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ae81b42fe2
Thise makes initialization of unit types more palatable. For example: surface.time = sample.time - duration_t { .seconds = 20 }; => surface.time = sample.time - 20_sec; delta_depth.mm = feet_to_mm(1.0); // 1ft => delta_depth = 1_ft; get_cylinderid_at_time(..., { .seconds = 20 * 60 + 1 })); => get_cylinderid_at_time(..., 20_min + 1_sec)); Signed-off-by: Berthold Stoeger <bstoeger@mail.tuwien.ac.at>
301 lines
9.8 KiB
C++
301 lines
9.8 KiB
C++
// SPDX-License-Identifier: GPL-2.0
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/* statistics.cpp
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*
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* core logic for the Info & Stats page
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*/
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#include "statistics.h"
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#include "dive.h"
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#include "divelog.h"
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#include "event.h"
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#include "gettext.h"
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#include "range.h"
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#include "sample.h"
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#include "subsurface-time.h"
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#include "trip.h"
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#include "units.h"
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#include <stdlib.h>
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#include <string.h>
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#include <ctype.h>
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static void process_temperatures(const struct dive &dp, stats_t &stats)
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{
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temperature_t min_temp, mean_temp, max_temp;
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max_temp.mkelvin = dp.maxtemp.mkelvin;
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if (max_temp.mkelvin && (!stats.max_temp.mkelvin || max_temp.mkelvin > stats.max_temp.mkelvin))
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stats.max_temp.mkelvin = max_temp.mkelvin;
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min_temp.mkelvin = dp.mintemp.mkelvin;
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if (min_temp.mkelvin && (!stats.min_temp.mkelvin || min_temp.mkelvin < stats.min_temp.mkelvin))
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stats.min_temp.mkelvin = min_temp.mkelvin;
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if (min_temp.mkelvin || max_temp.mkelvin) {
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mean_temp.mkelvin = min_temp.mkelvin;
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if (mean_temp.mkelvin)
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mean_temp.mkelvin = (mean_temp.mkelvin + max_temp.mkelvin) / 2;
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else
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mean_temp.mkelvin = max_temp.mkelvin;
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stats.combined_temp.mkelvin += mean_temp.mkelvin;
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stats.combined_count++;
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}
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}
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static void process_dive(const struct dive &dive, stats_t &stats)
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{
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int old_tadt, sac_time = 0;
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int32_t duration = dive.duration.seconds;
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old_tadt = stats.total_average_depth_time.seconds;
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stats.total_time.seconds += duration;
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if (duration > stats.longest_time.seconds)
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stats.longest_time.seconds = duration;
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if (stats.shortest_time.seconds == 0 || duration < stats.shortest_time.seconds)
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stats.shortest_time.seconds = duration;
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if (dive.maxdepth.mm > stats.max_depth.mm)
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stats.max_depth.mm = dive.maxdepth.mm;
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if (stats.min_depth.mm == 0 || dive.maxdepth.mm < stats.min_depth.mm)
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stats.min_depth.mm = dive.maxdepth.mm;
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stats.combined_max_depth.mm += dive.maxdepth.mm;
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process_temperatures(dive, stats);
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/* Maybe we should drop zero-duration dives */
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if (!duration)
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return;
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if (dive.meandepth.mm) {
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stats.total_average_depth_time.seconds += duration;
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stats.avg_depth.mm = lrint((1.0 * old_tadt * stats.avg_depth.mm +
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duration * dive.meandepth.mm) /
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stats.total_average_depth_time.seconds);
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}
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if (dive.sac > 100) { /* less than .1 l/min is bogus, even with a pSCR */
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sac_time = stats.total_sac_time.seconds + duration;
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stats.avg_sac.mliter = lrint((1.0 * stats.total_sac_time.seconds * stats.avg_sac.mliter +
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duration * dive.sac) /
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sac_time);
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if (dive.sac > stats.max_sac.mliter)
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stats.max_sac.mliter = dive.sac;
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if (stats.min_sac.mliter == 0 || dive.sac < stats.min_sac.mliter)
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stats.min_sac.mliter = dive.sac;
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stats.total_sac_time.seconds = sac_time;
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}
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}
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/*
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* Calculate a summary of the statistics and put in the stats_summary
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* structure provided in the first parameter.
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* Before first use, it should be initialized with init_stats_summary().
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* After use, memory must be released with free_stats_summary().
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*/
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stats_summary calculate_stats_summary(bool selected_only)
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{
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struct tm tm;
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int current_year = -1;
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int current_month = 0;
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int prev_month = 0, prev_year = 0;
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dive_trip *trip_ptr = nullptr;
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stats_summary out;
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/* stats_by_trip[0] is all the dives combined */
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out.stats_by_trip.emplace_back();
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/* Setting the is_trip to true to show the location as first
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* field in the statistics window */
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out.stats_by_type.resize(NUM_DIVEMODE + 1);
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out.stats_by_type[0].location = translate("gettextFromC", "All (by type stats)");
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out.stats_by_type[0].is_trip = true;
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out.stats_by_type[1].location = translate("gettextFromC", divemode_text_ui[OC]);
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out.stats_by_type[1].is_trip = true;
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out.stats_by_type[2].location = translate("gettextFromC", divemode_text_ui[CCR]);
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out.stats_by_type[2].is_trip = true;
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out.stats_by_type[3].location = translate("gettextFromC", divemode_text_ui[PSCR]);
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out.stats_by_type[3].is_trip = true;
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out.stats_by_type[4].location = translate("gettextFromC", divemode_text_ui[FREEDIVE]);
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out.stats_by_type[4].is_trip = true;
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out.stats_by_depth.resize((STATS_MAX_DEPTH / STATS_DEPTH_BUCKET) + 1);
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out.stats_by_depth[0].location = translate("gettextFromC", "All (by max depth stats)");
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out.stats_by_depth[0].is_trip = true;
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out.stats_by_temp.resize((STATS_MAX_TEMP / STATS_TEMP_BUCKET) + 1);
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out.stats_by_temp[0].location = translate("gettextFromC", "All (by min. temp stats)");
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out.stats_by_temp[0].is_trip = true;
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/* this relies on the fact that the dives in the dive_table
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* are in chronological order */
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for (auto &dp: divelog.dives) {
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if (selected_only && !dp->selected)
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continue;
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if (dp->invalid)
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continue;
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//process_dive(dp, &stats);
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/* yearly statistics */
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utc_mkdate(dp->when, &tm);
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if (current_year != tm.tm_year || out.stats_yearly.empty()) {
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current_year = tm.tm_year;
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out.stats_yearly.emplace_back();
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out.stats_yearly.back().is_year = true;
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}
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process_dive(*dp, out.stats_yearly.back());
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out.stats_yearly.back().selection_size++;
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out.stats_yearly.back().period = current_year;
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/* stats_by_type[0] is all the dives combined */
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out.stats_by_type[0].selection_size++;
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process_dive(*dp, out.stats_by_type[0]);
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process_dive(*dp, out.stats_by_type[dp->dcs[0].divemode + 1]);
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out.stats_by_type[dp->dcs[0].divemode + 1].selection_size++;
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/* stats_by_depth[0] is all the dives combined */
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out.stats_by_depth[0].selection_size++;
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process_dive(*dp, out.stats_by_depth[0]);
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int d_idx = dp->maxdepth.mm / (STATS_DEPTH_BUCKET * 1000);
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d_idx = std::clamp(d_idx, 0, STATS_MAX_DEPTH / STATS_DEPTH_BUCKET);
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process_dive(*dp, out.stats_by_depth[d_idx + 1]);
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out.stats_by_depth[d_idx + 1].selection_size++;
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/* stats_by_temp[0] is all the dives combined */
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out.stats_by_temp[0].selection_size++;
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process_dive(*dp, out.stats_by_temp[0]);
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int t_idx = ((int)mkelvin_to_C(dp->mintemp.mkelvin)) / STATS_TEMP_BUCKET;
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t_idx = std::clamp(t_idx, 0, STATS_MAX_TEMP / STATS_TEMP_BUCKET);
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process_dive(*dp, out.stats_by_temp[t_idx + 1]);
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out.stats_by_temp[t_idx + 1].selection_size++;
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if (dp->divetrip != NULL) {
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if (trip_ptr != dp->divetrip) {
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trip_ptr = dp->divetrip;
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out.stats_by_trip.emplace_back();
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}
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/* stats_by_trip[0] is all the dives combined */
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/* TODO: yet, this doesn't seem to consider dives outside of trips !? */
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out.stats_by_trip[0].selection_size++;
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process_dive(*dp, out.stats_by_trip[0]);
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out.stats_by_trip[0].is_trip = true;
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out.stats_by_trip[0].location = translate("gettextFromC", "All (by trip stats)");
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process_dive(*dp, out.stats_by_trip.back());
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out.stats_by_trip.back().selection_size++;
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out.stats_by_trip.back().is_trip = true;
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out.stats_by_trip.back().location = dp->divetrip->location;
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}
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/* monthly statistics */
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if (current_month == 0 || out.stats_monthly.empty()) {
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current_month = tm.tm_mon + 1;
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out.stats_monthly.emplace_back();
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} else {
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if (current_month != tm.tm_mon + 1)
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current_month = tm.tm_mon + 1;
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if (prev_month != current_month || prev_year != current_year)
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out.stats_monthly.emplace_back();
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}
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process_dive(*dp, out.stats_monthly.back());
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out.stats_monthly.back().selection_size++;
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out.stats_monthly.back().period = current_month;
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prev_month = current_month;
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prev_year = current_year;
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}
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/* add labels for depth ranges up to maximum depth seen */
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if (out.stats_by_depth[0].selection_size) {
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int d_idx = out.stats_by_depth[0].max_depth.mm;
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if (d_idx > STATS_MAX_DEPTH * 1000)
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d_idx = STATS_MAX_DEPTH * 1000;
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for (int r = 0; r * (STATS_DEPTH_BUCKET * 1000) < d_idx; ++r)
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out.stats_by_depth[r+1].is_trip = true;
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}
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/* add labels for depth ranges up to maximum temperature seen */
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if (out.stats_by_temp[0].selection_size) {
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int t_idx = (int)mkelvin_to_C(out.stats_by_temp[0].max_temp.mkelvin);
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if (t_idx > STATS_MAX_TEMP)
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t_idx = STATS_MAX_TEMP;
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for (int r = 0; r * STATS_TEMP_BUCKET < t_idx; ++r)
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out.stats_by_temp[r+1].is_trip = true;
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}
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return out;
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}
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stats_summary::stats_summary() = default;
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stats_summary::~stats_summary() = default;
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/* make sure we skip the selected summary entries */
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stats_t calculate_stats_selected()
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{
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stats_t stats_selection;
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unsigned int nr = 0;
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for (auto &dive: divelog.dives) {
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if (dive->selected && !dive->invalid) {
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process_dive(*dive, stats_selection);
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nr++;
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}
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}
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stats_selection.selection_size = nr;
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return stats_selection;
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}
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#define SOME_GAS 5000 // 5bar drop in cylinder pressure makes cylinder used
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/* Returns a vector with dive->cylinders.size() entries */
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std::vector<volume_t> get_gas_used(struct dive *dive)
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{
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std::vector<volume_t> gases(dive->cylinders.size());
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for (auto [idx, cyl]: enumerated_range(dive->cylinders)) {
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pressure_t start, end;
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start = cyl.start.mbar ? cyl.start : cyl.sample_start;
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end = cyl.end.mbar ? cyl.end : cyl.sample_end;
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// TODO: Implement addition/subtraction on units.h types
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if (end.mbar && start.mbar > end.mbar)
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gases[idx] = cyl.gas_volume(start) - cyl.gas_volume(end);
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else
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gases[idx] = 0_l;
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}
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return gases;
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}
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/* Quite crude reverse-blender-function, but it produces an approx result.
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* Returns an (O2, He) pair. */
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static std::pair<volume_t, volume_t> get_gas_parts(struct gasmix mix, volume_t vol, int o2_in_topup)
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{
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if (gasmix_is_air(mix))
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return { volume_t() , volume_t() };
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volume_t air { .mliter = int_cast<int>(((double)vol.mliter * get_n2(mix)) / (1000 - o2_in_topup)) };
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volume_t he { .mliter = int_cast<int>(((double)vol.mliter * get_he(mix)) / 1000.0) };
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volume_t o2 = vol - he - air;
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return std::make_pair(o2, he);
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}
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std::pair<volume_t, volume_t> selected_dives_gas_parts()
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{
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volume_t o2_tot, he_tot;
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for (auto &d: divelog.dives) {
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if (!d->selected || d->invalid)
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continue;
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int j = 0;
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for (auto &gas: get_gas_used(d.get())) {
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if (gas.mliter) {
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auto [o2, he] = get_gas_parts(d->get_cylinder(j)->gasmix, gas, O2_IN_AIR);
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o2_tot += o2;
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he_tot += he;
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}
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j++;
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}
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}
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return std::make_pair(o2_tot, he_tot);
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}
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