/* * ace_fcs.cpp * * Calculates firing solution. * * Takes: * initSpeed,airFriction,angle,distance as string * Example: "900,-0.0004,2,1050" * * Returns: * Correction to angle */ #include "shared.hpp" #define _USE_MATH_DEFINES #include #include #include #include #define MAXELEVATION 20 #define MAXITERATIONS 600 #define PRECISION 0.1 #define RADIANS(X) (X / (180 / M_PI)) extern "C" { __declspec (dllexport) void __stdcall RVExtension(char *output, int outputSize, const char *function); }; std::vector splitString(std::string input) { std::istringstream ss(input); std::string token; std::vector output; while (std::getline(ss, token, ',')) { output.push_back(token); } return output; } double traceBullet(double initSpeed, double airFriction, double angle, double angleTarget, double distance) { double velX, velY, posX, posY, lastPosX, lastPosY, posTargetX, posTargetY, velMag; velX = cos(RADIANS(angle)) * initSpeed; velY = sin(RADIANS(angle)) * initSpeed; posX = 0; posY = 0; posTargetX = cos(RADIANS(angleTarget)) * distance; posTargetY = sin(RADIANS(angleTarget)) * distance; double simulationStep = 0.05; int i = 0; while (i < MAXITERATIONS) { lastPosX = posX; lastPosY = posY; velMag = sqrt(pow(velX, 2) + pow(velY, 2)); posX += velX * simulationStep * 0.5; posY += velY * simulationStep * 0.5; velX += simulationStep * (velX * velMag * airFriction); velY += simulationStep * (velY * velMag * airFriction - 9.80665); posX += velX * simulationStep * 0.5; posY += velY * simulationStep * 0.5; if (posX >= posTargetX) { break; } i++; } double coef = (posTargetX - lastPosX) / (posX - lastPosX); return (lastPosY + (posY - lastPosY) * coef) - posTargetY; } double getSolution(double initSpeed, double airFriction, double angleTarget, double distance) { double posTargetX, posTargetY; posTargetX = cos(RADIANS(angleTarget)) * distance; posTargetY = sin(RADIANS(angleTarget)) * distance; if (traceBullet(initSpeed, airFriction, MAXELEVATION, angleTarget, distance) < 0) { return MAXELEVATION - angleTarget; } double a1 = angleTarget; double a2 = MAXELEVATION; double f1, f2, tmp; f1 = traceBullet(initSpeed, airFriction, a1, angleTarget, distance); if (fabs(f1) <= PRECISION) { return 0; } while (fabs(f1) > PRECISION) { f2 = traceBullet(initSpeed, airFriction, a2, angleTarget, distance); tmp = a2 - f2 * (a2 - a1) / (f2 - f1); a1 = a2; a2 = tmp; f1 = f2; } return a2 - angleTarget; } // i like to live dangerously. jk, fix strncpy sometime pls. #pragma warning( push ) #pragma warning( disable : 4996 ) void __stdcall RVExtension(char *output, int outputSize, const char *function) { ZERO_OUTPUT(); if (!strcmp(function, "version")) { strncpy(output, ACE_FULL_VERSION_STR, outputSize); } else { std::vector argStrings = splitString(function); double initSpeed = std::stod(argStrings[0]); double airFriction = std::stod(argStrings[1]); double angleTarget = std::stod(argStrings[2]); double distance = std::stod(argStrings[3]); double result = getSolution(initSpeed, airFriction, angleTarget, distance); std::stringstream sstream; sstream << result; strcpy(output, sstream.str().c_str()); output[outputSize - 1] = '\0'; } EXTENSION_RETURN(); } #pragma warning( pop )