mirror of
https://github.com/acemod/ACE3.git
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637 lines
28 KiB
C++
637 lines
28 KiB
C++
#include "ace_common.h"
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#include <time.h>
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#include <string>
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#include <vector>
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#include <map>
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#define _USE_MATH_DEFINES
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#include <math.h>
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#define GRAVITY 9.80665
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#define ABSOLUTE_ZERO_IN_CELSIUS -273.15
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#define KELVIN(t) (t - ABSOLUTE_ZERO_IN_CELSIUS)
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#define CELSIUS(t) (t + ABSOLUTE_ZERO_IN_CELSIUS)
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#define UNIVERSAL_GAS_CONSTANT 8.314
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#define WATER_VAPOR_MOLAR_MASS 0.018016
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#define DRY_AIR_MOLAR_MASS 0.028964
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#define SPECIFIC_GAS_CONSTANT_DRY_AIR 287.058
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#define STD_AIR_DENSITY_ICAO 1.22498
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#define STD_AIR_DENSITY_ASM 1.20885
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struct Bullet {
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double airFriction;
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double caliber;
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double bulletLength;
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double bulletMass;
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std::vector<double> ballisticCoefficients;
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std::vector<double> velocityBoundaries;
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char* atmosphereModel;
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int dragModel;
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std::vector<double> muzzleVelocities;
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std::vector<double> barrelLengths;
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double stabilityFactor;
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double twistDirection;
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double transonicStabilityCoef;
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double muzzleVelocity;
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std::vector<double> origin;
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double latitude;
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double temperature;
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double altitude;
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double humidity;
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double overcast;
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double startTime;
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double speed;
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double frames;
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double lastFrame;
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double hDeflection;
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double spinDrift;
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};
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struct Map {
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std::vector<int> gridHeights;
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std::vector<int> gridBuildingNums;
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std::vector<int> gridSurfaceIsWater;
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int mapSize;
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int mapGrids;
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};
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std::vector<Bullet> bulletDatabase;
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std::map<std::string, Map> mapDatabase;
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std::string worldName = "";
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Map* map = &mapDatabase[""];
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double calculateRoughnessLength(double posX, double posY) {
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// Source: http://es.ucsc.edu/~jnoble/wind/extrap/index.html
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double roughness_lengths[10] = {0.0002, 0.0005, 0.0024, 0.03, 0.055, 0.1, 0.2, 0.4, 0.8, 1.6};
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double roughnessLength = 0.0024;
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int gridX = (int)floor(posX / 50);
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int gridY = (int)floor(posY / 50);
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int gridCell = gridX * map->mapGrids + gridY;
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if (gridCell >= 0 && (std::size_t)gridCell < map->gridHeights.size() && (std::size_t)gridCell < map->gridBuildingNums.size()) {
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int nearBuildings = map->gridBuildingNums[gridCell];
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int surfaceIsWater = map->gridSurfaceIsWater[gridCell];
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if (nearBuildings == 0 && surfaceIsWater == 1) {
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return 0.0005;
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}
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if (nearBuildings >= 10) {
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return 1.6;
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}
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return roughness_lengths[2 + min(nearBuildings, 6)];
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}
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return 0.0024;
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}
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double calculateAirDensity(double temperature, double pressure, double relativeHumidity) {
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pressure = pressure * 100;
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if (relativeHumidity > 0) {
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double _pSat = 6.1078 * pow(10, ((7.5 * temperature) / (temperature + 237.3)));
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double vaporPressure = relativeHumidity * _pSat;
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double partialPressure = pressure - vaporPressure;
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return (partialPressure * 0.028964 + vaporPressure * 0.018016) / (8.314 * (273.15 + temperature));
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}
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else {
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return pressure / (287.058 * (273.15 + temperature));
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}
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}
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double calculateAtmosphericCorrection(double ballisticCoefficient, double temperature, double pressure, double relativeHumidity, const char *atmosphereModel) {
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double airDensity = calculateAirDensity(temperature, pressure, relativeHumidity);
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if (!strcmp(atmosphereModel, "ICAO")) {
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return (1.22498 / airDensity) * ballisticCoefficient;
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}
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else {
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return (1.20885 / airDensity) * ballisticCoefficient;
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}
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}
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double calculateRetard(int DragFunction, double DragCoefficient, double Velocity) {
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double vel = Velocity * 3.2808399;
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double val = -1;
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double A = -1;
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double M = -1;
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switch (DragFunction) {
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case 1:
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if (vel> 4230) { A = 1.477404177730177e-04; M = 1.9565; }
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else if (vel> 3680) { A = 1.920339268755614e-04; M = 1.925; }
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else if (vel> 3450) { A = 2.894751026819746e-04; M = 1.875; }
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else if (vel> 3295) { A = 4.349905111115636e-04; M = 1.825; }
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else if (vel> 3130) { A = 6.520421871892662e-04; M = 1.775; }
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else if (vel> 2960) { A = 9.748073694078696e-04; M = 1.725; }
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else if (vel> 2830) { A = 1.453721560187286e-03; M = 1.675; }
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else if (vel> 2680) { A = 2.162887202930376e-03; M = 1.625; }
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else if (vel> 2460) { A = 3.209559783129881e-03; M = 1.575; }
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else if (vel> 2225) { A = 3.904368218691249e-03; M = 1.55; }
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else if (vel> 2015) { A = 3.222942271262336e-03; M = 1.575; }
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else if (vel> 1890) { A = 2.203329542297809e-03; M = 1.625; }
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else if (vel> 1810) { A = 1.511001028891904e-03; M = 1.675; }
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else if (vel> 1730) { A = 8.609957592468259e-04; M = 1.75; }
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else if (vel> 1595) { A = 4.086146797305117e-04; M = 1.85; }
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else if (vel> 1520) { A = 1.954473210037398e-04; M = 1.95; }
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else if (vel> 1420) { A = 5.431896266462351e-05; M = 2.125; }
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else if (vel> 1360) { A = 8.847742581674416e-06; M = 2.375; }
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else if (vel> 1315) { A = 1.456922328720298e-06; M = 2.625; }
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else if (vel> 1280) { A = 2.419485191895565e-07; M = 2.875; }
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else if (vel> 1220) { A = 1.657956321067612e-08; M = 3.25; }
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else if (vel> 1185) { A = 4.745469537157371e-10; M = 3.75; }
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else if (vel> 1150) { A = 1.379746590025088e-11; M = 4.25; }
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else if (vel> 1100) { A = 4.070157961147882e-13; M = 4.75; }
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else if (vel> 1060) { A = 2.938236954847331e-14; M = 5.125; }
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else if (vel> 1025) { A = 1.228597370774746e-14; M = 5.25; }
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else if (vel> 980) { A = 2.916938264100495e-14; M = 5.125; }
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else if (vel> 945) { A = 3.855099424807451e-13; M = 4.75; }
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else if (vel> 905) { A = 1.185097045689854e-11; M = 4.25; }
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else if (vel> 860) { A = 3.566129470974951e-10; M = 3.75; }
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else if (vel> 810) { A = 1.045513263966272e-08; M = 3.25; }
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else if (vel> 780) { A = 1.291159200846216e-07; M = 2.875; }
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else if (vel> 750) { A = 6.824429329105383e-07; M = 2.625; }
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else if (vel> 700) { A = 3.569169672385163e-06; M = 2.375; }
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else if (vel> 640) { A = 1.839015095899579e-05; M = 2.125; }
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else if (vel> 600) { A = 5.71117468873424e-05; M = 1.950; }
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else if (vel> 550) { A = 9.226557091973427e-05; M = 1.875; }
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else if (vel> 250) { A = 9.337991957131389e-05; M = 1.875; }
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else if (vel> 100) { A = 7.225247327590413e-05; M = 1.925; }
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else if (vel> 65) { A = 5.792684957074546e-05; M = 1.975; }
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else if (vel> 0) { A = 5.206214107320588e-05; M = 2.000; }
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break;
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case 2:
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if (vel> 1674) { A = .0079470052136733; M = 1.36999902851493; }
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else if (vel> 1172) { A = 1.00419763721974e-03; M = 1.65392237010294; }
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else if (vel> 1060) { A = 7.15571228255369e-23; M = 7.91913562392361; }
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else if (vel> 949) { A = 1.39589807205091e-10; M = 3.81439537623717; }
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else if (vel> 670) { A = 2.34364342818625e-04; M = 1.71869536324748; }
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else if (vel> 335) { A = 1.77962438921838e-04; M = 1.76877550388679; }
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else if (vel> 0) { A = 5.18033561289704e-05; M = 1.98160270524632; }
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break;
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case 5:
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if (vel> 1730) { A = 7.24854775171929e-03; M = 1.41538574492812; }
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else if (vel> 1228) { A = 3.50563361516117e-05; M = 2.13077307854948; }
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else if (vel> 1116) { A = 1.84029481181151e-13; M = 4.81927320350395; }
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else if (vel> 1004) { A = 1.34713064017409e-22; M = 7.8100555281422; }
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else if (vel> 837) { A = 1.03965974081168e-07; M = 2.84204791809926; }
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else if (vel> 335) { A = 1.09301593869823e-04; M = 1.81096361579504; }
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else if (vel> 0) { A = 3.51963178524273e-05; M = 2.00477856801111; }
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break;
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case 6:
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if (vel> 3236) { A = 0.0455384883480781; M = 1.15997674041274; }
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else if (vel> 2065) { A = 7.167261849653769e-02; M = 1.10704436538885; }
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else if (vel> 1311) { A = 1.66676386084348e-03; M = 1.60085100195952; }
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else if (vel> 1144) { A = 1.01482730119215e-07; M = 2.9569674731838; }
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else if (vel> 1004) { A = 4.31542773103552e-18; M = 6.34106317069757; }
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else if (vel> 670) { A = 2.04835650496866e-05; M = 2.11688446325998; }
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else if (vel> 0) { A = 7.50912466084823e-05; M = 1.92031057847052; }
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break;
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case 7:
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if (vel> 4200) { A = 1.29081656775919e-09; M = 3.24121295355962; }
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else if (vel> 3000) { A = 0.0171422231434847; M = 1.27907168025204; }
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else if (vel> 1470) { A = 2.33355948302505e-03; M = 1.52693913274526; }
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else if (vel> 1260) { A = 7.97592111627665e-04; M = 1.67688974440324; }
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else if (vel> 1110) { A = 5.71086414289273e-12; M = 4.3212826264889; }
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else if (vel> 960) { A = 3.02865108244904e-17; M = 5.99074203776707; }
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else if (vel> 670) { A = 7.52285155782535e-06; M = 2.1738019851075; }
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else if (vel> 540) { A = 1.31766281225189e-05; M = 2.08774690257991; }
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else if (vel> 0) { A = 1.34504843776525e-05; M = 2.08702306738884; }
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break;
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case 8:
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if (vel> 3571) { A = .0112263766252305; M = 1.33207346655961; }
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else if (vel> 1841) { A = .0167252613732636; M = 1.28662041261785; }
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else if (vel> 1120) { A = 2.20172456619625e-03; M = 1.55636358091189; }
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else if (vel> 1088) { A = 2.0538037167098e-16; M = 5.80410776994789; }
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else if (vel> 976) { A = 5.92182174254121e-12; M = 4.29275576134191; }
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else if (vel> 0) { A = 4.3917343795117e-05; M = 1.99978116283334; }
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break;
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default:
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break;
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}
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if (A != -1 && M != -1 && vel > 0 && vel < 10000) {
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val = A * pow(vel, M) / DragCoefficient;
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val = val / 3.2808399;
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return val;
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}
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return 0.0;
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}
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extern "C"
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{
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__declspec (dllexport) void __stdcall RVExtension(char *output, int outputSize, const char *function);
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}
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void __stdcall RVExtension(char *output, int outputSize, const char *function)
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{
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if (!strcmp(function, "version"))
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{
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int n = sprintf_s(output, outputSize, "%s", ACE_FULL_VERSION_STR);
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return;
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}
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char* input = _strdup(function);
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char* token = NULL;
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char* next_token = NULL;
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char* mode = strtok_s(input, ":", &next_token);
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if (!strcmp(mode, "retard")) {
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double ballisticCoefficient = 1.0;
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int dragModel = 1;
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double velocity = 0.0;
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double retard = 0.0;
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dragModel = strtol(strtok_s(NULL, ":", &next_token), NULL, 10);
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ballisticCoefficient = strtod(strtok_s(NULL, ":", &next_token), NULL);
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velocity = strtod(strtok_s(NULL, ":", &next_token), NULL);
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retard = calculateRetard(dragModel, ballisticCoefficient, velocity);
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int n = sprintf_s(output, outputSize, "%f", retard);
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return;
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}
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else if (!strcmp(mode, "atmosphericCorrection")) {
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double ballisticCoefficient = 1.0;
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double temperature = 15.0;
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double pressure = 1013.25;
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double humidity = 0.0;
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char* atmosphereModel;
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ballisticCoefficient = strtod(strtok_s(NULL, ":", &next_token), NULL);
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temperature = strtod(strtok_s(NULL, ":", &next_token), NULL);
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pressure = strtod(strtok_s(NULL, ":", &next_token), NULL);
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humidity = strtod(strtok_s(NULL, ":", &next_token), NULL);
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atmosphereModel = strtok_s(NULL, ":", &next_token);
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ballisticCoefficient = calculateAtmosphericCorrection(ballisticCoefficient, temperature, pressure, humidity, atmosphereModel);
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int n = sprintf_s(output, outputSize, "%f", ballisticCoefficient);
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return;
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}
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else if (!strcmp(mode, "new")) {
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unsigned int index = 0;
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double airFriction = 0.0;
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char* ballisticCoefficientArray;
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char* ballisticCoefficient;
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std::vector<double> ballisticCoefficients;
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char* velocityBoundaryArray;
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char* velocityBoundary;
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std::vector<double> velocityBoundaries;
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char* atmosphereModel;
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int dragModel = 1;
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double stabilityFactor = 1.5;
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int twistDirection = 1;
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double transonicStabilityCoef = 1;
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double muzzleVelocity = 850;
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char* originArray;
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char* originEntry;
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std::vector<double> origin;
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double latitude = 0.0;
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double temperature = 0.0;
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double altitude = 0.0;
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double humidity = 0.0;
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double overcast = 0.0;
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double tickTime = 0.0;
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index = strtol(strtok_s(NULL, ":", &next_token), NULL, 10);
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airFriction = strtod(strtok_s(NULL, ":", &next_token), NULL);
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ballisticCoefficientArray = strtok_s(NULL, ":", &next_token);
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ballisticCoefficientArray++;
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ballisticCoefficientArray[strlen(ballisticCoefficientArray) - 1] = 0;
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ballisticCoefficient = strtok_s(ballisticCoefficientArray, ",", &token);
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while (ballisticCoefficient != NULL)
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{
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ballisticCoefficients.push_back(strtod(ballisticCoefficient, NULL));
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ballisticCoefficient = strtok_s(NULL, ",", &token);
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}
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velocityBoundaryArray = strtok_s(NULL, ":", &next_token);
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velocityBoundaryArray++;
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velocityBoundaryArray[strlen(velocityBoundaryArray) - 1] = 0;
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velocityBoundary = strtok_s(velocityBoundaryArray, ",", &token);
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while (velocityBoundary != NULL)
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{
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velocityBoundaries.push_back(strtod(velocityBoundary, NULL));
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velocityBoundary = strtok_s(NULL, ",", &token);
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}
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atmosphereModel = strtok_s(NULL, ":", &next_token);
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dragModel = strtol(strtok_s(NULL, ":", &next_token), NULL, 10);
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stabilityFactor = strtod(strtok_s(NULL, ":", &next_token), NULL);
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twistDirection = strtol(strtok_s(NULL, ":", &next_token), NULL, 10);
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muzzleVelocity = strtod(strtok_s(NULL, ":", &next_token), NULL);
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transonicStabilityCoef = strtod(strtok_s(NULL, ":", &next_token), NULL);
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originArray = strtok_s(NULL, ":", &next_token);
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originArray++;
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originArray[strlen(originArray) - 1] = 0;
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originEntry = strtok_s(originArray, ",", &token);
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while (originEntry != NULL)
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{
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origin.push_back(strtod(originEntry, NULL));
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originEntry = strtok_s(NULL, ",", &token);
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}
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latitude = strtod(strtok_s(NULL, ":", &next_token), NULL);
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temperature = strtod(strtok_s(NULL, ":", &next_token), NULL);
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altitude = strtod(strtok_s(NULL, ":", &next_token), NULL);
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humidity = strtod(strtok_s(NULL, ":", &next_token), NULL);
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overcast = strtod(strtok_s(NULL, ":", &next_token), NULL);
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tickTime = strtod(strtok_s(NULL, ":", &next_token), NULL);
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tickTime += strtod(strtok_s(NULL, ":", &next_token), NULL);
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while (index >= bulletDatabase.size()) {
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Bullet bullet;
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bulletDatabase.push_back(bullet);
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}
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bulletDatabase[index].airFriction = airFriction;
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bulletDatabase[index].ballisticCoefficients = ballisticCoefficients;
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bulletDatabase[index].velocityBoundaries = velocityBoundaries;
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bulletDatabase[index].atmosphereModel = atmosphereModel;
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bulletDatabase[index].dragModel = dragModel;
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bulletDatabase[index].stabilityFactor = stabilityFactor;
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bulletDatabase[index].twistDirection = twistDirection;
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bulletDatabase[index].transonicStabilityCoef = transonicStabilityCoef;
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bulletDatabase[index].muzzleVelocity = muzzleVelocity;
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bulletDatabase[index].origin = origin;
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bulletDatabase[index].latitude = latitude / 180 * M_PI;
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bulletDatabase[index].temperature = temperature;
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bulletDatabase[index].altitude = altitude;
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bulletDatabase[index].humidity = humidity;
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bulletDatabase[index].overcast = overcast;
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bulletDatabase[index].startTime = tickTime;
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bulletDatabase[index].lastFrame = tickTime;
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bulletDatabase[index].hDeflection = 0.0;
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bulletDatabase[index].spinDrift = 0.0;
|
|
bulletDatabase[index].speed = 0.0;
|
|
bulletDatabase[index].frames = 0.0;
|
|
|
|
int n = sprintf_s(output, outputSize, "%s", "");
|
|
return;
|
|
}
|
|
else if (!strcmp(mode, "simulate")) {
|
|
// simulate:0:[-0.109985,542.529,-3.98301]:[3751.57,5332.23,214.252]:[0.598153,2.38829,0]:28.6:0:0.481542:0:215.16
|
|
unsigned int index = 0;
|
|
char* velocityArray;
|
|
double velocity[3] = { 0.0, 0.0, 0.0 };
|
|
char* positionArray;
|
|
double position[3] = { 0.0, 0.0, 0.0 };
|
|
char* windArray;
|
|
double wind[3];
|
|
double heightAGL = 0.0;
|
|
double tickTime = 0.0;
|
|
|
|
index = strtol(strtok_s(NULL, ":", &next_token), NULL, 10);
|
|
velocityArray = strtok_s(NULL, ":", &next_token);
|
|
velocityArray++;
|
|
velocityArray[strlen(velocityArray) - 1] = 0;
|
|
velocity[0] = strtod(strtok_s(velocityArray, ",", &token), NULL);
|
|
velocity[1] = strtod(strtok_s(NULL, ",", &token), NULL);
|
|
velocity[2] = strtod(strtok_s(NULL, ",", &token), NULL);
|
|
positionArray = strtok_s(NULL, ":", &next_token);
|
|
positionArray++;
|
|
positionArray[strlen(positionArray) - 1] = 0;
|
|
position[0] = strtod(strtok_s(positionArray, ",", &token), NULL);
|
|
position[1] = strtod(strtok_s(NULL, ",", &token), NULL);
|
|
position[2] = strtod(strtok_s(NULL, ",", &token), NULL);
|
|
windArray = strtok_s(NULL, ":", &next_token);
|
|
windArray++;
|
|
windArray[strlen(windArray) - 1] = 0;
|
|
wind[0] = strtod(strtok_s(windArray, ",", &token), NULL);
|
|
wind[1] = strtod(strtok_s(NULL, ",", &token), NULL);
|
|
wind[2] = strtod(strtok_s(NULL, ",", &token), NULL);
|
|
heightAGL = strtod(strtok_s(NULL, ":", &next_token), NULL);
|
|
tickTime = strtod(strtok_s(NULL, ":", &next_token), NULL);
|
|
tickTime += strtod(strtok_s(NULL, ":", &next_token), NULL);
|
|
|
|
double ballisticCoefficient = 1.0;
|
|
double dragRef = 0.0;
|
|
double drag = 0.0;
|
|
double accelRef[3] = { 0.0, 0.0, 0.0 };
|
|
double accel[3] = { 0.0, 0.0, 0.0 };
|
|
double TOF = 0.0;
|
|
double deltaT = 0.0;
|
|
double bulletSpeed;
|
|
double bulletDir;
|
|
double bulletSpeedAvg = 0.0;
|
|
double trueVelocity[3] = { 0.0, 0.0, 0.0 };
|
|
double trueSpeed = 0.0;
|
|
double temperature = 0.0;
|
|
double windSpeed = 0.0;
|
|
double windAttenuation = 1.0;
|
|
double velocityOffset[3] = { 0.0, 0.0, 0.0 };
|
|
double positionOffset[3] = { 0.0, 0.0, 0.0 };
|
|
|
|
TOF = tickTime - bulletDatabase[index].startTime;
|
|
|
|
deltaT = tickTime - bulletDatabase[index].lastFrame;
|
|
bulletDatabase[index].lastFrame = tickTime;
|
|
|
|
bulletSpeed = sqrt(pow(velocity[0], 2) + pow(velocity[1], 2) + pow(velocity[2], 2));
|
|
bulletDir = atan2(velocity[0], velocity[1]);
|
|
|
|
bulletDatabase[index].speed += bulletSpeed;
|
|
bulletDatabase[index].frames += 1;
|
|
bulletSpeedAvg = (bulletDatabase[index].speed / bulletDatabase[index].frames);
|
|
|
|
windSpeed = sqrt(pow(wind[0], 2) + pow(wind[1], 2) + pow(wind[2], 2));
|
|
if (windSpeed > 0.1)
|
|
{
|
|
double windSourceTerrain[3];
|
|
|
|
windSourceTerrain[0] = position[0] - wind[0] / windSpeed * 100;
|
|
windSourceTerrain[1] = position[1] - wind[1] / windSpeed * 100;
|
|
windSourceTerrain[2] = position[2] - wind[2] / windSpeed * 100;
|
|
|
|
int gridX = (int)floor(windSourceTerrain[0] / 50);
|
|
int gridY = (int)floor(windSourceTerrain[1] / 50);
|
|
int gridCell = gridX * map->mapGrids + gridY;
|
|
|
|
if (gridCell >= 0 && (std::size_t)gridCell < map->gridHeights.size() && (std::size_t)gridCell < map->gridBuildingNums.size()) {
|
|
double gridHeight = map->gridHeights[gridCell];
|
|
|
|
if (gridHeight > position[2]) {
|
|
double angle = atan((gridHeight - position[2]) / 100);
|
|
windAttenuation *= pow(abs(cos(angle)), 2);
|
|
}
|
|
}
|
|
}
|
|
|
|
if (windSpeed > 0.1)
|
|
{
|
|
double windSourceObstacles[3];
|
|
|
|
windSourceObstacles[0] = position[0] - wind[0] / windSpeed * 25;
|
|
windSourceObstacles[1] = position[1] - wind[1] / windSpeed * 25;
|
|
windSourceObstacles[2] = position[2] - wind[2] / windSpeed * 25;
|
|
|
|
if (heightAGL > 0 && heightAGL < 20) {
|
|
double roughnessLength = calculateRoughnessLength(windSourceObstacles[0], windSourceObstacles[1]);
|
|
windAttenuation *= abs(log(heightAGL / roughnessLength) / log(20 / roughnessLength));
|
|
}
|
|
}
|
|
|
|
if (windAttenuation < 1)
|
|
{
|
|
wind[0] *= windAttenuation;
|
|
wind[1] *= windAttenuation;
|
|
wind[2] *= windAttenuation;
|
|
windSpeed = sqrt(pow(wind[0], 2) + pow(wind[1], 2) + pow(wind[2], 2));
|
|
}
|
|
|
|
trueVelocity[0] = velocity[0] - wind[0];
|
|
trueVelocity[1] = velocity[1] - wind[1];
|
|
trueVelocity[2] = velocity[2] - wind[2];
|
|
trueSpeed = sqrt(pow(trueVelocity[0], 2) + pow(trueVelocity[1], 2) + pow(trueVelocity[2], 2));
|
|
|
|
temperature = bulletDatabase[index].temperature - 0.0065 * position[2];
|
|
|
|
if (bulletDatabase[index].ballisticCoefficients.size() == bulletDatabase[index].velocityBoundaries.size() + 1) {
|
|
double pressure = 1013.25 * exp(-(bulletDatabase[index].altitude + position[2]) / 7990) - 10 * bulletDatabase[index].overcast;
|
|
|
|
dragRef = deltaT * bulletDatabase[index].airFriction * bulletSpeed * bulletSpeed;
|
|
|
|
accelRef[0] = (velocity[0] / bulletSpeed) * dragRef;
|
|
accelRef[1] = (velocity[1] / bulletSpeed) * dragRef;
|
|
accelRef[2] = (velocity[2] / bulletSpeed) * dragRef;
|
|
|
|
velocityOffset[0] -= accelRef[0];
|
|
velocityOffset[1] -= accelRef[1];
|
|
velocityOffset[2] -= accelRef[2];
|
|
|
|
ballisticCoefficient = bulletDatabase[index].ballisticCoefficients[0];
|
|
for (int i = (int)bulletDatabase[index].velocityBoundaries.size() - 1; i >= 0; i = i - 1)
|
|
{
|
|
if (bulletSpeed < bulletDatabase[index].velocityBoundaries[i])
|
|
{
|
|
ballisticCoefficient = bulletDatabase[index].ballisticCoefficients[i + 1];
|
|
break;
|
|
}
|
|
}
|
|
|
|
ballisticCoefficient = calculateAtmosphericCorrection(ballisticCoefficient, temperature, pressure, bulletDatabase[index].humidity, bulletDatabase[index].atmosphereModel);
|
|
drag = deltaT * calculateRetard(bulletDatabase[index].dragModel, ballisticCoefficient, trueSpeed);
|
|
accel[0] = (trueVelocity[0] / trueSpeed) * drag;
|
|
accel[1] = (trueVelocity[1] / trueSpeed) * drag;
|
|
accel[2] = (trueVelocity[2] / trueSpeed) * drag;
|
|
|
|
velocityOffset[0] -= accel[0];
|
|
velocityOffset[1] -= accel[1];
|
|
velocityOffset[2] -= accel[2];
|
|
}
|
|
else {
|
|
double pressureDeviation = 1013.25 * exp(-(bulletDatabase[index].altitude + position[2]) / 7990) - 1013.25 - 10 * bulletDatabase[index].overcast;
|
|
double airFriction = bulletDatabase[index].airFriction + ((temperature - 15) * 0.0000015 + bulletDatabase[index].humidity * 0.0000040 + pressureDeviation * -0.0000009);
|
|
|
|
if (airFriction != bulletDatabase[index].airFriction || windSpeed > 0) {
|
|
dragRef = deltaT * bulletDatabase[index].airFriction * bulletSpeed * bulletSpeed;
|
|
|
|
accelRef[0] = (velocity[0] / bulletSpeed) * dragRef;
|
|
accelRef[1] = (velocity[1] / bulletSpeed) * dragRef;
|
|
accelRef[2] = (velocity[2] / bulletSpeed) * dragRef;
|
|
|
|
velocityOffset[0] -= accelRef[0];
|
|
velocityOffset[1] -= accelRef[1];
|
|
velocityOffset[2] -= accelRef[2];
|
|
|
|
drag = deltaT * airFriction * trueSpeed * trueSpeed;
|
|
accel[0] = (trueVelocity[0] / trueSpeed) * drag;
|
|
accel[1] = (trueVelocity[1] / trueSpeed) * drag;
|
|
accel[2] = (trueVelocity[2] / trueSpeed) * drag;
|
|
|
|
velocityOffset[0] += accel[0];
|
|
velocityOffset[1] += accel[1];
|
|
velocityOffset[2] += accel[2];
|
|
}
|
|
}
|
|
|
|
if (bulletSpeedAvg > 0) {
|
|
double distanceSqr = pow(bulletDatabase[index].origin[0] - position[0], 2) + pow(bulletDatabase[index].origin[1] - position[1], 2) + pow(bulletDatabase[index].origin[2] - position[2], 2);
|
|
double horizontalDeflection = 0.0000729 * distanceSqr * sin(bulletDatabase[index].latitude) / bulletSpeedAvg;
|
|
double horizontalDeflectionPartial = horizontalDeflection - bulletDatabase[index].hDeflection;
|
|
bulletDatabase[index].hDeflection = horizontalDeflection;
|
|
|
|
positionOffset[0] += sin(bulletDir + M_PI / 2) * horizontalDeflectionPartial;
|
|
positionOffset[1] += cos(bulletDir + M_PI / 2) * horizontalDeflectionPartial;
|
|
}
|
|
|
|
double centripetalAccel = 2 * 0.0000729 * (bulletDatabase[index].muzzleVelocity / -32.2) * cos(bulletDatabase[index].latitude) * sin(bulletDir);
|
|
velocityOffset[2] -= centripetalAccel * deltaT;
|
|
|
|
double spinDrift = bulletDatabase[index].twistDirection * 0.0254 * 1.25 * (bulletDatabase[index].stabilityFactor + 1.2) * pow(TOF, 1.83);
|
|
double spinDriftPartial = spinDrift - bulletDatabase[index].spinDrift;
|
|
bulletDatabase[index].spinDrift = spinDrift;
|
|
|
|
positionOffset[0] += sin(bulletDir + M_PI / 2) * spinDriftPartial;
|
|
positionOffset[1] += cos(bulletDir + M_PI / 2) * spinDriftPartial;
|
|
|
|
if (bulletSpeed < 345 && bulletSpeedAvg > 340 && bulletSpeed > 335)
|
|
{
|
|
srand((unsigned)time(NULL));
|
|
velocityOffset[0] += (((double)rand() / (RAND_MAX)) * 0.4 - 0.2) * (1 - bulletDatabase[index].transonicStabilityCoef);
|
|
velocityOffset[1] += (((double)rand() / (RAND_MAX)) * 0.4 - 0.2) * (1 - bulletDatabase[index].transonicStabilityCoef);
|
|
velocityOffset[2] += (((double)rand() / (RAND_MAX)) * 0.4 - 0.2) * (1 - bulletDatabase[index].transonicStabilityCoef);
|
|
};
|
|
|
|
int n = sprintf_s(output, outputSize, "_bullet setVelocity (_bulletVelocity vectorAdd [%f, %f, %f]); _bullet setPosASL (_bulletPosition vectorAdd [%f, %f, %f]);", velocityOffset[0], velocityOffset[1], velocityOffset[2], positionOffset[0], positionOffset[1], positionOffset[2]);
|
|
return;
|
|
}
|
|
else if (!strcmp(mode, "set")) {
|
|
int height = 0;
|
|
int numObjects = 0;
|
|
int surfaceIsWater = 0;
|
|
|
|
height = strtol(strtok_s(NULL, ":", &next_token), NULL, 10);
|
|
numObjects = strtol(strtok_s(NULL, ":", &next_token), NULL, 10);
|
|
surfaceIsWater = strtol(strtok_s(NULL, ":", &next_token), NULL, 10);
|
|
|
|
map->gridHeights.push_back(height);
|
|
map->gridBuildingNums.push_back(numObjects);
|
|
map->gridSurfaceIsWater.push_back(surfaceIsWater);
|
|
|
|
int n = sprintf_s(output, outputSize, "%s", "");
|
|
return;
|
|
}
|
|
else if (!strcmp(mode, "init")) {
|
|
int mapSize = 0;
|
|
int mapGrids = 0;
|
|
int gridCells = 0;
|
|
|
|
worldName = strtok_s(NULL, ":", &next_token);
|
|
mapSize = strtol(strtok_s(NULL, ":", &next_token), NULL, 10);
|
|
|
|
mapGrids = (int)ceil((double)mapSize / 50.0) + 1;
|
|
gridCells = mapGrids * mapGrids;
|
|
|
|
map = &mapDatabase[worldName];
|
|
if (map->gridHeights.size() == gridCells) {
|
|
int n = sprintf_s(output, outputSize, "%s", "Terrain already initialized");
|
|
return;
|
|
}
|
|
|
|
map->mapSize = mapSize;
|
|
map->mapGrids = mapGrids;
|
|
map->gridHeights.clear();
|
|
map->gridBuildingNums.clear();
|
|
map->gridSurfaceIsWater.clear();
|
|
map->gridHeights.reserve(gridCells);
|
|
map->gridBuildingNums.reserve(gridCells);
|
|
map->gridSurfaceIsWater.reserve(gridCells);
|
|
|
|
int n = sprintf_s(output, outputSize, "%s", "");
|
|
return;
|
|
}
|
|
|
|
int n = sprintf_s(output, outputSize, "%s", "");
|
|
return;
|
|
}
|