sizeof(int);
}
/* If the user has selected last stop to be at 6m/20', we need to get rid of the 3m/10' stop.
* Otherwise reinstate the last stop 3m/10' stop.
*/
if (prefs.last_stop)
*(decostoplevels + 1) = 0;
else
*(decostoplevels + 1) = M_OR_FT(3,10);
/* Let's start at the last 'sample', i.e. the last manually entered waypoint. */
sample = &dive->dc.sample[dive->dc.samples - 1];
current_cylinder = get_cylinderid_at_time(dive, &dive->dc, sample->time);
gas = dive->cylinder[current_cylinder].gasmix;
po2 = sample->setpoint.mbar;
depth = dive->dc.sample[dive->dc.samples - 1].depth.mm;
average_max_depth(diveplan, &avg_depth, &max_depth);
last_ascend_rate = ascent_velocity(depth, avg_depth, bottom_time);
/* if all we wanted was the dive just get us back to the surface */
if (!is_planner) {
transitiontime = depth / 75; /* this still needs to be made configurable */
plan_add_segment(diveplan, transitiontime, 0, current_cylinder, po2, false);
create_dive_from_plan(diveplan, dive, is_planner);
return false;
}
#if DEBUG_PLAN & 4
printf("gas %s\n", gasname(&gas));
printf("depth %5.2lfm \n", depth / 1000.0);
printf("current_cylinder %i\n", current_cylinder);
#endif
best_first_ascend_cylinder = current_cylinder;
/* Find the gases available for deco */
if (po2) { // Don't change gas in CCR mode
gaschanges = NULL;
gaschangenr = 0;
} else {
gaschanges = analyze_gaslist(diveplan, &gaschangenr, depth, &best_first_ascend_cylinder);
}
/* Find the first potential decostopdepth above current depth */
for (stopidx = 0; stopidx < decostoplevelcount; stopidx++)
if (*(decostoplevels + stopidx) >= depth)
break;
if (stopidx > 0)
stopidx--;
/* Stoplevels are either depths of gas changes or potential deco stop depths. */
stoplevels = sort_stops(decostoplevels, stopidx + 1, gaschanges, gaschangenr);
stopidx += gaschangenr;
/* Keep time during the ascend */
bottom_time = clock = previous_point_time = dive->dc.sample[dive->dc.samples - 1].time.seconds;
gi = gaschangenr - 1;
/* Set tissue tolerance and initial vpmb gradient at start of ascent phase */
diveplan->surface_interval = tissue_at_end(dive, cached_datap);
nuclear_regeneration(clock);
vpmb_start_gradient();
if (decoMode() == RECREATIONAL) {
bool safety_stop = prefs.safetystop && max_depth >= 10000;
track_ascent_gas(depth, &dive->cylinder[current_cylinder], avg_depth, bottom_time, safety_stop);
// How long can we stay at the current depth and still directly ascent to the surface?
do {
add_segment(depth_to_bar(depth, dive),
&dive->cylinder[current_cylinder].gasmix,
timestep, po2, dive, prefs.bottomsac);
update_cylinder_pressure(dive, depth, depth, timestep, prefs.bottomsac, &dive->cylinder[current_cylinder], false);
clock += timestep;
} while (trial_ascent(0, depth, 0, avg_depth, bottom_time, &dive->cylinder[current_cylinder].gasmix,
po2, diveplan->surface_pressure / 1000.0, dive) &&
enough_gas(current_cylinder));
// We did stay one DECOTIMESTEP too many.
// In the best of all worlds, we would roll back also the last add_segment in terms of caching deco state, but
// let's ignore that since for the eventual ascent in recreational mode, nobody looks at the ceiling anymore,
// so we don't really have to compute the deco state.
update_cylinder_pressure(dive, depth, depth, -timestep, prefs.bottomsac, &dive->cylinder[current_cylinder], false);
clock -= timestep;
plan_add_segment(diveplan, clock - previous_point_time, depth, current_cylinder, po2, true);
previous_point_time = clock;
do {
/* Ascend to surface */
int deltad = ascent_velocity(depth, avg_depth, bottom_time) * TIMESTEP;
if (ascent_velocity(depth, avg_depth, bottom_time) != last_ascend_rate) {
plan_add_segment(diveplan, clock - previous_point_time, depth, current_cylinder, po2, false);
previous_point_time = clock;
last_ascend_rate = ascent_velocity(depth, avg_depth, bottom_time);
}
if (depth - deltad < 0)
deltad = depth;
clock += TIMESTEP;
depth -= deltad;
if (depth <= 5000 && depth >= (5000 - deltad) && safety_stop) {
plan_add_segment(diveplan, clock - previous_point_time, 5000, current_cylinder, po2, false);
previous_point_time = clock;
clock += 180;
plan_add_segment(diveplan, clock - previous_point_time, 5000, current_cylinder, po2, false);
previous_point_time = clock;
safety_stop = false;
}
} while (depth > 0);
plan_add_segment(diveplan, clock - previous_point_time, 0, current_cylinder, po2, false);
create_dive_from_plan(diveplan, dive, is_planner);
add_plan_to_notes(diveplan, dive, show_disclaimer, error);
fixup_dc_duration(&dive->dc);
free(stoplevels);
free(gaschanges);
return false;
}
if (best_first_ascend_cylinder != current_cylinder) {
current_cylinder = best_first_ascend_cylinder;
gas = dive->cylinder[current_cylinder].gasmix;
#if DEBUG_PLAN & 16
printf("switch to gas %d (%d/%d) @ %5.2lfm\n", best_first_ascend_cylinder,
(get_o2(&gas) + 5) / 10, (get_he(&gas) + 5) / 10, gaschanges[best_first_ascend_cylinder].depth / 1000.0);
#endif
}
// VPM-B or Buehlmann Deco
tissue_at_end(dive, cached_datap);
previous_deco_time = 100000000;
deco_time = 10000000;
cache_deco_state(&bottom_cache); // Lets us make several iterations
bottom_depth = depth;
bottom_gi = gi;
bottom_gas = gas;
bottom_stopidx = stopidx;
//CVA
do {
decostopcounter = 0;
is_final_plan = (decoMode() == BUEHLMANN) || (previous_deco_time - deco_time < 10); // CVA time converges
if (deco_time != 10000000)
vpmb_next_gradient(deco_time, diveplan->surface_pressure / 1000.0);
previous_deco_time = deco_time;
restore_deco_state(bottom_cache, true);
depth = bottom_depth;
gi = bottom_gi;
clock = previous_point_time = bottom_time;
gas = bottom_gas;
stopping = false;
decodive = false;
first_stop_depth = 0;
stopidx = bottom_stopidx;
breaktime = -1;
o2time = 0;
deco_state->first_ceiling_pressure.mbar = depth_to_mbar(deco_allowed_depth(tissue_tolerance_calc(dive,
depth_to_bar(depth, dive)),
diveplan->surface_pressure / 1000.0,
dive,
1),
dive);
if (deco_state->max_bottom_ceiling_pressure.mbar > deco_state->first_ceiling_pressure.mbar)
deco_state->first_ceiling_pressure.mbar = deco_state->max_bottom_ceiling_pressure.mbar;
last_ascend_rate = ascent_velocity(depth, avg_depth, bottom_time);
/* Always prefer the best_first_ascend_cylinder if it has the right gasmix.
* Otherwise take first cylinder from list with rightgasmix */
if (same_gasmix(&gas, &dive->cylinder[best_first_ascend_cylinder].gasmix))
current_cylinder = best_first_ascend_cylinder;
else
current_cylinder = get_gasidx(dive, &gas);
if (current_cylinder == -1) {
report_error(translate("gettextFromC", "Can't find gas %s"), gasname(&gas));
current_cylinder = 0;
}
reset_regression();
while (1) {
/* We will break out when we hit the surface */
do {
/* Ascend to next stop depth */
int deltad = ascent_velocity(depth, avg_depth, bottom_time) * TIMESTEP;
if (ascent_velocity(depth, avg_depth, bottom_time) != last_ascend_rate) {
if (is_final_plan)
plan_add_segment(diveplan, clock - previous_point_time, depth, current_cylinder, po2, false);
previous_point_time = clock;
stopping = false;
last_ascend_rate = ascent_velocity(depth, avg_depth, bottom_time);
}
if (depth - deltad < stoplevels[stopidx])
deltad = depth - stoplevels[stopidx];
add_segment(depth_to_bar(depth, dive),
&dive->cylinder[current_cylinder].gasmix,
TIMESTEP, po2, dive, prefs.decosac);
clock += TIMESTEP;
depth -= deltad;
/* Print VPM-Gradient as gradient factor, this has to be done from within deco.c */
if (decodive)
plot_depth = depth;
} while (depth > 0 && depth > stoplevels[stopidx]);
if (depth <= 0)
break; /* We are at the surface */
if (gi >= 0 && stoplevels[stopidx] <= gaschanges[gi].depth) {
/* We have reached a gas change.
* Record this in the dive plan */
if (is_final_plan)
plan_add_segment(diveplan, clock - previous_point_time, depth, current_cylinder, po2, false);
previous_point_time = clock;
stopping = true;
/* Check we need to change cylinder.
* We might not if the cylinder was chosen by the user
* or user has selected only to switch only at required stops.
* If current gas is hypoxic, we want to switch asap */
if (current_cylinder != gaschanges[gi].gasidx) {
if (!prefs.switch_at_req_stop ||
!trial_ascent(0, depth, stoplevels[stopidx - 1], avg_depth, bottom_time,
&dive->cylinder[current_cylinder].gasmix, po2, diveplan->surface_pressure / 1000.0, dive) || get_o2(&dive->cylinder[current_cylinder].gasmix) < 160) {
current_cylinder = gaschanges[gi].gasidx;
gas = dive->cylinder[current_cylinder].gasmix;
#if DEBUG_PLAN & 16
printf("switch to gas %d (%d/%d) @ %5.2lfm\n", gaschanges[gi].gasidx,
(get_o2(&gas) + 5) / 10, (get_he(&gas) + 5) / 10, gaschanges[gi].depth / 1000.0);
#endif
/* Stop for the minimum duration to switch gas */
if (!(prefs.doo2breaks && get_o2(&dive->cylinder[current_cylinder].gasmix) == 1000)) {
add_segment(depth_to_bar(depth, dive),
&dive->cylinder[current_cylinder].gasmix,
prefs.min_switch_duration, po2, dive, prefs.decosac);
clock += prefs.min_switch_duration;
}
} else {
/* The user has selected the option to switch gas only at required stops.
* Remember that we are waiting to switch gas
*/
pendinggaschange = true;
}
}
gi--;
}
--stopidx;
/* Save the current state and try to ascend to the next stopdepth */
while (1) {
/* Check if ascending to next stop is clear, go back and wait if we hit the ceiling on the way */
if (trial_ascent(0, depth, stoplevels[stopidx], avg_depth, bottom_time,
&dive->cylinder[current_cylinder].gasmix, po2, diveplan->surface_pressure / 1000.0, dive)) {
decostoptable[decostopcounter].depth = depth;
decostoptable[decostopcounter].time = 0;
decostopcounter++;
break; /* We did not hit the ceiling */
}
/* Add a minute of deco time and then try again */
if (!decodive) {
decodive = true;
first_stop_depth = depth;
}
if (!stopping) {
/* The last segment was an ascend segment.
* Add a waypoint for start of this deco stop */
if (is_final_plan)
plan_add_segment(diveplan, clock - previous_point_time, depth, current_cylinder, po2, false);
previous_point_time = clock;
stopping = true;
}
/* Are we waiting to switch gas?
* Occurs when the user has selected the option to switch only at required stops
*/
if (pendinggaschange) {
current_cylinder = gaschanges[gi + 1].gasidx;
gas = dive->cylinder[current_cylinder].gasmix;
#if DEBUG_PLAN & 16
printf("switch to gas %d (%d/%d) @ %5.2lfm\n", gaschanges[gi + 1].gasidx,
(get_o2(&gas) + 5) / 10, (get_he(&gas) + 5) / 10, gaschanges[gi + 1].depth / 1000.0);
#endif
/* Stop for the minimum duration to switch gas */
if (!(prefs.doo2breaks && get_o2(&dive->cylinder[current_cylinder].gasmix) == 1000)) {
add_segment(depth_to_bar(depth, dive),
&dive->cylinder[current_cylinder].gasmix,
prefs.min_switch_duration, po2, dive, prefs.decosac);
clock += prefs.min_switch_duration;
}
pendinggaschange = false;
}
int new_clock = wait_until(dive, clock, clock, laststoptime * 2 + 1, timestep, depth, stoplevels[stopidx], avg_depth, bottom_time, &dive->cylinder[current_cylinder].gasmix, po2, diveplan->surface_pressure / 1000.0);
laststoptime = new_clock - clock;
/* Finish infinite deco */
if (clock >= 48 * 3600 && depth >= 6000) {
error = LONGDECO;
break;
}
o2breaking = false;
stopcylinder = current_cylinder;
if (prefs.doo2breaks) {
/* The backgas breaks option limits time on oxygen to 12 minutes, followed by 6 minutes on
* backgas. This could be customized if there were demand.
*/
if (break_cylinder == -1) {
if (get_o2(&dive->cylinder[best_first_ascend_cylinder].gasmix) <= 320)
break_cylinder = best_first_ascend_cylinder;
else
break_cylinder = 0;
}
if (get_o2(&dive->cylinder[current_cylinder].gasmix) == 1000) {
if (laststoptime >= 12 * 60) {
laststoptime = 12 * 60;
new_clock = clock + laststoptime;
o2breaking = true;
breaktime = 0;
breakfrom_cylinder = current_cylinder;
if (is_final_plan)
plan_add_segment(diveplan, laststoptime, depth, current_cylinder, po2, false);
previous_point_time = clock + laststoptime;
current_cylinder = break_cylinder;
gas = dive->cylinder[current_cylinder].gasmix;
}
} else {
if (breaktime >= 0) {
if (laststoptime >= 6 * 60) {
laststoptime = 6 * 60;
new_clock = clock + laststoptime;
o2breaking = true;
o2time = 0;
if (is_final_plan)
plan_add_segment(diveplan, laststoptime, depth, current_cylinder, po2, false);
previous_point_time = clock + laststoptime;
current_cylinder = breakfrom_cylinder;
gas = dive->cylinder[current_cylinder].gasmix;
breaktime = -1;
}
}
}
}
add_segment(depth_to_bar(depth, dive), &dive->cylinder[stopcylinder].gasmix,
laststoptime, po2, dive, prefs.decosac);
decostoptable[decostopcounter].depth = depth;
decostoptable[decostopcounter].time = laststoptime;
++decostopcounter;
clock += laststoptime;
if (!o2breaking)
break;
}
if (stopping) {
/* Next we will ascend again. Add a waypoint if we have spend deco time */
if (is_final_plan)
plan_add_segment(diveplan, clock - previous_point_time, depth, current_cylinder, po2, false);
previous_point_time = clock;
stopping = false;
}
}
deco_time = clock - bottom_time;
} while (!is_final_plan);
decostoptable[decostopcounter].depth = 0;
plan_add_segment(diveplan, clock - previous_point_time, 0, current_cylinder, po2, false);
if (decoMode() == VPMB) {
diveplan->eff_gfhigh = lrint(100.0 * regressionb());
diveplan->eff_gflow = lrint(100.0 * (regressiona() * first_stop_depth + regressionb()));
}
create_dive_from_plan(diveplan, dive, is_planner);
add_plan_to_notes(diveplan, dive, show_disclaimer, error);
fixup_dc_duration(&dive->dc);
free(stoplevels);
free(gaschanges);
free(bottom_cache);
return decodive;
}
/*
* Get a value in tenths (so "10.2" == 102, "9" = 90)
*
* Return negative for errors.
*/
static int get_tenths(const char *begin, const char **endp)
{
char *end;
int value = strtol(begin, &end, 10);
if (begin == end)
return -1;
value *= 10;
/* Fraction? We only look at the first digit */
if (*end == '.') {
end++;
if (!isdigit(*end))
return -1;
value += *end - '0';
do {
end++;
} while (isdigit(*end));
}
*endp = end;
return value;
}
static int get_permille(const char *begin, const char **end)
{
int value = get_tenths(begin, end);
if (value >= 0) {
/* Allow a percentage sign */
if (**end == '%')
++*end;
}
return value;
}
int validate_gas(const char *text, struct gasmix *gas)
{
int o2, he;
if (!text)
return 0;
while (isspace(*text))
text++;
if (!*text)
return 0;
if (!strcasecmp(text, translate("gettextFromC", "air"))) {
o2 = O2_IN_AIR;
he = 0;
text += strlen(translate("gettextFromC", "air"));
} else if (!strcasecmp(text, translate("gettextFromC", "oxygen"))) {
o2 = 1000;
he = 0;
text += strlen(translate("gettextFromC", "oxygen"));
} else if (!strncasecmp(text, translate("gettextFromC", "ean"), 3)) {
o2 = get_permille(text + 3, &text);
he = 0;
} else {
o2 = get_permille(text, &text);
he = 0;
if (*text == '/')
he = get_permille(text + 1, &text);
}
/* We don't want any extra crud */
while (isspace(*text))
text++;
if (*text)
return 0;
/* Validate the gas mix */
if (*text || o2 < 1 || o2 > 1000 || he < 0 || o2 + he > 1000)
return 0;
/* Let it rip */
gas->o2.permille = o2;
gas->he.permille = he;
return 1;
}
int validate_po2(const char *text, int *mbar_po2)
{
int po2;
if (!text)
return 0;
po2 = get_tenths(text, &text);
if (po2 < 0)
return 0;
while (isspace(*text))
text++;
while (isspace(*text))
text++;
if (*text)
return 0;
*mbar_po2 = po2 * 100;
return 1;
}
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