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cd0963c26f
The purpose of testing against known Subsurface runtimes is to warn (when test is run in verbose mode) if the runtime has altered. Before the next release, we should update the known Subsurface runtimes to match current behaviour, so we are alerted when we change something during the next release cycle. Signed-off-by: Rick Walsh <rickmwalsh@gmail.com> Signed-off-by: Dirk Hohndel <dirk@hohndel.org>
627 lines
20 KiB
C++
627 lines
20 KiB
C++
#include "dive.h"
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#include "testplan.h"
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#include "planner.h"
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#include "units.h"
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#include "subsurfacestartup.h"
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#include "qthelper.h"
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#include <QDebug>
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#define DEBUG 1
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// testing the dive plan algorithm
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extern bool plan(struct diveplan *diveplan, char **cached_datap, bool is_planner, bool show_disclaimer);
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extern pressure_t first_ceiling_pressure;
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void setupPrefs()
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{
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copy_prefs(&default_prefs, &prefs);
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prefs.ascrate50 = feet_to_mm(30) / 60;
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prefs.ascrate75 = prefs.ascrate50;
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prefs.ascratestops = prefs.ascrate50;
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prefs.ascratelast6m = feet_to_mm(10) / 60;
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prefs.last_stop = true;
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}
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void setupPrefsVpmb()
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{
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copy_prefs(&default_prefs, &prefs);
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prefs.ascrate50 = 10000 / 60;
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prefs.ascrate75 = prefs.ascrate50;
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prefs.ascratestops = prefs.ascrate50;
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prefs.ascratelast6m = prefs.ascrate50;
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prefs.descrate = 99000 / 60;
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prefs.last_stop = false;
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prefs.deco_mode = VPMB;
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prefs.conservatism_level = 0;
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}
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void setupPlan(struct diveplan *dp)
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{
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dp->salinity = 10300;
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dp->surface_pressure = 1013;
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dp->gfhigh = 100;
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dp->gflow = 100;
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dp->bottomsac = 0;
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dp->decosac = 0;
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struct gasmix bottomgas = { {150}, {450} };
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struct gasmix ean36 = { {360}, {0} };
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struct gasmix oxygen = { {1000}, {0} };
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pressure_t po2 = { 1600 };
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displayed_dive.cylinder[0].gasmix = bottomgas;
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displayed_dive.cylinder[1].gasmix = ean36;
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displayed_dive.cylinder[2].gasmix = oxygen;
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reset_cylinders(&displayed_dive, true);
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free_dps(dp);
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int droptime = M_OR_FT(79, 260) * 60 / M_OR_FT(23, 75);
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plan_add_segment(dp, droptime, M_OR_FT(79, 260), bottomgas, 0, 1);
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plan_add_segment(dp, 30*60 - droptime, M_OR_FT(79, 260), bottomgas, 0, 1);
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plan_add_segment(dp, 0, gas_mod(&ean36, po2, &displayed_dive, M_OR_FT(3,10)).mm, ean36, 0, 1);
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plan_add_segment(dp, 0, gas_mod(&oxygen, po2, &displayed_dive, M_OR_FT(3,10)).mm, oxygen, 0, 1);
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}
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void setupPlanVpmb60m30minAir(struct diveplan *dp)
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{
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dp->salinity = 10300;
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dp->surface_pressure = 1013;
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dp->bottomsac = 0;
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dp->decosac = 0;
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struct gasmix bottomgas = { {210}, {0} };
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pressure_t po2 = { 1600 };
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displayed_dive.cylinder[0].gasmix = bottomgas;
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displayed_dive.surface_pressure.mbar = 1013;
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reset_cylinders(&displayed_dive, true);
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free_dps(dp);
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int droptime = M_OR_FT(60, 200) * 60 / M_OR_FT(99, 330);
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plan_add_segment(dp, droptime, M_OR_FT(60, 200), bottomgas, 0, 1);
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plan_add_segment(dp, 30*60 - droptime, M_OR_FT(60, 200), bottomgas, 0, 1);
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}
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void setupPlanVpmb60m30minEan50(struct diveplan *dp)
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{
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dp->salinity = 10300;
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dp->surface_pressure = 1013;
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dp->bottomsac = 0;
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dp->decosac = 0;
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struct gasmix bottomgas = { {210}, {0} };
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struct gasmix ean50 = { {500}, {0} };
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pressure_t po2 = { 1600 };
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displayed_dive.cylinder[0].gasmix = bottomgas;
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displayed_dive.cylinder[1].gasmix = ean50;
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displayed_dive.surface_pressure.mbar = 1013;
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reset_cylinders(&displayed_dive, true);
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free_dps(dp);
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int droptime = M_OR_FT(60, 200) * 60 / M_OR_FT(99, 330);
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plan_add_segment(dp, droptime, M_OR_FT(60, 200), bottomgas, 0, 1);
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plan_add_segment(dp, 30*60 - droptime, M_OR_FT(60, 200), bottomgas, 0, 1);
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plan_add_segment(dp, 0, gas_mod(&ean50, po2, &displayed_dive, M_OR_FT(3,10)).mm, ean50, 0, 1);
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}
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void setupPlanVpmb60m30minTx(struct diveplan *dp)
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{
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dp->salinity = 10300;
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dp->surface_pressure = 1013;
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dp->bottomsac = 0;
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dp->decosac = 0;
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struct gasmix bottomgas = { {180}, {450} };
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struct gasmix ean50 = { {500}, {0} };
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pressure_t po2 = { 1600 };
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displayed_dive.cylinder[0].gasmix = bottomgas;
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displayed_dive.cylinder[1].gasmix = ean50;
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displayed_dive.surface_pressure.mbar = 1013;
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reset_cylinders(&displayed_dive, true);
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free_dps(dp);
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int droptime = M_OR_FT(60, 200) * 60 / M_OR_FT(99, 330);
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plan_add_segment(dp, droptime, M_OR_FT(60, 200), bottomgas, 0, 1);
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plan_add_segment(dp, 30*60 - droptime, M_OR_FT(60, 200), bottomgas, 0, 1);
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plan_add_segment(dp, 0, gas_mod(&ean50, po2, &displayed_dive, M_OR_FT(3,10)).mm, ean50, 0, 1);
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}
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void setupPlanVpmbMultiLevelAir(struct diveplan *dp)
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{
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dp->salinity = 10300;
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dp->surface_pressure = 1013;
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dp->bottomsac = 0;
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dp->decosac = 0;
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struct gasmix bottomgas = { {210}, {0} };
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pressure_t po2 = { 1600 };
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displayed_dive.cylinder[0].gasmix = bottomgas;
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displayed_dive.surface_pressure.mbar = 1013;
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reset_cylinders(&displayed_dive, true);
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free_dps(dp);
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int droptime = M_OR_FT(20, 66) * 60 / M_OR_FT(99, 330);
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plan_add_segment(dp, droptime, M_OR_FT(20, 66), bottomgas, 0, 1);
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plan_add_segment(dp, 10*60 - droptime, M_OR_FT(20, 66), bottomgas, 0, 1);
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plan_add_segment(dp, 1*60, M_OR_FT(60, 200), bottomgas, 0, 1);
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plan_add_segment(dp, 29*60, M_OR_FT(60, 200), bottomgas, 0, 1);
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}
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void setupPlanVpmb100m60min(struct diveplan *dp)
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{
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dp->salinity = 10300;
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dp->surface_pressure = 1013;
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dp->bottomsac = 0;
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dp->decosac = 0;
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struct gasmix bottomgas = { {180}, {450} };
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struct gasmix ean50 = { {500}, {0} };
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struct gasmix oxygen = { {1000}, {0} };
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pressure_t po2 = { 1600 };
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displayed_dive.cylinder[0].gasmix = bottomgas;
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displayed_dive.cylinder[1].gasmix = ean50;
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displayed_dive.cylinder[2].gasmix = oxygen;
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displayed_dive.surface_pressure.mbar = 1013;
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reset_cylinders(&displayed_dive, true);
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free_dps(dp);
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int droptime = M_OR_FT(100, 330) * 60 / M_OR_FT(99, 330);
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plan_add_segment(dp, droptime, M_OR_FT(100, 330), bottomgas, 0, 1);
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plan_add_segment(dp, 60*60 - droptime, M_OR_FT(100, 330), bottomgas, 0, 1);
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plan_add_segment(dp, 0, gas_mod(&ean50, po2, &displayed_dive, M_OR_FT(3,10)).mm, ean50, 0, 1);
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plan_add_segment(dp, 0, gas_mod(&oxygen, po2, &displayed_dive, M_OR_FT(3,10)).mm, oxygen, 0, 1);
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}
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void setupPlanVpmb100m10min(struct diveplan *dp)
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{
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dp->salinity = 10300;
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dp->surface_pressure = 1013;
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dp->bottomsac = 0;
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dp->decosac = 0;
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struct gasmix bottomgas = { {180}, {450} };
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struct gasmix ean50 = { {500}, {0} };
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struct gasmix oxygen = { {1000}, {0} };
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pressure_t po2 = { 1600 };
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displayed_dive.cylinder[0].gasmix = bottomgas;
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displayed_dive.cylinder[1].gasmix = ean50;
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displayed_dive.cylinder[2].gasmix = oxygen;
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displayed_dive.surface_pressure.mbar = 1013;
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reset_cylinders(&displayed_dive, true);
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free_dps(dp);
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int droptime = M_OR_FT(100, 330) * 60 / M_OR_FT(99, 330);
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plan_add_segment(dp, droptime, M_OR_FT(100, 330), bottomgas, 0, 1);
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plan_add_segment(dp, 10*60 - droptime, M_OR_FT(100, 330), bottomgas, 0, 1);
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plan_add_segment(dp, 0, gas_mod(&ean50, po2, &displayed_dive, M_OR_FT(3,10)).mm, ean50, 0, 1);
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plan_add_segment(dp, 0, gas_mod(&oxygen, po2, &displayed_dive, M_OR_FT(3,10)).mm, oxygen, 0, 1);
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}
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void setupPlanVpmb30m20min(struct diveplan *dp)
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{
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dp->salinity = 10300;
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dp->surface_pressure = 1013;
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dp->bottomsac = 0;
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dp->decosac = 0;
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struct gasmix bottomgas = { {210}, {0} };
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pressure_t po2 = { 1600 };
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displayed_dive.cylinder[0].gasmix = bottomgas;
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displayed_dive.surface_pressure.mbar = 1013;
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reset_cylinders(&displayed_dive, true);
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free_dps(dp);
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int droptime = M_OR_FT(30, 100) * 60 / M_OR_FT(18, 60);
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plan_add_segment(dp, droptime, M_OR_FT(30, 100), bottomgas, 0, 1);
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plan_add_segment(dp, 20*60 - droptime, M_OR_FT(30, 100), bottomgas, 0, 1);
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}
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void setupPlanVpmb100mTo70m30min(struct diveplan *dp)
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{
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dp->salinity = 10300;
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dp->surface_pressure = 1013;
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dp->bottomsac = 0;
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dp->decosac = 0;
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struct gasmix bottomgas = { {120}, {650} };
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struct gasmix tx21_35 = { {210}, {350} };
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struct gasmix ean50 = { {500}, {0} };
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struct gasmix oxygen = { {1000}, {0} };
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pressure_t po2 = { 1600 };
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displayed_dive.cylinder[0].gasmix = bottomgas;
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displayed_dive.cylinder[1].gasmix = tx21_35;
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displayed_dive.cylinder[2].gasmix = ean50;
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displayed_dive.cylinder[3].gasmix = oxygen;
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displayed_dive.surface_pressure.mbar = 1013;
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reset_cylinders(&displayed_dive, true);
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free_dps(dp);
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int droptime = M_OR_FT(100, 330) * 60 / M_OR_FT(18, 60);
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plan_add_segment(dp, droptime, M_OR_FT(100, 330), bottomgas, 0, 1);
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plan_add_segment(dp, 20*60 - droptime, M_OR_FT(100, 330), bottomgas, 0, 1);
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plan_add_segment(dp, 3*60, M_OR_FT(70, 230), bottomgas, 0, 1);
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plan_add_segment(dp, (30 - 20 - 3) * 60, M_OR_FT(70, 230), bottomgas, 0, 1);
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plan_add_segment(dp, 0, gas_mod(&tx21_35, po2, &displayed_dive, M_OR_FT(3,10)).mm, tx21_35, 0, 1);
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plan_add_segment(dp, 0, gas_mod(&ean50, po2, &displayed_dive, M_OR_FT(3,10)).mm, ean50, 0, 1);
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plan_add_segment(dp, 0, gas_mod(&oxygen, po2, &displayed_dive, M_OR_FT(3,10)).mm, oxygen, 0, 1);
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}
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/* We compare the calculated runtimes against two values:
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* - Known runtime calculated by Subsurface previously (to detect if anything has changed)
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* - Benchmark runtime (we should be close, but not always exactly the same)
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*/
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bool compareDecoTime(int actualRunTimeSeconds, int benchmarkRunTimeSeconds, int knownSsrfRunTimeSeconds)
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{
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bool result;
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// If the calculated run time equals the expected run time, do a simple comparison
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if (actualRunTimeSeconds == benchmarkRunTimeSeconds) {
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result = true;
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} else {
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/* We want the difference between the expected and calculated total run time to be not more than
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* 1% of total run time + 1 minute */
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int permilDifferenceAllowed = 1 * 10;
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int absoluteDifferenceAllowedSeconds = 60;
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int totalDifferenceAllowed = 0.001 * permilDifferenceAllowed * benchmarkRunTimeSeconds + absoluteDifferenceAllowedSeconds;
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int totalDifference = abs(actualRunTimeSeconds - benchmarkRunTimeSeconds);
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qDebug("Calculated run time = %d seconds", actualRunTimeSeconds);
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qDebug("Expected run time = %d seconds", benchmarkRunTimeSeconds);
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qDebug("Allowed time difference is %g percent plus %d seconds = %d seconds",
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permilDifferenceAllowed * 0.1, absoluteDifferenceAllowedSeconds, totalDifferenceAllowed);
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qDebug("total difference = %d seconds", totalDifference);
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result = (totalDifference <= totalDifferenceAllowed);
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}
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if ((knownSsrfRunTimeSeconds > 0) && (actualRunTimeSeconds != knownSsrfRunTimeSeconds)) {
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QWARN("Calculated run time does not match known Subsurface runtime");
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qWarning("Calculated runtime: %d", actualRunTimeSeconds);
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qWarning("Known Subsurface runtime: %d", knownSsrfRunTimeSeconds);
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}
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return result;
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}
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void TestPlan::testMetric()
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{
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char *cache = NULL;
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setupPrefs();
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prefs.unit_system = METRIC;
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prefs.units.length = units::METERS;
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prefs.deco_mode = BUEHLMANN;
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struct diveplan testPlan = { 0 };
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setupPlan(&testPlan);
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plan(&testPlan, &cache, 1, 0);
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#if DEBUG
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free(displayed_dive.notes);
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displayed_dive.notes = NULL;
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save_dive(stdout, &displayed_dive);
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#endif
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// check first gas change to EAN36 at 33m
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struct event *ev = displayed_dive.dc.events;
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QVERIFY(ev != NULL);
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QCOMPARE(ev->gas.index, 1);
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QCOMPARE(ev->value, 36);
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QCOMPARE(get_depth_at_time(&displayed_dive.dc, ev->time.seconds), 33000);
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// check second gas change to Oxygen at 6m
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ev = ev->next;
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QVERIFY(ev != NULL);
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QCOMPARE(ev->gas.index, 2);
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QCOMPARE(ev->value, 100);
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QCOMPARE(get_depth_at_time(&displayed_dive.dc, ev->time.seconds), 6000);
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// check expected run time of 108 minutes
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QVERIFY(compareDecoTime(displayed_dive.dc.duration.seconds, 108u * 60u, 108u * 60u));
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}
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void TestPlan::testImperial()
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{
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char *cache = NULL;
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setupPrefs();
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prefs.unit_system = IMPERIAL;
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prefs.units.length = units::FEET;
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prefs.deco_mode = BUEHLMANN;
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struct diveplan testPlan = { 0 };
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setupPlan(&testPlan);
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plan(&testPlan, &cache, 1, 0);
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#if DEBUG
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free(displayed_dive.notes);
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displayed_dive.notes = NULL;
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save_dive(stdout, &displayed_dive);
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#endif
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// check first gas change to EAN36 at 33m
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struct event *ev = displayed_dive.dc.events;
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QVERIFY(ev != NULL);
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QCOMPARE(ev->gas.index, 1);
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QCOMPARE(ev->value, 36);
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QCOMPARE(get_depth_at_time(&displayed_dive.dc, ev->time.seconds), 33528);
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// check second gas change to Oxygen at 6m
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ev = ev->next;
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QVERIFY(ev != NULL);
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QCOMPARE(ev->gas.index, 2);
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QCOMPARE(ev->value, 100);
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QCOMPARE(get_depth_at_time(&displayed_dive.dc, ev->time.seconds), 6096);
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// check expected run time of 110 minutes
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QVERIFY(compareDecoTime(displayed_dive.dc.duration.seconds, 110u * 60u - 2u, 110u * 60u - 2u));
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}
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void TestPlan::testVpmbMetric60m30minAir()
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{
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char *cache = NULL;
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setupPrefsVpmb();
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prefs.unit_system = METRIC;
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prefs.units.length = units::METERS;
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struct diveplan testPlan = { 0 };
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setupPlanVpmb60m30minAir(&testPlan);
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setCurrentAppState("PlanDive");
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plan(&testPlan, &cache, 1, 0);
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#if DEBUG
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free(displayed_dive.notes);
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displayed_dive.notes = NULL;
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save_dive(stdout, &displayed_dive);
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#endif
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// print first ceiling
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printf("First ceiling %.1f m\n", (mbar_to_depth(first_ceiling_pressure.mbar, &displayed_dive) * 0.001));
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// check benchmark run time of 141 minutes, and known Subsurface runtime of 139 minutes
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QVERIFY(compareDecoTime(displayed_dive.dc.duration.seconds, 141u * 60u + 20u, 139u * 60u + 20u));
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}
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void TestPlan::testVpmbMetric60m30minEan50()
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{
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char *cache = NULL;
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setupPrefsVpmb();
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prefs.unit_system = METRIC;
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prefs.units.length = units::METERS;
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struct diveplan testPlan = { 0 };
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setupPlanVpmb60m30minEan50(&testPlan);
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setCurrentAppState("PlanDive");
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plan(&testPlan, &cache, 1, 0);
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#if DEBUG
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free(displayed_dive.notes);
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displayed_dive.notes = NULL;
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save_dive(stdout, &displayed_dive);
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#endif
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// print first ceiling
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printf("First ceiling %.1f m\n", (mbar_to_depth(first_ceiling_pressure.mbar, &displayed_dive) * 0.001));
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// check first gas change to EAN50 at 21m
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struct event *ev = displayed_dive.dc.events;
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QVERIFY(ev != NULL);
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QCOMPARE(ev->gas.index, 1);
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QCOMPARE(ev->value, 50);
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QCOMPARE(get_depth_at_time(&displayed_dive.dc, ev->time.seconds), 21000);
|
|
// check benchmark run time of 95 minutes, and known Subsurface runtime of 96 minutes
|
|
QVERIFY(compareDecoTime(displayed_dive.dc.duration.seconds, 95u * 60u + 20u, 96u * 60u + 20u));
|
|
}
|
|
|
|
void TestPlan::testVpmbMetric60m30minTx()
|
|
{
|
|
char *cache = NULL;
|
|
|
|
setupPrefsVpmb();
|
|
prefs.unit_system = METRIC;
|
|
prefs.units.length = units::METERS;
|
|
|
|
struct diveplan testPlan = { 0 };
|
|
setupPlanVpmb60m30minTx(&testPlan);
|
|
setCurrentAppState("PlanDive");
|
|
|
|
plan(&testPlan, &cache, 1, 0);
|
|
|
|
#if DEBUG
|
|
free(displayed_dive.notes);
|
|
displayed_dive.notes = NULL;
|
|
save_dive(stdout, &displayed_dive);
|
|
#endif
|
|
|
|
// print first ceiling
|
|
printf("First ceiling %.1f m\n", (mbar_to_depth(first_ceiling_pressure.mbar, &displayed_dive) * 0.001));
|
|
// check first gas change to EAN50 at 21m
|
|
struct event *ev = displayed_dive.dc.events;
|
|
QVERIFY(ev != NULL);
|
|
QCOMPARE(ev->gas.index, 1);
|
|
QCOMPARE(ev->value, 50);
|
|
QCOMPARE(get_depth_at_time(&displayed_dive.dc, ev->time.seconds), 21000);
|
|
// check benchmark run time of 89 minutes, and known Subsurface runtime of 89 minutes
|
|
QVERIFY(compareDecoTime(displayed_dive.dc.duration.seconds, 89u * 60u + 20u, 89u * 60u + 20u));
|
|
}
|
|
|
|
void TestPlan::testVpmbMetric100m60min()
|
|
{
|
|
char *cache = NULL;
|
|
|
|
setupPrefsVpmb();
|
|
prefs.unit_system = METRIC;
|
|
prefs.units.length = units::METERS;
|
|
|
|
struct diveplan testPlan = { 0 };
|
|
setupPlanVpmb100m60min(&testPlan);
|
|
setCurrentAppState("PlanDive");
|
|
|
|
plan(&testPlan, &cache, 1, 0);
|
|
|
|
#if DEBUG
|
|
free(displayed_dive.notes);
|
|
displayed_dive.notes = NULL;
|
|
save_dive(stdout, &displayed_dive);
|
|
#endif
|
|
|
|
// print first ceiling
|
|
printf("First ceiling %.1f m\n", (mbar_to_depth(first_ceiling_pressure.mbar, &displayed_dive) * 0.001));
|
|
// check first gas change to EAN50 at 21m
|
|
struct event *ev = displayed_dive.dc.events;
|
|
QVERIFY(ev != NULL);
|
|
QCOMPARE(ev->gas.index, 1);
|
|
QCOMPARE(ev->value, 50);
|
|
QCOMPARE(get_depth_at_time(&displayed_dive.dc, ev->time.seconds), 21000);
|
|
// check second gas change to Oxygen at 6m
|
|
ev = ev->next;
|
|
QVERIFY(ev != NULL);
|
|
QCOMPARE(ev->gas.index, 2);
|
|
QCOMPARE(ev->value, 100);
|
|
QCOMPARE(get_depth_at_time(&displayed_dive.dc, ev->time.seconds), 6000);
|
|
// check benchmark run time of 311 minutes, and known Subsurface runtime of 314 minutes
|
|
QVERIFY(compareDecoTime(displayed_dive.dc.duration.seconds, 311u * 60u + 20u, 314u * 60u + 20u));
|
|
}
|
|
|
|
void TestPlan::testVpmbMetricMultiLevelAir()
|
|
{
|
|
char *cache = NULL;
|
|
|
|
setupPrefsVpmb();
|
|
prefs.unit_system = METRIC;
|
|
prefs.units.length = units::METERS;
|
|
|
|
struct diveplan testPlan = { 0 };
|
|
setupPlanVpmbMultiLevelAir(&testPlan);
|
|
setCurrentAppState("PlanDive");
|
|
|
|
plan(&testPlan, &cache, 1, 0);
|
|
|
|
#if DEBUG
|
|
free(displayed_dive.notes);
|
|
displayed_dive.notes = NULL;
|
|
save_dive(stdout, &displayed_dive);
|
|
#endif
|
|
|
|
// print first ceiling
|
|
printf("First ceiling %.1f m\n", (mbar_to_depth(first_ceiling_pressure.mbar, &displayed_dive) * 0.001));
|
|
// check benchmark run time of 167 minutes, and known Subsurface runtime of 169 minutes
|
|
QVERIFY(compareDecoTime(displayed_dive.dc.duration.seconds, 167u * 60u + 20u, 169u * 60u + 20u));
|
|
}
|
|
|
|
void TestPlan::testVpmbMetric100m10min()
|
|
{
|
|
char *cache = NULL;
|
|
|
|
setupPrefsVpmb();
|
|
prefs.unit_system = METRIC;
|
|
prefs.units.length = units::METERS;
|
|
|
|
struct diveplan testPlan = { 0 };
|
|
setupPlanVpmb100m10min(&testPlan);
|
|
setCurrentAppState("PlanDive");
|
|
|
|
plan(&testPlan, &cache, 1, 0);
|
|
|
|
#if DEBUG
|
|
free(displayed_dive.notes);
|
|
displayed_dive.notes = NULL;
|
|
save_dive(stdout, &displayed_dive);
|
|
#endif
|
|
|
|
// print first ceiling
|
|
printf("First ceiling %.1f m\n", (mbar_to_depth(first_ceiling_pressure.mbar, &displayed_dive) * 0.001));
|
|
// check first gas change to EAN50 at 21m
|
|
struct event *ev = displayed_dive.dc.events;
|
|
QVERIFY(ev != NULL);
|
|
QCOMPARE(ev->gas.index, 1);
|
|
QCOMPARE(ev->value, 50);
|
|
QCOMPARE(get_depth_at_time(&displayed_dive.dc, ev->time.seconds), 21000);
|
|
// check second gas change to Oxygen at 6m
|
|
ev = ev->next;
|
|
QVERIFY(ev != NULL);
|
|
QCOMPARE(ev->gas.index, 2);
|
|
QCOMPARE(ev->value, 100);
|
|
QCOMPARE(get_depth_at_time(&displayed_dive.dc, ev->time.seconds), 6000);
|
|
// check benchmark run time of 58 minutes, and known Subsurface runtime of 57 minutes
|
|
QVERIFY(compareDecoTime(displayed_dive.dc.duration.seconds, 58u * 60u + 20u, 57u * 60u + 20u));
|
|
}
|
|
|
|
/* This tests that a previously calculated plan isn't affecting the calculations of the next plan.
|
|
* It is NOT a 'repetitive dive' test (i.e. with a surface interval and considering tissue
|
|
* saturation from the previous dive).
|
|
*/
|
|
void TestPlan::testVpmbMetricRepeat()
|
|
{
|
|
char *cache = NULL;
|
|
|
|
setupPrefsVpmb();
|
|
prefs.unit_system = METRIC;
|
|
prefs.units.length = units::METERS;
|
|
|
|
struct diveplan testPlan = { 0 };
|
|
setupPlanVpmb30m20min(&testPlan);
|
|
setCurrentAppState("PlanDive");
|
|
|
|
plan(&testPlan, &cache, 1, 0);
|
|
|
|
#if DEBUG
|
|
free(displayed_dive.notes);
|
|
displayed_dive.notes = NULL;
|
|
save_dive(stdout, &displayed_dive);
|
|
#endif
|
|
|
|
// print first ceiling
|
|
printf("First ceiling %.1f m\n", (mbar_to_depth(first_ceiling_pressure.mbar, &displayed_dive) * 0.001));
|
|
// check benchmark run time of 27 minutes, and known Subsurface runtime of 27 minutes
|
|
QVERIFY(compareDecoTime(displayed_dive.dc.duration.seconds, 27u * 60u + 20u, 27u * 60u + 20u));
|
|
|
|
int firstDiveRunTimeSeconds = displayed_dive.dc.duration.seconds;
|
|
|
|
setupPlanVpmb100mTo70m30min(&testPlan);
|
|
plan(&testPlan, &cache, 1, 0);
|
|
|
|
#if DEBUG
|
|
free(displayed_dive.notes);
|
|
displayed_dive.notes = NULL;
|
|
save_dive(stdout, &displayed_dive);
|
|
#endif
|
|
|
|
// print first ceiling
|
|
printf("First ceiling %.1f m\n", (mbar_to_depth(first_ceiling_pressure.mbar, &displayed_dive) * 0.001));
|
|
// check first gas change to 21/35 at 66m
|
|
struct event *ev = displayed_dive.dc.events;
|
|
QVERIFY(ev != NULL);
|
|
QCOMPARE(ev->gas.index, 1);
|
|
QCOMPARE(ev->gas.mix.o2.permille, 210);
|
|
QCOMPARE(ev->gas.mix.he.permille, 350);
|
|
QCOMPARE(get_depth_at_time(&displayed_dive.dc, ev->time.seconds), 66000);
|
|
// check second gas change to EAN50 at 21m
|
|
ev = ev->next;
|
|
QCOMPARE(ev->gas.index, 2);
|
|
QCOMPARE(ev->value, 50);
|
|
QCOMPARE(get_depth_at_time(&displayed_dive.dc, ev->time.seconds), 21000);
|
|
// check third gas change to Oxygen at 6m
|
|
ev = ev->next;
|
|
QVERIFY(ev != NULL);
|
|
QCOMPARE(ev->gas.index, 3);
|
|
QCOMPARE(ev->value, 100);
|
|
QCOMPARE(get_depth_at_time(&displayed_dive.dc, ev->time.seconds), 6000);
|
|
// we don't have a benchmark, known Subsurface runtime is 126 minutes
|
|
QVERIFY(compareDecoTime(displayed_dive.dc.duration.seconds, 126u * 60u + 20u, 126u * 60u + 20u));
|
|
|
|
setupPlanVpmb30m20min(&testPlan);
|
|
plan(&testPlan, &cache, 1, 0);
|
|
|
|
#if DEBUG
|
|
free(displayed_dive.notes);
|
|
displayed_dive.notes = NULL;
|
|
save_dive(stdout, &displayed_dive);
|
|
#endif
|
|
|
|
// print first ceiling
|
|
printf("First ceiling %.1f m\n", (mbar_to_depth(first_ceiling_pressure.mbar, &displayed_dive) * 0.001));
|
|
|
|
// check runtime is exactly the same as the first time
|
|
int finalDiveRunTimeSeconds = displayed_dive.dc.duration.seconds;
|
|
QCOMPARE(finalDiveRunTimeSeconds, firstDiveRunTimeSeconds);
|
|
}
|
|
|
|
QTEST_MAIN(TestPlan)
|