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77b12bbccf
We had a pattern where doubles were converted to long with lrint() and then down-cast to a narrower int type. Because this is unwieldy, introduce a function encapsulating this. Signed-off-by: Berthold Stoeger <bstoeger@mail.tuwien.ac.at>
201 lines
4.4 KiB
C++
201 lines
4.4 KiB
C++
// SPDX-License-Identifier: GPL-2.0
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#include "units.h"
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#include "gettext.h"
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#include "pref.h"
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const struct units SI_units = SI_UNITS;
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const struct units IMPERIAL_units = {
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.length = units::FEET, .volume = units::CUFT, .pressure = units::PSI, .temperature = units::FAHRENHEIT, .weight = units::LBS,
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.vertical_speed_time = units::MINUTES, .duration_units = units::MIXED, .show_units_table = false
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};
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int get_pressure_units(int mb, const char **units)
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{
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int pressure;
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const char *unit;
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const struct units *units_p = get_units();
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switch (units_p->pressure) {
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case units::BAR:
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default:
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pressure = (mb + 500) / 1000;
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unit = translate("gettextFromC", "bar");
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break;
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case units::PSI:
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pressure = int_cast<int>(mbar_to_PSI(mb));
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unit = translate("gettextFromC", "psi");
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break;
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}
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if (units)
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*units = unit;
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return pressure;
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}
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double get_temp_units(unsigned int mk, const char **units)
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{
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double deg;
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const char *unit;
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const struct units *units_p = get_units();
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if (units_p->temperature == units::FAHRENHEIT) {
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deg = mkelvin_to_F(mk);
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unit = "°F";
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} else {
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deg = mkelvin_to_C(mk);
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unit = "°C";
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}
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if (units)
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*units = unit;
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return deg;
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}
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double get_volume_units(unsigned int ml, int *frac, const char **units)
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{
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int decimals;
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double vol;
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const char *unit;
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const struct units *units_p = get_units();
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switch (units_p->volume) {
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case units::LITER:
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default:
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vol = ml / 1000.0;
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unit = translate("gettextFromC", "ℓ");
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decimals = 1;
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break;
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case units::CUFT:
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vol = ml_to_cuft(ml);
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unit = translate("gettextFromC", "cuft");
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decimals = 2;
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break;
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}
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if (frac)
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*frac = decimals;
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if (units)
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*units = unit;
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return vol;
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}
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int units_to_sac(double volume)
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{
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if (get_units()->volume == units::CUFT)
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return lrint(cuft_to_l(volume) * 1000.0);
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else
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return lrint(volume * 1000);
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}
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depth_t units_to_depth(double depth)
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{
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depth_t internaldepth;
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if (get_units()->length == units::METERS) {
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internaldepth.mm = lrint(depth * 1000);
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} else {
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internaldepth.mm = feet_to_mm(depth);
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}
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return internaldepth;
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}
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double get_depth_units(int mm, int *frac, const char **units)
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{
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int decimals;
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double d;
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const char *unit;
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const struct units *units_p = get_units();
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switch (units_p->length) {
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case units::METERS:
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default:
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d = mm / 1000.0;
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unit = translate("gettextFromC", "m");
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decimals = d < 20;
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break;
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case units::FEET:
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d = mm_to_feet(mm);
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unit = translate("gettextFromC", "ft");
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decimals = 0;
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break;
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}
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if (frac)
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*frac = decimals;
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if (units)
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*units = unit;
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return d;
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}
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double get_vertical_speed_units(unsigned int mms, int *frac, const char **units)
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{
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double d;
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const char *unit;
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const struct units *units_p = get_units();
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const double time_factor = units_p->vertical_speed_time == units::MINUTES ? 60.0 : 1.0;
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switch (units_p->length) {
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case units::METERS:
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default:
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d = mms / 1000.0 * time_factor;
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if (units_p->vertical_speed_time == units::MINUTES)
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unit = translate("gettextFromC", "m/min");
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else
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unit = translate("gettextFromC", "m/s");
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break;
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case units::FEET:
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d = mm_to_feet(mms) * time_factor;
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if (units_p->vertical_speed_time == units::MINUTES)
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unit = translate("gettextFromC", "ft/min");
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else
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unit = translate("gettextFromC", "ft/s");
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break;
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}
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if (frac)
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*frac = d < 10;
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if (units)
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*units = unit;
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return d;
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}
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double get_weight_units(unsigned int grams, int *frac, const char **units)
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{
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int decimals;
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double value;
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const char *unit;
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const struct units *units_p = get_units();
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if (units_p->weight == units::LBS) {
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value = grams_to_lbs(grams);
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unit = translate("gettextFromC", "lbs");
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decimals = 0;
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} else {
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value = grams / 1000.0;
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unit = translate("gettextFromC", "kg");
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decimals = 1;
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}
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if (frac)
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*frac = decimals;
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if (units)
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*units = unit;
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return value;
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}
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const struct units *get_units()
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{
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return &prefs.units;
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}
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// Calculate the distance in meters between two coordinates.
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unsigned int get_distance(location_t loc1, location_t loc2)
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{
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double lat1_r = udeg_to_radians(loc1.lat.udeg);
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double lat2_r = udeg_to_radians(loc2.lat.udeg);
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double lat_d_r = udeg_to_radians(loc2.lat.udeg - loc1.lat.udeg);
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double lon_d_r = udeg_to_radians(loc2.lon.udeg - loc1.lon.udeg);
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double a = sin(lat_d_r/2) * sin(lat_d_r/2) +
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cos(lat1_r) * cos(lat2_r) * sin(lon_d_r/2) * sin(lon_d_r/2);
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if (a < 0.0) a = 0.0;
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if (a > 1.0) a = 1.0;
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double c = 2 * atan2(sqrt(a), sqrt(1.0 - a));
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// Earth radius in metres
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return lrint(6371000 * c);
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}
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