//This is a sample BiCCL file.  This file defines a workflow for a single MBARK session.

localizations {
	
	SubjectCarryingGlasses {
		en-US = "Subject is carrying glasses.";
		en-UK = "Subject is carrying spectacles.";
		de-DE = "Thema trgt Glser.";
	}

	SubjectNotCarryingGlasses {
		en-US = "Subject is not carrying glasses.";
		en-UK = "Subject is not carrying spectacles.";
		de-DE = "Thema trgt nicht Glser.";
	}

	SubjectIsWearingGlasses {
		en-US = "Subject is wearing glasses.";
		en-UK = "Subject is not wearing spectacles.";
		de-DE = "Thema trgt Glser.";
	}

	SubjectIsNotWearingGlasses {
		en-US = "Subject is not wearing glasses.";
		en-UK = "Subject is not wearing spectacles.";
		de-DE = "Thema trgt nicht Glser.";
	}

	GlassesOn {
		en-US = "Glasses on.";
		en-UK = "Spectacles on.";
		de-DE = "Glser an.";
	}
	
	GlassesOff {
		en-US = "Glasses off.";
		en-UK = "Spectacles off.";
		de-DE = "Glser weg.";
	}

	SubjectMustBeCarryingGlasses {
		en-US = "Subject must be carrying glasses.";
		en-UK = "Subject must be carrying spectacles.";
		de-DE = "Thema mu Glser tragen.";
	}

}

//NOTE: Since there is no requirement that the condition names exist in the localization
//library, the condition description is filled by:
// 1. Checking the message library
// 2. using the standalone true string if it isn't empty
// 3. adding the condition name to the library, which will only produce an en-US localization.

experimentalConditions {

	static boolean carryingGlasses {

		standaloneMessages {
			trueMessage = SubjectCarryingGlasses;
			falseMessage = SubjectNotCarryingGlasses;
			invalidMessage = none;
		}

		compoundMessages {
			trueMessage = none;
			falseMessage = none;
			invalidMessage = none;
		}

		requires { modality == "Face" || submodality in { "Face" }; }
		unmetPrerequisiteMessage = none;
	}

	boolean wearingGlasses {
		initialValue = false;
		standaloneMessages {
			trueMessage = SubjectIsWearingGlasses;
			falseMessage = SubjectIsNotWearingGlasses;
			invalidMessage = none;
		}

		compoundMessages {
			trueMessage = GlassesOn;
			falseMessage = GlassesOff;
			invalidMessage = none;
		}

		requires { carryingGlasses == true; }
		unmetPrerequisiteMessage = SubjectMustBeCarryingGlasses;
	}
}

equivalenceClasses {

	NotCarryingGlassesEquivalence{
		~carryingGlasses || ~(carryingGlasses && ~wearingGlasses);
	}

}

sensors{

	VirtualFingerprint {
		libraryFileName = "Mbark.VirtualSensor.dll";
		sensorNamespace = "Mbark.Sensors";
		sensorClassName = "VirtualFingerprint";
		configurationClassName = "VirtualSensorsConfiguration";
	}

	VirtualFace {
		libraryFileName = "Mbark.VirtualSensor.dll";
		sensorNamespace = "Mbark.Sensors";
		sensorClassName = "VirtualFace";
		configurationClassName = "VirtualSensorsConfiguration";
	}

	VirtualIris {
		libraryFileName = "Mbark.VirtualSensor.dll";
		sensorNamespace = "Mbark.Sensors";
		sensorClassName = "VirtualIris";
		configurationClassName = "VirtualSensorsConfiguration";
	}

}


//NOTE: All parameters in configurations should be capitalized.
//These are mapped DIRECTLY to the method name, so the parameter name here needs
//to have the same name as the property we're trying to set, including capitalization.

configurations {
	
	VirtualSensorsConfiguration VirtualFingerprintConf {
		CaptureCriticalTime = 3000; // 3 sec
		CaptureExpirationTime = 12000; // 12 sec
		DownloadExpirationTime = 0; // 0 sec
	}

	VirtualSensorsConfiguration VirtualFaceConf {
		CaptureCriticalTime = 0; // 3 sec
		CaptureExpirationTime = 20000; // 12 sec
		DownloadExpirationTime = 15000; // 0 sec
	}

	VirtualSensorsConfiguration VirtualIrisConf {
		CaptureCriticalTime = 3000; // 3 sec
		CaptureExpirationTime = 20000; // 12 sec
		DownloadExpirationTime = 0; // 0 sec
	}
}	

tasks {

	faceCapture {
		sensor = VirtualFace;
		configuration = VirtualFaceConf;
		intendedSubmodality = "Face";
		reassignableSubmodalities = none;
	}

	leftSlap {
		sensor = VirtualFingerprint;
		configuration = VirtualFingerprintConf;
		intendedSubmodality = "LeftSlap";
		reassignableSubmodalities = { "LeftSlap", "RightSlap", "ThumbsSlap"};
	}

	rightSlap {
		sensor = VirtualFingerprint;
		configuration = VirtualFingerprintConf;
		intendedSubmodality = "RightSlap";
		reassignableSubmodalities = {"LeftSlap", "RightSlap", "ThumbsSlap"};
	}

	thumbsSlap {
		sensor = VirtualFingerprint;
		configuration = VirtualFingerprintConf;
		intendedSubmodality = "ThumbsSlap";
		reassignableSubmodalities = {"LeftSlap", "RightSlap", "ThumbsSlap"};
	}


	leftIris {
		sensor = VirtualIris;
		configuration = VirtualIrisConf;
		intendedSubmodality = "LeftIris";
		reassignableSubmodalities = {
			"LeftIris", "RightIris"};
	}

	rightIris {
		sensor = VirtualIris;
		configuration = VirtualIrisConf;
		intendedSubmodality = "RightIris";
		reassignableSubmodalities = {
			"LeftIris", "RightIris" };
	}
}



initialState {

	carryingGlasses = false;
	wearingGlasses = false;

}

workflow {

	perform 1 leftSlap;
	perform 1 rightSlap;
	perform 1 thumbsSlap;

	perform 1 leftIris;
	perform 1 rightIris;

	if (carryingGlasses == true) { 
	
		perform 1 faceCapture with { 
					carryingGlasses = true, 
					wearingGlasses = true
		};

		perform 1 faceCapture with {
					carryingGlasses = true,
					wearingGlasses = false
		};
	} else {
		perform 1 faceCapture with {
					carryingGlasses = false,
					wearingGlasses = false
		};
	}

}