ACE3/addons/atragmx/functions/fnc_calculate_target_solution.sqf
Phyma ffaa195fe5 Conform function headers to coding guidelines (#5255)
* Fixed headers to work with silentspike python script

* Fixed rest of the files

* Fixed ace-team
2017-06-08 15:31:51 +02:00

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/*
* Author: Ruthberg
* Calculates the fireing solution and updates the result input/output fields
*
* Arguments:
* None
*
* Return Value:
* None
*
* Example:
* call ace_atragmx_fnc_calculate_target_solution
*
* Public: No
*/
#include "script_component.hpp"
[] call FUNC(parse_input);
private ["_scopeBaseAngle"];
_scopeBaseAngle = (GVAR(workingMemory) select 3);
private ["_bulletMass", "_bulletDiameter", "_boreHeight", "_airFriction", "_barrelTwist", "_muzzleVelocity", "_bc", "_dragModel", "_atmosphereModel", "_twistDirection"];
_bulletMass = GVAR(workingMemory) select 12;
_bulletDiameter = GVAR(workingMemory) select 13;
_boreHeight = GVAR(workingMemory) select 5;
_airFriction = GVAR(workingMemory) select 4;
_barrelTwist = GVAR(workingMemory) select 14;
_muzzleVelocity = GVAR(workingMemory) select 1;
_bc = GVAR(workingMemory) select 15;
_dragModel = GVAR(workingMemory) select 16;
_atmosphereModel = GVAR(workingMemory) select 17;
_twistDirection = 0;
if (_barrelTwist > 0) then {
_twistDirection = 1;
} else {
if (_barrelTwist < 0) then {
_twistDirection = -1;
};
};
_barrelTwist = abs(_barrelTwist);
private ["_altitude", "_temperature", "_barometricPressure", "_relativeHumidity"];
_altitude = GVAR(altitude);
_temperature = GVAR(temperature);
_barometricPressure = GVAR(barometricPressure);
_relativeHumidity = GVAR(relativeHumidity);
if (!GVAR(atmosphereModeTBH)) then {
_barometricPressure = 1013.25 * (1 - (0.0065 * _altitude) / (273.15 + _temperature + 0.0065 * _altitude)) ^ 5.255754495;
_relativeHumidity = 50;
};
private ["_bulletLength", "_stabilityFactor"];
_bulletLength = 50 * _bulletMass / ((_bulletDiameter/2)^2);
_stabilityFactor = 1.5;
if (missionNamespace getVariable [QEGVAR(advanced_ballistics,enabled), false]) then {
if (_bulletDiameter > 0 && _bulletLength > 0 && _bulletMass > 0 && _barrelTwist > 0) then {
_stabilityFactor = [_bulletDiameter, _bulletLength, _bulletMass, _barrelTwist * 10, _muzzleVelocity, _temperature, _barometricPressure] call EFUNC(advanced_ballistics,calculateStabilityFactor);
};
};
private ["_latitude", "_directionOfFire", "_windSpeed1", "_windSpeed2", "_windDirection", "_inclinationAngle", "_targetSpeed", "_targetRange"];
_latitude = GVAR(latitude) select GVAR(currentTarget);
_directionOfFire = GVAR(directionOfFire) select GVAR(currentTarget);
_windSpeed1 = GVAR(windSpeed1) select GVAR(currentTarget);
_windSpeed2 = GVAR(windSpeed2) select GVAR(currentTarget);
_windDirection = GVAR(windDirection) select GVAR(currentTarget);
_inclinationAngle = GVAR(inclinationAngle) select GVAR(currentTarget);
_targetSpeed = GVAR(targetSpeed) select GVAR(currentTarget);
_targetRange = GVAR(targetRange) select GVAR(currentTarget);
GVAR(targetSolutionInput) = [_scopeBaseAngle, _bulletMass, _boreHeight, _airFriction, _muzzleVelocity, _temperature, _barometricPressure, _relativeHumidity, round(_muzzleVelocity),
[_windSpeed1, _windSpeed2], _windDirection, _inclinationAngle, _targetSpeed, _targetRange, _bc, _dragModel, _atmosphereModel, false, _stabilityFactor, _twistDirection, _latitude, _directionOfFire];
private _result = GVAR(targetSolutionInput) call FUNC(calculate_solution);
GVAR(elevationOutput) set [GVAR(currentTarget), _result select 0];
GVAR(windage1Output) set [GVAR(currentTarget), (_result select 1) select 0];
GVAR(windage2Output) set [GVAR(currentTarget), (_result select 1) select 1];
GVAR(leadOutput) set [GVAR(currentTarget), _result select 2];
GVAR(tofOutput) set [GVAR(currentTarget), _result select 3];
GVAR(velocityOutput) set [GVAR(currentTarget), _result select 4];
GVAR(verticalCoriolisOutput) set [GVAR(currentTarget), _result select 6];
GVAR(horizontalCoriolisOutput) set [GVAR(currentTarget), _result select 7];
GVAR(spinDriftOutput) set [GVAR(currentTarget), _result select 8];
[] call FUNC(update_result);