subsurface/tests/testqPrefTechnicalDetails.cpp
jan Iversen 4d57b52062 core/tests: change short to int in pref.h
Simplify structure preferences by removing short. Update test cases to not
do (int).

Signed-off-by: Jan Iversen <jani@apache.org>
2018-09-11 17:22:58 -07:00

448 lines
14 KiB
C++

// SPDX-License-Identifier: GPL-2.0
#include "testqPrefTechnicalDetails.h"
#include "core/pref.h"
#include "core/qthelper.h"
#include "core/settings/qPref.h"
#include <QTest>
void TestQPrefTechnicalDetails::initTestCase()
{
QCoreApplication::setOrganizationName("Subsurface");
QCoreApplication::setOrganizationDomain("subsurface.hohndel.org");
QCoreApplication::setApplicationName("SubsurfaceTestQPrefTechnicalDetails");
}
void TestQPrefTechnicalDetails::test_struct_get()
{
// Test struct pref -> get func.
auto tst = qPrefTechnicalDetails::instance();
prefs.calcalltissues = true;
prefs.calcceiling = true;
prefs.calcceiling3m = true;
prefs.calcndltts = true;
prefs.dcceiling = true;
prefs.display_deco_mode = BUEHLMANN;
prefs.display_unused_tanks = true;
prefs.ead = true;
prefs.gfhigh = 27;
prefs.gflow = 25;
prefs.gf_low_at_maxdepth = true;
prefs.hrgraph = true;
prefs.mod = true;
prefs.modpO2 = 1.02;
prefs.percentagegraph = true;
prefs.redceiling = true;
prefs.rulergraph = true;
prefs.show_average_depth = true;
prefs.show_ccr_sensors = true;
prefs.show_ccr_setpoint = true;
prefs.show_icd = true;
prefs.show_pictures_in_profile = true;
prefs.show_sac = true;
prefs.show_scr_ocpo2 = true;
prefs.tankbar = true;
prefs.vpmb_conservatism = 123;
prefs.zoomed_plot = true;
QCOMPARE(tst->calcceiling(), prefs.calcceiling);
QCOMPARE(tst->calcceiling3m(), prefs.calcceiling3m);
QCOMPARE(tst->calcndltts(), prefs.calcndltts);
QCOMPARE(tst->dcceiling(), prefs.dcceiling);
QCOMPARE(tst->display_deco_mode(), prefs.display_deco_mode);
QCOMPARE(tst->display_unused_tanks(), prefs.display_unused_tanks);
QCOMPARE(tst->ead(), prefs.ead);
QCOMPARE(tst->gfhigh(), prefs.gfhigh);
QCOMPARE(tst->gflow(), prefs.gflow);
QCOMPARE(tst->gf_low_at_maxdepth(), prefs.gf_low_at_maxdepth);
QCOMPARE(tst->hrgraph(), prefs.hrgraph);
QCOMPARE(tst->mod(), prefs.mod);
QCOMPARE(tst->modpO2(), prefs.modpO2);
QCOMPARE(tst->percentagegraph(), prefs.percentagegraph);
QCOMPARE(tst->redceiling(), prefs.redceiling);
QCOMPARE(tst->rulergraph(), prefs.rulergraph);
QCOMPARE(tst->show_average_depth(), prefs.show_average_depth);
QCOMPARE(tst->show_ccr_sensors(), prefs.show_ccr_sensors);
QCOMPARE(tst->show_ccr_setpoint(), prefs.show_ccr_setpoint);
QCOMPARE(tst->show_icd(), prefs.show_icd);
QCOMPARE(tst->show_pictures_in_profile(), prefs.show_pictures_in_profile);
QCOMPARE(tst->show_sac(), prefs.show_sac);
QCOMPARE(tst->show_scr_ocpo2(), prefs.show_scr_ocpo2);
QCOMPARE(tst->tankbar(), prefs.tankbar);
QCOMPARE(tst->vpmb_conservatism(), prefs.vpmb_conservatism);
QCOMPARE(tst->zoomed_plot(), prefs.zoomed_plot);
}
void TestQPrefTechnicalDetails::test_set_struct()
{
// Test set func -> struct pref
auto tst = qPrefTechnicalDetails::instance();
tst->set_calcalltissues(false);
tst->set_calcceiling(false);
tst->set_calcceiling3m(false);
tst->set_calcndltts(false);
tst->set_dcceiling(false);
tst->set_display_deco_mode(RECREATIONAL);
tst->set_display_unused_tanks(false);
tst->set_ead(false);
tst->set_gfhigh(29);
tst->set_gflow(24);
tst->set_gf_low_at_maxdepth(false);
tst->set_hrgraph(false);
tst->set_mod(false);
tst->set_modpO2(1.12);
tst->set_percentagegraph(false);
tst->set_redceiling(false);
tst->set_rulergraph(false);
tst->set_show_average_depth(false);
tst->set_show_ccr_sensors(false);
tst->set_show_ccr_setpoint(false);
tst->set_show_icd(false);
tst->set_show_pictures_in_profile(false);
tst->set_show_sac(false);
tst->set_show_scr_ocpo2(false);
tst->set_tankbar(false);
tst->set_vpmb_conservatism(64);
tst->set_zoomed_plot(false);
QCOMPARE(prefs.calcceiling, false);
QCOMPARE(prefs.calcceiling3m, false);
QCOMPARE(prefs.calcndltts, false);
QCOMPARE(prefs.dcceiling, false);
QCOMPARE(prefs.display_deco_mode, RECREATIONAL);
QCOMPARE(prefs.display_unused_tanks, false);
QCOMPARE(prefs.ead, false);
QCOMPARE(prefs.gfhigh, 29);
QCOMPARE(prefs.gflow, 24);
QCOMPARE(prefs.gf_low_at_maxdepth, false);
QCOMPARE(prefs.hrgraph, false);
QCOMPARE(prefs.mod, false);
QCOMPARE(prefs.modpO2, 1.12);
QCOMPARE(prefs.percentagegraph, false);
QCOMPARE(prefs.redceiling, false);
QCOMPARE(prefs.rulergraph, false);
QCOMPARE(prefs.show_average_depth, false);
QCOMPARE(prefs.show_ccr_sensors, false);
QCOMPARE(prefs.show_ccr_setpoint, false);
QCOMPARE(prefs.show_icd, false);
QCOMPARE(prefs.show_pictures_in_profile, false);
QCOMPARE(prefs.show_sac, false);
QCOMPARE(prefs.show_scr_ocpo2, false);
QCOMPARE(prefs.tankbar, false);
QCOMPARE(prefs.vpmb_conservatism, 64);
QCOMPARE(prefs.zoomed_plot, false);
}
void TestQPrefTechnicalDetails::test_set_load_struct()
{
// test set func -> load -> struct pref
auto tst = qPrefTechnicalDetails::instance();
tst->set_calcalltissues(false);
tst->set_calcceiling(false);
tst->set_calcceiling3m(false);
tst->set_calcndltts(false);
tst->set_dcceiling(true);
tst->set_display_deco_mode(RECREATIONAL);
tst->set_display_unused_tanks(false);
tst->set_ead(false);
tst->set_gfhigh(29);
tst->set_gflow(24);
tst->set_gf_low_at_maxdepth(true);
tst->set_hrgraph(false);
tst->set_mod(false);
tst->set_modpO2(1.12);
tst->set_percentagegraph(false);
tst->set_redceiling(false);
tst->set_rulergraph(false);
tst->set_show_average_depth(true);
tst->set_show_ccr_sensors(true);
tst->set_show_ccr_setpoint(true);
tst->set_show_icd(true);
tst->set_show_pictures_in_profile(true);
tst->set_show_sac(true);
tst->set_show_scr_ocpo2(true);
tst->set_tankbar(true);
tst->set_vpmb_conservatism(64);
tst->set_zoomed_plot(true);
prefs.calcalltissues = true;
prefs.calcceiling = true;
prefs.calcceiling3m = true;
prefs.calcndltts = true;
prefs.dcceiling = false;
prefs.display_deco_mode = BUEHLMANN;
prefs.display_unused_tanks = true;
prefs.ead = true;
prefs.gfhigh = 27;
prefs.gflow = 25;
prefs.gf_low_at_maxdepth = false;
prefs.hrgraph = true;
prefs.mod = true;
prefs.modpO2 = 1.02;
prefs.percentagegraph = true;
prefs.redceiling = true;
prefs.rulergraph = true;
prefs.show_average_depth = false;
prefs.show_ccr_sensors = false;
prefs.show_ccr_setpoint = false;
prefs.show_icd = false;
prefs.show_pictures_in_profile = false;
prefs.show_sac = false;
prefs.show_scr_ocpo2 = false;
prefs.tankbar = false;
prefs.vpmb_conservatism = 123;
prefs.zoomed_plot = false;
tst->load();
QCOMPARE(prefs.calcceiling, false);
QCOMPARE(prefs.calcceiling3m, false);
QCOMPARE(prefs.calcndltts, false);
QCOMPARE(prefs.dcceiling, true);
QCOMPARE(prefs.display_deco_mode, RECREATIONAL);
QCOMPARE(prefs.display_unused_tanks, false);
QCOMPARE(prefs.ead, false);
QCOMPARE((int)prefs.gfhigh, 29);
QCOMPARE((int)prefs.gflow, 24);
QCOMPARE(prefs.gf_low_at_maxdepth, true);
QCOMPARE(prefs.hrgraph, false);
QCOMPARE(prefs.mod, false);
QCOMPARE(prefs.modpO2, 1.12);
QCOMPARE(prefs.percentagegraph, false);
QCOMPARE(prefs.redceiling, false);
QCOMPARE(prefs.rulergraph, false);
QCOMPARE(prefs.show_average_depth, true);
QCOMPARE(prefs.show_ccr_sensors, true);
QCOMPARE(prefs.show_ccr_setpoint, true);
QCOMPARE(prefs.show_icd, true);
QCOMPARE(prefs.show_pictures_in_profile, true);
QCOMPARE(prefs.show_sac, true);
QCOMPARE(prefs.show_scr_ocpo2, true);
QCOMPARE(prefs.tankbar, true);
QCOMPARE(prefs.vpmb_conservatism, 64);
QCOMPARE(prefs.zoomed_plot, true);
}
void TestQPrefTechnicalDetails::test_struct_disk()
{
// test struct prefs -> disk
auto tst = qPrefTechnicalDetails::instance();
prefs.calcalltissues = true;
prefs.calcceiling = true;
prefs.calcceiling3m = true;
prefs.calcndltts = true;
prefs.dcceiling = true;
prefs.display_deco_mode = BUEHLMANN;
prefs.display_unused_tanks = true;
prefs.ead = true;
prefs.gfhigh = 11;
prefs.gflow = 12;
prefs.gf_low_at_maxdepth = true;
prefs.hrgraph = true;
prefs.mod = true;
prefs.modpO2 = 1.14;
prefs.percentagegraph = true;
prefs.redceiling = true;
prefs.rulergraph = true;
prefs.show_average_depth = true;
prefs.show_ccr_sensors = true;
prefs.show_ccr_setpoint = true;
prefs.show_icd = true;
prefs.show_pictures_in_profile = true;
prefs.show_sac = true;
prefs.show_scr_ocpo2 = true;
prefs.tankbar = true;
prefs.vpmb_conservatism = 15;
prefs.zoomed_plot = true;
tst->sync();
prefs.calcalltissues = false;
prefs.calcceiling = false;
prefs.calcceiling3m = false;
prefs.calcndltts = false;
prefs.dcceiling = false;
prefs.display_deco_mode = RECREATIONAL;
prefs.display_unused_tanks = false;
prefs.ead = false;
prefs.gfhigh = 27;
prefs.gflow = 25;
prefs.gf_low_at_maxdepth = false;
prefs.hrgraph = false;
prefs.mod = false;
prefs.modpO2 = 1.02;
prefs.percentagegraph = false;
prefs.redceiling = false;
prefs.rulergraph = false;
prefs.show_average_depth = false;
prefs.show_ccr_sensors = false;
prefs.show_ccr_setpoint = false;
prefs.show_icd = false;
prefs.show_pictures_in_profile = false;
prefs.show_sac = false;
prefs.show_scr_ocpo2 = false;
prefs.tankbar = false;
prefs.vpmb_conservatism = 123;
prefs.zoomed_plot = false;
tst->load();
QCOMPARE(prefs.calcceiling, true);
QCOMPARE(prefs.calcceiling3m, true);
QCOMPARE(prefs.calcndltts, true);
QCOMPARE(prefs.dcceiling, true);
QCOMPARE(prefs.display_deco_mode, BUEHLMANN);
QCOMPARE(prefs.display_unused_tanks, true);
QCOMPARE(prefs.ead, true);
QCOMPARE(prefs.gfhigh, 11);
QCOMPARE(prefs.gflow, 12);
QCOMPARE(prefs.gf_low_at_maxdepth, true);
QCOMPARE(prefs.hrgraph, true);
QCOMPARE(prefs.mod, true);
QCOMPARE(prefs.modpO2, 1.14);
QCOMPARE(prefs.percentagegraph, true);
QCOMPARE(prefs.redceiling, true);
QCOMPARE(prefs.rulergraph, true);
QCOMPARE(prefs.show_average_depth, true);
QCOMPARE(prefs.show_ccr_sensors, true);
QCOMPARE(prefs.show_ccr_setpoint, true);
QCOMPARE(prefs.show_icd, true);
QCOMPARE(prefs.show_pictures_in_profile, true);
QCOMPARE(prefs.show_sac, true);
QCOMPARE(prefs.show_scr_ocpo2, true);
QCOMPARE(prefs.tankbar, true);
QCOMPARE(prefs.vpmb_conservatism, 15);
QCOMPARE(prefs.zoomed_plot, true);
}
void TestQPrefTechnicalDetails::test_multiple()
{
// test multiple instances have the same information
prefs.gfhigh = 27;
auto tst_direct = new qPrefTechnicalDetails;
prefs.gflow = 25;
auto tst = qPrefTechnicalDetails::instance();
QCOMPARE(tst->gfhigh(), tst_direct->gfhigh());
QCOMPARE(tst->gflow(), tst_direct->gflow());
QCOMPARE(tst_direct->gfhigh(), 27);
QCOMPARE(tst_direct->gflow(), 25);
}
#define TEST(METHOD, VALUE) \
QCOMPARE(METHOD, VALUE); \
tecDetails->sync(); \
tecDetails->load(); \
QCOMPARE(METHOD, VALUE);
void TestQPrefTechnicalDetails::test_oldPreferences()
{
auto tecDetails = qPrefTechnicalDetails::instance();
tecDetails->set_modpO2(0.2);
TEST(tecDetails->modpO2(), 0.2);
tecDetails->set_modpO2(1.0);
TEST(tecDetails->modpO2(), 1.0);
tecDetails->set_gflow(2);
TEST(tecDetails->gflow(), 2);
tecDetails->set_gflow(3);
TEST(tecDetails->gflow(), 3);
tecDetails->set_gfhigh(4);
TEST(tecDetails->gfhigh(), 4);
tecDetails->set_gfhigh(5);
TEST(tecDetails->gfhigh(), 5);
tecDetails->set_vpmb_conservatism(5);
TEST(tecDetails->vpmb_conservatism(), 5);
tecDetails->set_vpmb_conservatism(6);
TEST(tecDetails->vpmb_conservatism(), 6);
tecDetails->set_ead(true);
TEST(tecDetails->ead(), true);
tecDetails->set_mod(true);
TEST(tecDetails->mod(), true);
tecDetails->set_dcceiling(true);
TEST(tecDetails->dcceiling(), true);
tecDetails->set_redceiling(true);
TEST(tecDetails->redceiling(), true);
tecDetails->set_calcceiling(true);
TEST(tecDetails->calcceiling(), true);
tecDetails->set_calcceiling3m(true);
TEST(tecDetails->calcceiling3m(), true);
tecDetails->set_calcalltissues(true);
TEST(tecDetails->calcalltissues(), true);
tecDetails->set_calcndltts(true);
TEST(tecDetails->calcndltts(), true);
tecDetails->set_hrgraph(true);
TEST(tecDetails->hrgraph(), true);
tecDetails->set_tankbar(true);
TEST(tecDetails->tankbar(), true);
tecDetails->set_percentagegraph(true);
TEST(tecDetails->percentagegraph(), true);
tecDetails->set_rulergraph(true);
TEST(tecDetails->rulergraph(), true);
tecDetails->set_show_ccr_setpoint(true);
TEST(tecDetails->show_ccr_setpoint(), true);
tecDetails->set_show_ccr_sensors(true);
TEST(tecDetails->show_ccr_sensors(), true);
tecDetails->set_zoomed_plot(true);
TEST(tecDetails->zoomed_plot(), true);
tecDetails->set_show_sac(true);
TEST(tecDetails->show_sac(), true);
tecDetails->set_display_unused_tanks(true);
TEST(tecDetails->display_unused_tanks(), true);
tecDetails->set_show_average_depth(true);
TEST(tecDetails->show_average_depth(), true);
tecDetails->set_show_pictures_in_profile(true);
TEST(tecDetails->show_pictures_in_profile(), true);
tecDetails->set_ead(false);
TEST(tecDetails->ead(), false);
tecDetails->set_mod(false);
TEST(tecDetails->mod(), false);
tecDetails->set_dcceiling(false);
TEST(tecDetails->dcceiling(), false);
tecDetails->set_redceiling(false);
TEST(tecDetails->redceiling(), false);
tecDetails->set_calcceiling(false);
TEST(tecDetails->calcceiling(), false);
tecDetails->set_calcceiling3m(false);
TEST(tecDetails->calcceiling3m(), false);
tecDetails->set_calcalltissues(false);
TEST(tecDetails->calcalltissues(), false);
tecDetails->set_calcndltts(false);
TEST(tecDetails->calcndltts(), false);
tecDetails->set_hrgraph(false);
TEST(tecDetails->hrgraph(), false);
tecDetails->set_tankbar(false);
TEST(tecDetails->tankbar(), false);
tecDetails->set_percentagegraph(false);
TEST(tecDetails->percentagegraph(), false);
tecDetails->set_rulergraph(false);
TEST(tecDetails->rulergraph(), false);
tecDetails->set_show_ccr_setpoint(false);
TEST(tecDetails->show_ccr_setpoint(), false);
tecDetails->set_show_ccr_sensors(false);
TEST(tecDetails->show_ccr_sensors(), false);
tecDetails->set_zoomed_plot(false);
TEST(tecDetails->zoomed_plot(), false);
tecDetails->set_show_sac(false);
TEST(tecDetails->show_sac(), false);
tecDetails->set_display_unused_tanks(false);
TEST(tecDetails->display_unused_tanks(), false);
tecDetails->set_show_average_depth(false);
TEST(tecDetails->show_average_depth(), false);
tecDetails->set_show_pictures_in_profile(false);
TEST(tecDetails->show_pictures_in_profile(), false);
}
QTEST_MAIN(TestQPrefTechnicalDetails)