Improve forceps pinching mechanism

6 years ago · d7b404720c
--- a/src/game/ant.cpp
+++ b/src/game/ant.cpp
@ -55,10 +55,10 @@ void Ant::animate()
 	animationTime = fwrap(animationTime + 2.0f, colony->getTripodGaitAnimation()->getEndTime());
 }

 void Ant::suspend(const Vector3& suspensionPoint)
 void Ant::suspend(const Vector3& suspensionPoint, const Quaternion& suspensionRotation)
 {
 	transform.translation = suspensionPoint;
 	transform.rotation = getRotation();
 	transform.rotation = suspensionRotation;
 	modelInstance.setTransform(transform);
 }

--- a/src/game/ant.hpp
+++ b/src/game/ant.hpp
@ -70,7 +70,7 @@ public:
 	
 	void animate();
 	
 	void suspend(const Vector3& suspensionPoint);
 	void suspend(const Vector3& suspensionPoint, const Quaternion& suspensionRotation);
 	
 	void move(const Vector3& velocity);
 	
--- a/src/game/tool.cpp
+++ b/src/game/tool.cpp
@ -30,10 +30,18 @@ Forceps::Forceps(const Model* model)
 		std::cerr << "Forceps release animation not found" << std::endl;
 	}
 	
 	hoverDistance = 1.0f;
 	
 	// Setup timing
 	float descentDuration = 0.125f;
 	float ascentDuration = 0.125f;
 	float descentFrameCount = descentDuration / (1.0f / 60.0f);
 	animationTimeStep = pinchAnimation->getEndTime() / descentFrameCount;
 	
 	// Allocate tweener and and setup tweens
 	tweener = new Tweener();
 	descentTween = new Tween<float>(EaseFunction::OUT_CUBIC, 0.0f, 0.0667f, 1.0f, -1.0f);
 	ascentTween = new Tween<float>(EaseFunction::IN_CUBIC, 0.0f, 0.0667f, 0.0f, 1.0f);
 	descentTween = new Tween<float>(EaseFunction::OUT_CUBIC, 0.0f, descentDuration, hoverDistance, -hoverDistance);
 	ascentTween = new Tween<float>(EaseFunction::IN_CUBIC, 0.0f, ascentDuration, 0.0f, hoverDistance);
 	descentTween->setEndCallback(std::bind(&TweenBase::start, ascentTween));
 	tweener->addTween(descentTween);
 	tweener->addTween(ascentTween);
@ -62,7 +70,7 @@ void Forceps::update(float dt)
 	tweener->update(dt);
 	
 	// Determine distance from pick point
 	float forcepsDistance = descentTween->getStartValue();
 	float forcepsDistance = hoverDistance;
 	if (!ascentTween->isStopped())
 	{
 		forcepsDistance = ascentTween->getTweenValue();
@ -71,9 +79,10 @@ void Forceps::update(float dt)
 	{
 		forcepsDistance = descentTween->getTweenValue();
 	}
 	
 	Quaternion rotation = glm::angleAxis(cameraController->getAzimuth(), Vector3(0, 1, 0)) *
 		glm::angleAxis(glm::radians(15.0f), Vector3(0, 0, -1));
 		
 	Quaternion alignment = glm::angleAxis(cameraController->getAzimuth(), Vector3(0, 1, 0));
 	Quaternion tilt = glm::angleAxis(glm::radians(15.0f), Vector3(0, 0, -1));
 	Quaternion rotation = glm::normalize(alignment * tilt);
 	Vector3 translation = pick + rotation * Vector3(0, forcepsDistance, 0);
 	
 	// Set tool position
@ -99,10 +108,53 @@ void Forceps::update(float dt)
 	}
 	else if (state == Forceps::State::PINCHED)
 	{
 		if (!ascentTween->isStopped())
 		{
 			// Calculate interpolation factor
 			float interpolationFactor = (ascentTween->getTweenValue() - ascentTween->getStartValue()) /  ascentTween->getDeltaValue();
 			
 			// Form tilt quaternion
 			//Quaternion tilt = glm::angleAxis(glm::radians(15.0f), Vector3(0, 0, -1));
 			tilt = glm::angleAxis(glm::radians(15.0f), Vector3(0, 0, -1));
 			
 			// Project camera forward onto XZ plane
 			Vector3 cameraForwardXZ = cameraController->getCamera()->getForward();
 			cameraForwardXZ.y = 0.0f;
 			cameraForwardXZ = glm::normalize(cameraForwardXZ);
 			
 			// Form alignment quaternion
 			//Quaternion alignment = glm::rotation(Vector3(0, 0, -1), cameraForwardXZ);
 			alignment = glm::angleAxis(cameraController->getAzimuth(), Vector3(0, 1, 0));
 			
 			// Calculate target rotation at the top of the ascentTween
 			rotationTop = glm::normalize(alignment * tilt);
 			
 			// Interpolate between bottom and top rotations
 			Quaternion interpolatedRotation = glm::normalize(glm::slerp(rotationBottom, rotationTop, interpolationFactor));
 			
 			// Set target translation at the top of the ascent
 			translationTop = pick + rotationTop * Vector3(0, hoverDistance, 0);
 			
 			// Interpolate between bottom and top translations
 			Vector3 interpolatedTranslation = glm::lerp(translationBottom, translationTop, interpolationFactor);
 			
 			// Update model instance transform
 			modelInstance.setTranslation(interpolatedTranslation);	
 			modelInstance.setRotation(interpolatedRotation);
 		}
 		
 		if (suspendedAnt != nullptr)
 		{
 			// Project forceps forward vector onto XZ plane
 			Vector3 forward = glm::normalize(modelInstance.getRotation() * Vector3(0, 0, -1));
 			forward.y = 0.0f;
 			forward = glm::normalize(forward);

 			// Calculate suspension quaternion
 			Quaternion suspensionRotation = glm::normalize(glm::rotation(Vector3(0, 0, -1), ((flipRotation) ? -forward : forward)));
 			
 			// Suspend ant
 			suspendedAnt->suspend(modelInstance.getTranslation());
 			suspendedAnt->suspend(modelInstance.getTranslation(), suspensionRotation);
 		}
 	}
 	else if (state == Forceps::State::PINCHING)
@ -111,8 +163,47 @@ void Forceps::update(float dt)
 		pinchAnimation->animate(pose, animationTime);
 		pose->concatenate();
 		
 		// Rotate to align forceps with ant
 		if (targetedAnt != nullptr)
 		{
 			// Calculate interpolation factor
 			float interpolationFactor = (descentTween->getTweenValue() - descentTween->getStartValue()) /  descentTween->getDeltaValue();
 			
 			// Set target translation at the bottom of the descent
 			translationBottom = targetedAnt->getPosition();
 			
 			// Interpolate between top and bottom translations
 			Vector3 interpolatedTranslation = glm::lerp(translationTop, translationBottom, interpolationFactor);
 			
 			// Project camera forward onto XZ plane
 			Vector3 cameraForwardXZ = cameraController->getCamera()->getForward();
 			cameraForwardXZ.y = 0.0f;
 			cameraForwardXZ = glm::normalize(cameraForwardXZ);
 			
 			// Form tilt quaternion
 			tilt = glm::angleAxis(glm::radians(15.0f), -cameraForwardXZ);
 			
 			// Project ant forward onto XZ plane
 			Vector3 antForwardXZ = targetedAnt->getForward();
 			antForwardXZ.y = 0.0f;
 			antForwardXZ = glm::normalize(antForwardXZ);
 			
 			// Form alignment quaternion
 			alignment = glm::rotation(Vector3(0, 0, -1), (flipRotation) ? antForwardXZ : -antForwardXZ);
 			
 			// Calculate target rotation at the bottom of the descent
 			rotationBottom = glm::normalize(tilt * alignment);
 			
 			// Interpolate between top and bottom rotations
 			Quaternion interpolatedRotation = glm::normalize(glm::slerp(rotationTop, rotationBottom, interpolationFactor));
 			
 			// Update model instance transform
 			modelInstance.setTranslation(interpolatedTranslation);
 			modelInstance.setRotation(interpolatedRotation);
 		}
 		
 		// If pinch animation is finished
 		if (animationTime >= pinchAnimation->getEndTime())
 		if (animationTime >= pinchAnimation->getEndTime() && descentTween->isStopped())
 		{
 			// If an ant was targeted
 			if (targetedAnt != nullptr)
@ -120,7 +211,7 @@ void Forceps::update(float dt)
 				// Suspend targeted ant
 				suspendedAnt = targetedAnt;
 				suspendedAnt->setState(Ant::State::SUSPENDED);
 				suspendedAnt->suspend(modelInstance.getTranslation());
 				//suspendedAnt->suspend(modelInstance.getTranslation());
 				targetedAnt = nullptr;
 			}
 			
@ -130,8 +221,7 @@ void Forceps::update(float dt)
 	}
 	
 	// Increment animation time
 	//animationTime += dt;
 	animationTime += 2.5f;
 	animationTime += animationTimeStep;
 }

 void Forceps::setColony(Colony* colony)
@ -178,10 +268,33 @@ void Forceps::pinch()
 				targetedAnt = ant;
 			}
 		}
 		
 		if (targetedAnt != nullptr)
 		{
 			// Start descent tweener
 			descentTween->start();
 			
 			// Save translation & rotation
 			translationTop = modelInstance.getTranslation();
 			rotationTop = modelInstance.getRotation();
 			
 			// Project ant forward onto XZ plane
 			Vector3 antForwardXZ = targetedAnt->getForward();
 			antForwardXZ.y = 0.0f;
 			antForwardXZ = glm::normalize(antForwardXZ);
 			
 			// Project camera forward onto XZ plane
 			Vector3 cameraForwardXZ = cameraController->getCamera()->getForward();
 			cameraForwardXZ.y = 0.0f;
 			cameraForwardXZ = glm::normalize(cameraForwardXZ);
 			
 			// Find angle between ant and camera on XZ plane
 			float angle = std::acos(glm::dot(cameraForwardXZ, antForwardXZ));
 			
 			// Determine direction to rotate
 			flipRotation = (angle > glm::radians(90.0f));
 		}
 	}
 	
 	// Start descent tweener
 	descentTween->start();
 }

 void Forceps::release()
@ -189,6 +302,7 @@ void Forceps::release()
 	// Change state to releasing
 	state = Forceps::State::RELEASING;
 	animationTime = 0.0f;
 	targetedAnt = nullptr;
 	
 	if (suspendedAnt != nullptr)
 	{
--- a/src/game/tool.hpp
+++ b/src/game/tool.hpp
@ -124,9 +124,16 @@ private:
 	const Animation* pinchAnimation;
 	const Animation* releaseAnimation;
 	float animationTime;
 	float animationTimeStep;
 	float hoverDistance;
 	Tweener* tweener;
 	Tween<float>* descentTween;
 	Tween<float>* ascentTween;
 	Vector3 translationBottom;
 	Vector3 translationTop;
 	Quaternion rotationTop;
 	Quaternion rotationBottom;
 	bool flipRotation;
 	Colony* colony;
 	Ant* targetedAnt;
 	Ant* suspendedAnt;