/* * Author: Ruthberg * Parses all input fields in the gun, atmosphere and target column and the result input fields * * Arguments: * Nothing * * Return Value: * Nothing * * Example: * call ace_atragmx_fnc_parse_input * * Public: No */ #include "script_component.hpp" GVAR(altitude) = -1000 max parseNumber(ctrlText 130030) min 20000; GVAR(temperature) = -50 max parseNumber(ctrlText 130040) min 160; GVAR(barometricPressure) = 10 max parseNumber(ctrlText 130050) min 1350; GVAR(relativeHumidity) = (0 max parseNumber(ctrlText 130060) min 100) / 100; if (GVAR(currentUnit) != 2) then { GVAR(altitude) = GVAR(altitude) * 0.3048; GVAR(temperature) = (GVAR(temperature) - 32) / 1.8; GVAR(barometricPressure) = GVAR(barometricPressure) * 33.86389; }; private ["_inclinationAngleCosine", "_inclinationAngleDegree"]; GVAR(latitude) set [GVAR(currentTarget), -90 max Round(parseNumber(ctrlText 140000)) min 90]; GVAR(directionOfFire) set [GVAR(currentTarget), 0 max abs(Round(parseNumber(ctrlText 140010))) min 359]; GVAR(windSpeed1) set [GVAR(currentTarget), 0 max abs(parseNumber(ctrlText 140020)) min 50]; GVAR(windSpeed2) set [GVAR(currentTarget), 0 max abs(parseNumber(ctrlText 140021)) min 50]; GVAR(windDirection) set [GVAR(currentTarget), 1 max Round(parseNumber(ctrlText 140030)) min 12]; _inclinationAngleCosine = 0.5 max parseNumber(ctrlText 140041) min 1; _inclinationAngleDegree = -60 max round(parseNumber(ctrlText 140040)) min 60; if (_inclinationAngleDegree != GVAR(inclinationAngle) select GVAR(currentTarget)) then { GVAR(inclinationAngle) set [GVAR(currentTarget), _inclinationAngleDegree]; } else { if (_inclinationAngleCosine != Round(cos(GVAR(inclinationAngle) select GVAR(currentTarget)) * 100) / 100) then { GVAR(inclinationAngle) set [GVAR(currentTarget), round(acos(_inclinationAngleCosine))]; }; }; GVAR(targetSpeed) set [GVAR(currentTarget), 0 max abs(parseNumber(ctrlText 140050)) min 50]; if ((ctrlText 140051) == ">") then { GVAR(targetSpeedDirection) set [GVAR(currentTarget), +1]; } else { GVAR(targetSpeedDirection) set [GVAR(currentTarget), -1]; }; GVAR(targetRange) set [GVAR(currentTarget), 0 max abs(parseNumber(ctrlText 140060)) min 4000]; if (GVAR(currentUnit) != 2) then { GVAR(windSpeed1) set [GVAR(currentTarget), (GVAR(windSpeed1) select GVAR(currentTarget)) * 0.44704]; GVAR(windSpeed2) set [GVAR(currentTarget), (GVAR(windSpeed2) select GVAR(currentTarget)) * 0.44704]; GVAR(targetSpeed) set [GVAR(currentTarget), (GVAR(targetSpeed) select GVAR(currentTarget)) * 0.44704]; }; if (GVAR(currentUnit) == 1) then { GVAR(targetRange) set [GVAR(currentTarget), (GVAR(targetRange) select GVAR(currentTarget)) * 0.9144]; }; private ["_boreHeight", "_bulletMass", "_bulletDiameter", "_airFriction", "_rifleTwist", "_muzzleVelocity", "_zeroRange"]; _boreHeight = parseNumber(ctrlText 120000); _bulletMass = parseNumber(ctrlText 120010); _bulletDiameter = parseNumber(ctrlText 120020) * 10; if (missionNamespace getVariable [QEGVAR(advanced_ballistics,enabled), false]) then { _airFriction = 0.1 max parseNumber(ctrlText 120030) min 2; } else { _airFriction = parseNumber(ctrlText 120030) / -1000; }; _rifleTwist = parseNumber(ctrlText 120040); _muzzleVelocity = parseNumber(ctrlText 120050); _zeroRange = parseNumber (ctrlText 120060); if (GVAR(currentUnit) != 2) then { _boreHeight = _boreHeight * 2.54; _bulletMass = _bulletMass * 0.06479891; _bulletDiameter = _bulletDiameter * 2.54; _rifleTwist = _rifleTwist * 2.54; _muzzleVelocity = _muzzleVelocity / 3.2808399; }; if (GVAR(currentUnit) == 1) then { _zeroRange = _zeroRange / 1.0936133; }; _boreHeight = 0.1 max _boreHeight min 10; _bulletMass = 1 max _bulletMass min 100; _bulletDiameter = 1 max _bulletDiameter min 25; _muzzleVelocity = 100 max _muzzleVelocity min 1400; _zeroRange = 0 max _zeroRange min 1000; GVAR(workingMemory) set [5, _boreHeight]; GVAR(workingMemory) set [12, _bulletMass]; GVAR(workingMemory) set [13, _bulletDiameter]; GVAR(workingMemory) set [14, _rifleTwist]; if (missionNamespace getVariable [QEGVAR(advanced_ballistics,enabled), false]) then { GVAR(workingMemory) set [15, _airFriction]; } else { GVAR(workingMemory) set [4, _airFriction]; }; GVAR(workingMemory) set [1, _muzzleVelocity]; GVAR(workingMemory) set [2, _zeroRange]; [] call FUNC(update_gun); [] call FUNC(update_gun_ammo_data); [] call FUNC(update_atmosphere); [] call FUNC(update_atmo_env_data); [] call FUNC(update_target); [] call FUNC(update_target_data); [] call FUNC(store_user_data);