subsurface/core/trip.cpp
Berthold Stoeger 5c7cfb1057 core: replace list of dives in trip by std::vector<>
The dive_table will be converted into a table of owning pointers.
Since the trip has only non-owning pointers to dives, turn
its dive_table into an std::vector<dive *>.

Add a helper functions to add/remove items in a sorted list.
These could be used elsewhere.

Signed-off-by: Berthold Stoeger <bstoeger@mail.tuwien.ac.at>
2024-08-13 19:28:30 +02:00

289 lines
8 KiB
C++

// SPDX-License-Identifier: GPL-2.0
#include "trip.h"
#include "dive.h"
#include "divelog.h"
#include "errorhelper.h"
#include "range.h"
#include "subsurface-time.h"
#include "subsurface-string.h"
#include "selection.h"
#ifdef DEBUG_TRIP
void dump_trip_list()
{
timestamp_t last_time = 0;
for (auto &trip: divelog.trips) {
struct tm tm;
utc_mkdate(trip_date(*trip), &tm);
if (trip_date(*trip) < last_time)
printf("\n\ntrip_table 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 + 1, trip->location.c_str(),
tm.tm_year, tm.tm_mon + 1, tm.tm_mday, tm.tm_hour, tm.tm_min, tm.tm_sec,
static_cast<int>(trip->dives.size()), trip.get());
last_time = trip_date(*trip);
}
printf("-----\n");
}
#endif
dive_trip::dive_trip() : id(dive_getUniqID())
{
}
dive_trip::~dive_trip() = default;
timestamp_t trip_date(const struct dive_trip &trip)
{
if (trip.dives.empty())
return 0;
return trip.dives[0]->when;
}
static timestamp_t trip_enddate(const struct dive_trip &trip)
{
if (trip.dives.empty())
return 0;
return dive_endtime(trip.dives.back());
}
/* check if we have a trip right before / after this dive */
bool is_trip_before_after(const struct dive *dive, bool before)
{
int idx = get_idx_by_uniq_id(dive->id);
if (before) {
const struct dive *d = get_dive(idx - 1);
if (d && d->divetrip)
return true;
} else {
const struct dive *d = get_dive(idx + 1);
if (d && d->divetrip)
return true;
}
return false;
}
/* Add dive to a trip. Caller is responsible for removing dive
* from trip beforehand. */
void add_dive_to_trip(struct dive *dive, dive_trip *trip)
{
if (dive->divetrip == trip)
return;
if (dive->divetrip)
report_info("Warning: adding dive to trip that has trip set\n");
range_insert_sorted(trip->dives, dive, comp_dives);
dive->divetrip = trip;
}
/* remove a dive from the trip it's associated to, but don't delete the
* trip if this was the last dive in the trip. the caller is responsible
* for removing the trip, if the trip->dives.size() went to 0.
*/
struct dive_trip *unregister_dive_from_trip(struct dive *dive)
{
dive_trip *trip = dive->divetrip;
if (!trip)
return NULL;
range_remove(trip->dives, dive);
dive->divetrip = NULL;
return trip;
}
std::unique_ptr<dive_trip> create_trip_from_dive(const struct dive *dive)
{
auto trip = std::make_unique<dive_trip>();
trip->location = get_dive_location(dive);
return trip;
}
/* random threshold: three days without diving -> new trip
* this works very well for people who usually dive as part of a trip and don't
* regularly dive at a local facility; this is why trips are an optional feature */
#define TRIP_THRESHOLD 3600 * 24 * 3
/*
* Find a trip a new dive should be autogrouped with. If no such trips
* exist, allocate a new trip. A unique_ptr is returned if a new trip
* was allocated. The caller has to store it.
*/
std::pair<dive_trip *, std::unique_ptr<dive_trip>> get_trip_for_new_dive(const struct dive *new_dive)
{
dive *d;
int i;
/* Find dive that is within TRIP_THRESHOLD of current dive */
for_each_dive(i, d) {
/* Check if we're past the range of possible dives */
if (d->when >= new_dive->when + TRIP_THRESHOLD)
break;
if (d->when + TRIP_THRESHOLD >= new_dive->when && d->divetrip)
return { d->divetrip, nullptr }; /* Found a dive with trip in the range */
}
/* Didn't find a trip -> allocate a new one */
auto trip = create_trip_from_dive(new_dive);
trip->autogen = true;
auto t = trip.get();
return { t, std::move(trip) };
}
/* lookup of trip in main trip_table based on its id */
dive_trip *trip_table::get_by_uniq_id(int tripId) const
{
auto it = std::find_if(begin(), end(), [tripId](auto &t) { return t->id == tripId; });
return it != end() ? it->get() : nullptr;
}
/* Check if two trips overlap time-wise up to trip threshold. */
bool trips_overlap(const struct dive_trip &t1, const struct dive_trip &t2)
{
/* First, handle the empty-trip cases. */
if (t1.dives.empty() || t2.dives.empty())
return 0;
if (trip_date(t1) < trip_date(t2))
return trip_enddate(t1) + TRIP_THRESHOLD >= trip_date(t2);
else
return trip_enddate(t2) + TRIP_THRESHOLD >= trip_date(t1);
}
/*
* Collect dives for auto-grouping. Pass in first dive which should be checked.
* Returns range of dives that should be autogrouped and trip it should be
* associated to. If the returned trip was newly allocated, a std::unique_ptr<>
* to the trip is returned.
* is set to true. Caller still has to register it in the system. Note
* whereas this looks complicated - it is needed by the undo-system, which
* manually injects the new trips. If there are no dives to be autogrouped,
* return NULL.
*/
std::vector<dives_to_autogroup_result> get_dives_to_autogroup(struct dive_table *table)
{
std::vector<dives_to_autogroup_result> res;
struct dive *lastdive = NULL;
/* Find first dive that should be merged and remember any previous
* dive that could be merged into.
*/
for (int i = 0; i < table->nr; ++i) {
struct dive *dive = table->dives[i];
dive_trip *trip;
if (dive->divetrip) {
lastdive = dive;
continue;
}
/* Only consider dives that have not been explicitly removed from
* a dive trip by the user. */
if (dive->notrip) {
lastdive = NULL;
continue;
}
/* We found a dive, let's see if we have to allocate a new trip */
std::unique_ptr<dive_trip> allocated;
if (!lastdive || dive->when >= lastdive->when + TRIP_THRESHOLD) {
/* allocate new trip */
allocated = create_trip_from_dive(dive);
allocated->autogen = true;
trip = allocated.get();
} else {
/* use trip of previous dive */
trip = lastdive->divetrip;
}
// Now, find all dives that will be added to this trip
lastdive = dive;
int to;
for (to = i + 1; to < table->nr; to++) {
dive = table->dives[to];
if (dive->divetrip || dive->notrip ||
dive->when >= lastdive->when + TRIP_THRESHOLD)
break;
if (trip->location.empty())
trip->location = get_dive_location(dive);
lastdive = dive;
}
res.push_back({ i, to, trip, std::move(allocated) });
i = to - 1;
}
return res;
}
/* Out of two strings, get the string that is not empty (if any). */
static std::string non_empty_string(const std::string &a, const std::string &b)
{
return b.empty() ? a : b;
}
/* This combines the information of two trips, generating a
* new trip. To support undo, we have to preserve the old trips. */
std::unique_ptr<dive_trip> combine_trips(struct dive_trip *trip_a, struct dive_trip *trip_b)
{
auto trip = std::make_unique<dive_trip>();
trip->location = non_empty_string(trip_a->location, trip_b->location);
trip->notes = non_empty_string(trip_a->notes, trip_b->notes);
return trip;
}
/* Trips are compared according to the first dive in the trip. */
int comp_trips(const struct dive_trip &a, const struct dive_trip &b)
{
// To make sure that trips never compare equal, compare by
// address if both are empty.
if (&a == &b)
return 0; // reflexivity. shouldn't happen.
if (a.dives.empty() && b.dives.empty())
return &a < &b ? -1 : 1;
if (a.dives.empty())
return -1;
if (b.dives.empty())
return 1;
return comp_dives(a.dives[0], b.dives[0]);
}
static bool is_same_day(timestamp_t trip_when, timestamp_t dive_when)
{
static timestamp_t twhen = (timestamp_t) 0;
static struct tm tmt;
struct tm tmd;
utc_mkdate(dive_when, &tmd);
if (twhen != trip_when) {
twhen = trip_when;
utc_mkdate(twhen, &tmt);
}
return (tmd.tm_mday == tmt.tm_mday) && (tmd.tm_mon == tmt.tm_mon) && (tmd.tm_year == tmt.tm_year);
}
bool trip_is_single_day(const struct dive_trip &trip)
{
if (trip.dives.size() <= 1)
return true;
return is_same_day(trip.dives.front()->when,
trip.dives.back()->when);
}
int trip_shown_dives(const struct dive_trip *trip)
{
return std::count_if(trip->dives.begin(), trip->dives.end(),
[](const dive *d) { return !d->hidden_by_filter; });
}
void dive_trip::sort_dives()
{
std::sort(dives.begin(), dives.end(), [] (dive *d1, dive *d2) { return comp_dives(d1, d2) < 0; });
}