Ejemplo n.º 1
0
void PlayerController::jump()
{
	if (isOnGround())
	{
		m_velocity.z += jumpSpeed;
	}
}
Ejemplo n.º 2
0
void wp_puck_proj::updateSprite()
{
	if (!isOnGround() && wasOnGround())
	{
		vy = -150;	//jump up to clear a small gap
	}
	if (getx() < -16 || getx() > 271)	//out of the screen now, dont wanna see the death FX either
	{
		destroy();
		return;
	} else if (y >= (s32)SCREENH+4096)	//fell out of bottom so make a splash, go low enough to hide death FX
	{
		#ifdef __WITHSOUND
		playSound(&owner->gm->smallSplash);
		#endif
		//GFX warning!
		u8 f[3] = {13, 14, 15};
		vector<u8> temp(f, f+3);
		sm->createSingleFireSprite(owner->gm->FXSprite.palleteID, owner->gm->FXSprite.spriteData, temp, TICKSPERFRAME*2, getx(), gameManager::MALLOWYPOS, OBJ_SIZE_32X32, 16, 16);
		destroy();
		return;
	}
	
	massObject::updateSprite();
}
Ejemplo n.º 3
0
sf::Vector2f cHero::getMovement(const sf::Input & theInput, sf::Clock & jumpClock)
{
    sf::Vector2f movementVector;
    xSpeed = 0;
    ySpeed = 0;

    // horizontal movement
    if (theInput.IsKeyDown(sf::Key::Left)) {
        xSpeed += -5;
        xAccel += -.2;
    }
    else if (theInput.IsKeyDown(sf::Key::Right)) {
        xSpeed += 5;
        xAccel += .2;
    }


    // vertical movement
    if (theInput.IsKeyDown(sf::Key::Up)) {
        if (isOnGround()) {
            jumpClock.Reset();
            //ySpeed = -8;
        }
        if (jumpClock.GetElapsedTime() < .3) {
            yAccel -= .12 / (jumpClock.GetElapsedTime());
            ySpeed = 30 * (jumpClock.GetElapsedTime() - .3);
        }
    }
    if (isOnGround()) {
        yAccel = 0;
        if (xAccel > .2)
            xAccel -= .05;
        else if (xAccel < -.2)
            xAccel += .05;
    }
    else {
        yAccel += 1 + (jumpClock.GetElapsedTime() / 20);
    }

    movementVector.x = xSpeed + xAccel;
    movementVector.y = ySpeed + yAccel;

    return movementVector;
}
Ejemplo n.º 4
0
//-----------------------------------------------------------------------------
//
// VActorPhysicsController::isInAir();
//
// Is the Actor in the Air?
//
//-----------------------------------------------------------------------------
const bool VActorPhysicsController::isInAir( void )
{
    // Valid Objects?
    if ( !isValidObject() )
    {
        // No.
        return false;
    }

    // In Air?
    return ( !isOnGround() && !isInWater() );
}
Ejemplo n.º 5
0
void PlayerController::updateVelocity(const double deltaT)
{
	// Change in velocity from previous frame
	glm::vec3 deltaV;

	// True if and onyl if the player is decelerating while moving in the given direction
	bool axPosDec = false;		// Positive axial (forward-backward)
	bool axNegDec = false;		// Negative axial
	bool latPosDec = false;		// Positive lateral (right in egocentric coordinates)
	bool latNegDec = false;		// Negative lateral (left)

	// Forward-backward
	if ((m_axial == AxialDirection::Forward && m_velocity.y < maxSpeed) || (axNegDec = (m_axial == AxialDirection::Null && m_velocity.y < 0.0f)))
	{
		deltaV.y = acceleration * deltaT;
	}
	else if (m_axial == AxialDirection::Backward && m_velocity.y > -maxSpeed || (axPosDec = (m_axial == AxialDirection::Null && m_velocity.y > 0.0f)))
	{
		deltaV.y = -acceleration * deltaT;
	}

	// Left-right translation
	if ((m_lateral == LateralDirection::Right && m_velocity.x < maxSpeed) || (latNegDec = (m_lateral == LateralDirection::Null && m_velocity.x < 0.0f)))
	{
		deltaV.x = acceleration * deltaT;
	}
	else if (m_lateral == LateralDirection::Left && m_velocity.x > -maxSpeed || (latPosDec = (m_lateral == LateralDirection::Null && m_velocity.x > 0.0f)))
	{
		deltaV.x = -acceleration * deltaT;
	}

	// Update velocity
	m_velocity += deltaV;

	// Deceleration to zero if a direction key is released
	if ((axNegDec && m_velocity.y > 0.0f) || (axPosDec && m_velocity.y < 0.0f))
	{
		m_velocity.y = 0.0f;
	}
	if ((latNegDec && m_velocity.x > 0.0f) || (latPosDec && m_velocity.x < 0.0f))
	{
		m_velocity.x = 0.0f;
	}

	// Vertical deceleration, after a jump
	if (!isOnGround())
	{
		m_velocity.z += gravity * deltaT;
	}
}
Ejemplo n.º 6
0
/**
 * Updates the sprite to apply gravitational effects to it.
 * The sprite will accellerate downwards unless it lands on another baseable spriteObject.
 */
void massObject::updateSprite()
{
	spriteObject::updateSprite();	//move sprite first
	
	wasGrounded = grounded;
	if (!isOnGround() && !bStasis)
	{
		vy += GRAVITY;
		if (vy > TERMINALVEL)
			vy = TERMINALVEL;
		checkPenetration();
	}
	
	grounded = false;		//is re-checked in collidingWith() later in the tick
}
Ejemplo n.º 7
0
sf::Vector2f cMario::getMovement(void)
{
    sf::Vector2f movementVector;

    if (!getIsDead()) {
        if (isOnGround()) {
        ySpeed = -8;
        yAccel = 0;
        xAccel = rand() % 4;
        }
    }
    yAccel += .3;

    movementVector.x = xSpeed + xAccel;
    movementVector.y = ySpeed + yAccel;
    return movementVector;
}
Ejemplo n.º 8
0
void wp_gren_proj::updateSprite()
{
	if (isOnGround())
	{
		setBounds(2, 8, 5, -4);	//bigger collision to take out neighbouring platforms
		for (vector<spriteObject*>::iterator it = sm->gameSprites.begin(); it != sm->gameSprites.end(); ++it)
		{
			if (dynamic_cast<floorTile*>(*it) != NULL &&
				isColliding(*it))
			{
				//check if the destroyed floor was under a player
				gameManager *gm = dynamic_cast<gameManager *>(sm);
				if (gm->player1->isStandingOn(*it))
					gm->player1->groundDeleted(Player::CS_GRENFALL);
				if (gm->player2->isStandingOn(*it))
					gm->player2->groundDeleted(Player::CS_GRENFALL);
				
				(*it)->destroy();
			}
		}
		destroy();
		return;
	}
	if (getx() < -16 || getx() > 271)	//out of the screen now, dont wanna see the death FX either
	{
		destroy();
		return;
	} else if (y >= (s32)SCREENH+4096)	//fell out of bottom so make a splash, go low enough to hide death FX
	{
		#ifdef __WITHSOUND
		playSound(&owner->gm->smallSplash);
		#endif
		//GFX warning!
		u8 f[3] = {13, 14, 15};
		vector<u8> temp(f, f+3);
		sm->createSingleFireSprite(owner->gm->FXSprite.palleteID, owner->gm->FXSprite.spriteData, temp, TICKSPERFRAME*2, getx(), gameManager::MALLOWYPOS, OBJ_SIZE_32X32, 16, 16);
		destroy();
		return;
	}
	
	massObject::updateSprite();
}
Ejemplo n.º 9
0
task main(){
	bool onramp = false;
	// Wait 0.1 seconds to give some time to initialize the values
	wait1Msec(100);
	getValues();
	// Turn on the engines...
	motor[motorD] = 20;
	motor[motorF] = 20;

	// ...wait 2 seconds...
	//wait1Msec(2000);

	for (int g = 0; g<200; g++)
	{
		// 2 sec
		wait1Msec(10);
		getValues();

		if(x < -60){
			onramp = true;
			g = 2001;
		}

	}
	// ...and disable the engines.
	// Get the x, y, and z values
		motor[motorD] = 0;
	motor[motorF] = 0;
	getValues();
	// The robot is on the ramp
		// So execute the isOnRamp function
		if(onramp) {  isOnRamp(); }

		// The robot is on the floor
		// So execute the isOnGround function
		else {isOnGround(); }

}
Ejemplo n.º 10
0
bool CharacterObject::canTurn() const
{
	return isOnGround() && !jumped && isAlive() && controller->getCurrentActivity() == nullptr;
}
Ejemplo n.º 11
0
void CharacterObject::updateCharacter(float dt)
{
	/*
	 * You can fire weapons while moving
	 *
	 * Two Modes: Moving and Action
	 * Moving covers walking & jumping
	 * Action covers complex things like shooting, entering vehicles etc.
	 *
	 * Movement animation should be handled here
	 *  If Current weapon is one handed, then it can be used while walking.
	 *  This means blending the weapon animation with the walk animation.
	 *  No weapons can be used while sprinting.
	 *  Need an "aim vector" to apply torso correction.
	 *
	 *  If movement vector is less than some threshold, fully walk animation
	 *  (time adjusted for velocity).
	 */

	if(physCharacter) {
		glm::vec3 walkDir = updateMovementAnimation(dt);

		position = getPosition();

		if (canTurn()) {
			rotation = glm::angleAxis(m_look.x, glm::vec3{0.f, 0.f, 1.f});
		}

		walkDir = rotation * walkDir;

		if( jumped )
		{
			if( !isOnGround() )
			{
				walkDir = rotation * glm::vec3(0.f, jumpSpeed * dt, 0.f);
			}
		}

		if (isAlive())
		{
			physCharacter->setWalkDirection(btVector3(walkDir.x, walkDir.y, walkDir.z));
		}
		else
		{
			physCharacter->setWalkDirection(btVector3(0.f, 0.f, 0.f));
		}

		auto Pos = physCharacter->getGhostObject()->getWorldTransform().getOrigin();
		position = glm::vec3(Pos.x(), Pos.y(), Pos.z());

		// Handle above waist height water.
		auto wi = engine->data->getWaterIndexAt(getPosition());
		if( wi != NO_WATER_INDEX ) {
			float wh = engine->data->waterHeights[wi];
			auto ws = getPosition();
			wh += engine->data->getWaveHeightAt(ws);
			
			// If Not in water before
			//  If last position was above water
			//   Now Underwater
			//  Else Not Underwater
			// Else
			//  Underwater
			
			if( ! inWater && ws.z < wh && _lastHeight > wh ) {
				ws.z = wh;

				btVector3 bpos(ws.x, ws.y, ws.z);
				physCharacter->warp(bpos);
				auto& wt = physObject->getWorldTransform();
				wt.setOrigin(bpos);
				physObject->setWorldTransform(wt);

				physCharacter->setGravity(0.f);
				inWater = true;
			}
			else {
				physCharacter->setGravity(9.81f);
				inWater = false;
			}
		}
		_lastHeight = getPosition().z;
	}
	else
	{
		updateMovementAnimation(dt);
	}
}
Ejemplo n.º 12
0
glm::vec3 CharacterObject::updateMovementAnimation(float dt)
{
	glm::vec3 animTranslate;

	if (motionBlockedByActivity)
	{
		// Clear any residual motion animation
		animator->playAnimation(AnimIndexMovement, nullptr, 1.f, false);
		return glm::vec3();
	}

	// Things are simpler if we're in a vehicle
	if (getCurrentVehicle())
	{
		animator->playAnimation(0, animations.car_sit, 1.f, true);
		return glm::vec3();
	}

	Animation* movementAnimation = animations.idle;
	Animation* currentAnim = animator->getAnimation(AnimIndexMovement);
	bool isActionHappening = (animator->getAnimation(AnimIndexAction) != nullptr);
	float animationSpeed = 1.f;
	bool repeat = true;
	constexpr float movementEpsilon = 0.1f;

	float movementLength = glm::length(movement);
	if (!isAlive()) {
		movementAnimation = animations.ko_shot_front;
		repeat = false;
	}
	else if (jumped) {
		repeat = false;
		if (currentAnim == animations.jump_start &&
				animator->isCompleted(AnimIndexMovement)) {
			movementAnimation = animations.jump_start;
		}
		if (isOnGround()) {
			if (currentAnim != animations.jump_land
					|| !animator->isCompleted(AnimIndexMovement)) {
				movementAnimation = animations.jump_land;
			}
			else {
				// We are done jumping
				jumped = false;
			}
		}
		else {
			movementAnimation = animations.jump_glide;
		}
	}
	else if (movementLength > movementEpsilon)
	{
		if (running && !isActionHappening) {
			// No slow running
			movementAnimation = animations.run;
			animationSpeed = 1.f;
		}
		else {
			animationSpeed = 1.f / movementLength;
			// Determine if we need to play the walk start animation
			if (currentAnim != animations.walk)
			{
				if (currentAnim != animations.walk_start || !animator->isCompleted(AnimIndexMovement))
				{
					movementAnimation = animations.walk_start;
				}
				else
				{
					movementAnimation = animations.walk;
				}
			}
			else
			{
				// Keep walkin
				movementAnimation = animations.walk;
			}
		}
	}

	// Check if we need to change the animation or change speed
	if (animator->getAnimation(AnimIndexMovement) != movementAnimation)
	{
		animator->playAnimation(AnimIndexMovement, movementAnimation, animationSpeed, repeat);
	}
	else
	{
		animator->setAnimationSpeed(AnimIndexMovement, animationSpeed);
	}

	// If we have to, interrogate the movement animation
	if (movementAnimation != animations.idle)
	{
		if(! model->resource->frames[0]->getChildren().empty() )
		{
			ModelFrame* root = model->resource->frames[0]->getChildren()[0];
			auto it = movementAnimation->bones.find(root->getName());
			if (it != movementAnimation->bones.end())
			{
				AnimationBone* rootBone = it->second;
				float step = dt;
				const float duration = animator->getAnimation(AnimIndexMovement)->duration;
				float animTime = fmod(animator->getAnimationTime(AnimIndexMovement), duration);

				// Handle any remaining transformation before the end of the keyframes
				if ((animTime+step) > duration)
				{
					glm::vec3 a = rootBone->getInterpolatedKeyframe(animTime).position;
					glm::vec3 b = rootBone->getInterpolatedKeyframe(duration).position;
					glm::vec3 d = (b-a);
					animTranslate.y += d.y;
					step -= (duration - animTime);
					animTime = 0.f;
				}

				glm::vec3 a = rootBone->getInterpolatedKeyframe(animTime).position;
				glm::vec3 b = rootBone->getInterpolatedKeyframe(animTime+step).position;
				glm::vec3 d = (b-a);
				animTranslate.y += d.y;

				Skeleton::FrameData fd = skeleton->getData(root->getIndex());
				fd.a.translation.y = 0.f;
				skeleton->setData(root->getIndex(), fd);
			}
		}
	}

	return animTranslate;
}
Ejemplo n.º 13
0
//-------------------------------------------------------------------------------------
bool MoveToPointHandler::update()
{
	if(pController_ == NULL)
	{
		delete this;
		return false;
	}
	
	Entity* pEntity = pController_->pEntity();
	const Position3D& dstPos = destPos();
	Position3D currpos = pEntity->getPosition();
	Direction3D direction = pEntity->getDirection();

	Vector3 movement = dstPos - currpos;
	if (!moveVertically_) movement.y = 0.f;
	
	bool ret = true;

	if(KBEVec3Length(&movement) < velocity_ + range_)
	{
		float y = currpos.y;
		currpos = dstPos;

		if(range_ > 0.0f)
		{
			// 单位化向量
			KBEVec3Normalize(&movement, &movement); 
			movement *= range_;
			currpos -= movement;
		}

		if (!moveVertically_)
			currpos.y = y;

		ret = false;
	}
	else
	{
		// 单位化向量
		KBEVec3Normalize(&movement, &movement); 

		// 移动位置
		movement *= velocity_;
		currpos += movement;
	}
	
	// 是否需要改变面向
	if (faceMovement_ && (movement.x != 0.f || movement.z != 0.f))
		direction.yaw(movement.yaw());
	
	// 设置entity的新位置和面向
	if(pController_)
		pEntity->setPositionAndDirection(currpos, direction);

	// 非navigate都不能确定其在地面上
	if(pController_)
		pEntity->isOnGround(isOnGround());

	// 通知脚本
	if(pController_)
		pEntity->onMove(pController_->id(), pyuserarg_);

	// 如果达到目的地则返回true
	if(!ret)
	{
		return !requestMoveOver();
	}

	return true;
}
Ejemplo n.º 14
0
void DynamicGoo::moveToTarget(){
    //Stop to follow if the goo is dragged for the use

    if (isDragging()) {
        stopFollow();
        return;
    }
    if (onGround && groundPoint!=getPPosition()) {
        onGround=false;
    }
    if (isFalling()) return;
    if (hasJoint()){

        return;


    }
    if (!hasJoint() && !isDragging() && isOnGround() && target==NULL ){
        emit this->nextTargetPlease(NULL);
    }
    if (following && !falling){
        if (prevTarget){
            if (!target->isLinked(prevTarget)){
                drop();
                return;
            }
            QPoint meTarget=target->getPPosition()-getPPosition();
            if (toVec(meTarget).Length()>15+radius/10) {
                stopFollow();
                fallDown();
                return;
            }

            //Compute mx and my for the position
            float mx,my;
            mx=(target->getVPosition().x-prevTarget->getVPosition().x);
            my=(target->getVPosition().y-prevTarget->getVPosition().y);
            float d=qSqrt(mx*mx+my*my);
            float md=qSqrt(qPow((target->getVPosition().x-getVPosition().x),2)+qPow((target->getVPosition().y-getVPosition().y),2));
            mx/=d;
            my/=d;
            float tx,ty;
            //Compute tehorical x and y
            tx=(getVPosition().x-prevTarget->getVPosition().x)/mx;
            ty=(getVPosition().y-prevTarget->getVPosition().y)/my;
            float yt=my*tx+prevTarget->getVPosition().y;
            float xt=mx*ty+prevTarget->getVPosition().x;

            //if my y position is different at least of 12 falldown and return
            if ((qAbs(getVPosition().y-yt)>getRadius() && qAbs(getVPosition().x-xt)>getRadius()) || (md>d+radius)){
                stopFollow();
                fallDown();
                return;
            }
        }
        //this is a work around for the very ugly bug of the "FLYING GOOS"
        //description of the bug if no prevTarget is setted but target is and the goo tower start to fall down the goo start to fly
        //for reach his target!
        //check if prevtarget is not setted and target is
        if (!prevTarget && target && !target->isOnGround()){
            //compute distance between target and me
            float d=(target->getVPosition()-getVPosition()).Length();
            //if that distance is more than 25 falldown and return
            //PS: remember that 30 is a single point contact between two goos
            if (d>=radius*0.2) {
                stopFollow();
                fallDown();
                return;
            }
            else if (d<radius*0.2){
                emit this->nextTargetPlease(target);
                body->SetLinearVelocity(b2Vec2(0,0));
                return;

            }

        }
        b2Vec2 dP;
        if (target!=NULL /*&& target->getBody()!=NULL*/)
            dP=target->getVPosition()-this->getVPosition();
        else {
            stopFollow();
            fallDown();
            return;
        }
        if (dP.Length()<=(radius-radius/4.0)/10.0){
            emit this->nextTargetPlease(target);
            body->SetLinearVelocity(b2Vec2(0,0));
            return;
        }
        if (!prevTarget){

            b2Vec2 dvec=(target->getVPosition()-getVPosition());
            float d=qSqrt(dvec.x*dvec.x+dvec.y*dvec.y);
            if (onGround && target->isOnGround() && d<distanceToJoint){
                double omega =(dP.x>0 ? speed*body->GetMass() : -speed*body->GetMass());
                body->SetAngularVelocity(omega);
                body->ApplyForceToCenter(body->GetMass()*body->GetWorld()->GetGravity());
            }
            else if (!onGround && d<radius*2) {
                emit this->nextTargetPlease(target);
                body->SetLinearVelocity(b2Vec2(0,0));
                return;
                dP.x=(dP.x>0 ? speed*2 : -speed*2);
                dP.y=body->GetMass()*body->GetWorld()->GetGravity().y;
                body->ApplyForceToCenter(dP);
            }
            else{
                body->SetGravityScale(1);
                stopFollow();
            }
        }
        else {
            dP.x=dP.x*speed/dP.Length();
            dP.y=dP.y*speed/dP.Length() ;
            body->SetLinearVelocity(dP);
        }
    }
}
Ejemplo n.º 15
0
	void Player::logic(Room *room)
	{
		//std::cout << "HP:" << getHealth() << " MP:" << getMana() << "/" << getMaximumMana() << " Couter:" << mRegenerateManaCounter << std::endl;
		mStateCounter++;		

		if (mInvincibleCounter > 0) {
			mInvincibleCounter--;
		}

		if (getState() == DEAD) {
			return;
		}

		regenerateMana();
		
		const KeyState &keys = room->getKeyState();
		TileMap *tileMap = room->getTileMap();

		bool onIce = isOnIce(tileMap);

		int acceleration = AIR_ACCELERATION;
		if (getState() == GROUND) {
			if (onIce) {
				acceleration = ICE_ACCELERATION;
			} else {
				acceleration = GROUND_ACCELERATION;
			}
		}

		if (keys.isLeftHeld() && !keys.isRightHeld() && !mHurt) {
			mDX -= acceleration;
			if (mDX < -RUN_SPEED) {
				mDX = -RUN_SPEED;
			}
			mRunFrame += onIce && mDX > -20 ? 3 : 2;
			mFacingLeft = true;
			mRunning = true;
		} else if (!keys.isLeftHeld() && keys.isRightHeld() && !mHurt) {
			mDX += acceleration;
			if (mDX > RUN_SPEED) {
				mDX = RUN_SPEED;
			}
			mRunFrame += onIce && mDX < 20 ? 3 : 2;
			mFacingLeft = false;
			mRunning = true;
		} else if (mDX > 0 && !mHurt) {
			mDX -= onIce ? 1 : 4;
			if (mDX < 0) {
				mDX = 0;
			}
			mRunning = false;
		} else if (mDX < 0 && !mHurt) {
			mDX += onIce ? 1 : 4;
			if (mDX > 0) {
				mDX = 0;
			}
			mRunning = false;
		} else {
			mRunning = false;
		}

		// Crouching
		if (!mRunning && keys.isDownHeld() && getState() == GROUND) {
			if (!mCrouching) {
				mCrouching = true;
				mY += CROUCH_SHRINK;
				mH -= CROUCH_SHRINK;
			}
		} else if (mCrouching) {
			mCrouching = false;
			mY -= CROUCH_SHRINK;
			mH += CROUCH_SHRINK;
		}
		

		if (mDX == 0 || getState() != GROUND) {
			mRunFrame = 0;
		}

		// Interrupting jumping
		if (!keys.isJumpHeld() && getState() == AIR_UP && mDY > JUMP_CONTROL && !mHurt) {
			mDY = JUMP_CONTROL;
		}

		if (!keys.isJumpHeld() && (getState() == AIR_UP || getState() == AIR_DOWN)) {
			mJumpKeyHeld = false;
		}

		// Jumping
		if (keys.isJumpPressed() && getState() == GROUND && !keys.isDownHeld()) {
			mDY = JUMP_STRENGTH;
			setState(AIR_UP);
			mJumpKeyHeld = true;
			mJumpY = getCenterY();
		}
		// Drop off platform
		if (keys.isJumpPressed() && mOnPlatform && keys.isDownHeld()) {
			mDY = 1;
			mY++;
			setState(AIR_DOWN);
			mJumpKeyHeld = true;
			mJumpY = getCenterY();
		}

		// Sideways movement
		if (onIce) {
			if (mDX < 0) {
				mX += (mDX - 7) / 8;
			} else {
				mX += (mDX + 7) / 8;
			}
		} else {
			mX += mDX / 8;
		}
		

		// Left Wall
        int solidLeftOffset;
		if (mDX < 0 && solidLeft(room, solidLeftOffset)) 
        {
			// Align player to solid object
			mX += solidLeftOffset;
            
            mDX = 0;
		}

		// Right Wall
        int solidRightOffset;
		if (mDX > 0 && solidRight(room, solidRightOffset)) 
        {
			// Align player to solid object
			mX -= solidRightOffset;
			mDX = 0;
		}

		// Vertical movement
		if (getState() == AIR_DOWN) {
			mY += mDY > MAX_AIR_SPEED ? MAX_AIR_SPEED : mDY;
		} else if (getState() == AIR_UP) {
			mY -= mDY > MAX_AIR_SPEED ? MAX_AIR_SPEED : mDY;
		}

		// Falling, acceleration
		if (getState() == AIR_DOWN) {
			mDY += 1;
		}

		// Raising, deacceleration
		if (getState() == AIR_UP) {
			mDY--;
			if (mDY < 0) {
				setState(AIR_DOWN);
				mDY = 0;
			}
		}

		// Ceiling bouncing
        int solidAboveOffset;
		if (getState() == AIR_UP && solidAbove(room, solidAboveOffset)) 
        {
			setState(AIR_DOWN);
			mDY = 0;
			// Align player to solid object
			mY += solidAboveOffset;
		}

		// Ground bouncing / landing
        int groundOffset;
		if (getState() == AIR_DOWN && isOnGround(room, groundOffset)) {
			if (keys.isJumpHeld() && !mJumpKeyHeld && !keys.isDownHeld()) {
				// Rejump
				mDY = JUMP_STRENGTH;
				setState(AIR_UP);
				mJumpKeyHeld = true;
			} else {
				// Land
				setState(GROUND);
				mDY = 0;				
			}
			mHurt = false;

			// Align to tile
			mY -= groundOffset;
			mJumpY = getCenterY();
		}

		// Falling
        int fallingOffset;
		if (getState() == GROUND && !isOnGround(room, fallingOffset)) {
			setState(AIR_DOWN);
			mDY = 0;
		}

		// Shooting
		if (keys.isFirePressed())	{
			if (mShotCounter >= SHOT_DELAY) {
				mShotCounter = 0;
				room->addEntity(createShot());
				mShootAfterDelay = false;
			} else {
				mShootAfterDelay = true;
			}
		}
		if (mShotCounter >= SHOT_DELAY && mShootAfterDelay) {
			mShotCounter = 0;
			room->addEntity(createShot());
			mShootAfterDelay = false;
		}
		
		mShotCounter++;


		if (keys.isSpecialPressed()) 
        {
		    if (mShotType == NORMAL)
            {
                mShotType = ICE;
            }
            else if (mShotType == ICE)
            {
                mShotType = FIRE;
            }
            else
            {
                mShotType = NORMAL;
            }
        }
	}
Ejemplo n.º 16
0
/*! @brief Returns true if the robot is currently incapacitated. A robot is incapacitated if it is falling, fallen, not on the ground or getting up
 */
bool NUSensorsData::isIncapacitated()
{
    bool gettingup = false;
    get(MotionGetupActive, gettingup);
    return isFalling() or isFallen() or not isOnGround() or gettingup;
}
Ejemplo n.º 17
0
	float getAcceleration() { return isOnGround() ? ACCELERATION : ACCELERATION * Physics::airFraction; }
Ejemplo n.º 18
0
//-----------------------------------------------------------------------------
//
// VActorPhysicsController::postTickUpdate( pDelta );
//
// ...
//
//-----------------------------------------------------------------------------
void VActorPhysicsController::postTickUpdate( const F32 &pDelta )
{
    switch( mControlState )
    {
    case k_PathControlState :
        {
            AssertFatal( isPathing(), "VActorPhysicsController::postTickUpdate() - Invalid Path State." );

            // Fetch Mount Transform.
            MatrixF transform;
            mMountedPath->getMountTransform( mObject->getMountNode(), getTransform(), &transform );
            // Fetch Mount Position.
            const Point3F &mountPosition = transform.getPosition();

            // Update X & Y Position.
            Point3F position = getPosition();
            position.x = mountPosition.x;
            position.y = mountPosition.y;

            // In Water?
            bool underWater = false;
            if ( isInWater() )
            {
                // Fetch Body of Water.
                WaterObject *waterBody = getWaterObject();

                // Fetch Surface Position.
                const F32 &waterSurfacePosition = waterBody->getSurfaceHeight( Point2F( position.x, position.y ) );
                // Fetch Submersion Position.
                const F32 sumbersionPosition = waterSurfacePosition - ( mObject->getWorldBox().len_z() * mObject->getDataBlock()->getSumbergeCoverage() );

                // Choose a Z Value.
                // Note: This is done so that the Actor will either path under the
                //       water, or it will swim along the water's surface.
                position.z = getMin( mountPosition.z, sumbersionPosition );

                // Under Water?
                underWater = ( position.z < sumbersionPosition );
            }

            // Under Water?
            if ( !underWater )
            {
                // Fetch Y Column.
                VectorF forwardVector;
                transform.getColumn( 1, &forwardVector );

                // Determine Angle.
                const F32 &angle = -mAtan2( -forwardVector.x, forwardVector.y );

                // Reset Transform.
                transform.set( EulerF( 0.f, 0.f, angle ) );

                // In the air?
                if ( !isOnGround() )
                {
                    // Apply z-axis force.
                    position.z += ( getVelocity().z * pDelta );
                }
            }

            // Update Transform.
            transform.setPosition( position );

            // Apply Update.
            setTransform( transform );

        } break;

    default :
        {
            // Fetch Transform.
            MatrixF transform = getTransform();

            // Determine the Post-Tick Position.
            Point3F postTickPosition = getPosition() + ( getVelocity() * pDelta );
            // Set the Post Tick Position.
            transform.setPosition( postTickPosition );

            // Apply the Transform.
            setTransform( transform );

        } break;
    }

    // Push Delta.
    mInterpController.pushDelta( getTransform() );
}
Ejemplo n.º 19
0
void GameMainObject::DoUpdate(int iCurrentTime)
{

	m_iPreviousScreenX = m_iCurrentScreenX;
	m_iPreviousScreenY = m_iCurrentScreenY;

	
	counterTime++;

	if(counterTime > 7)
	{
		counterTime = 0;

	if (m_iPlayerSpriteX == 0)
	{
		m_iPlayerSpriteX +=121;

	}
	
	else if(m_iPlayerSpriteX == 121)
	{
		m_iPlayerSpriteX +=121;
	}
	
	else if(m_iPlayerSpriteX == 242)
	{
		m_iPlayerSpriteX +=121;
	}

	else if(m_iPlayerSpriteX == 363)
	{
		m_iPlayerSpriteX +=121;	
	}

	else if(m_iPlayerSpriteX == 484)
	{
		m_iPlayerSpriteX +=121;	
	}
	
	else
	{
		m_iPlayerSpriteX = 0;
	}
	
	}

	if(isOnGround())
	{

		velocityX*=0.9;

		if(GetEngine()->IsKeyPressed(SDLK_SPACE))
		{
			if(jumpAgain == true){
				velocityY=-10;
				jumpAgain = false;
			}

		}
		else
		{
			jumpAgain = true;
		}

	}

	if(!isOnGround())
	{
		velocityY+=0.5;
	}

	m_iCurrentScreenY += velocityY+(0.5);
	m_iCurrentScreenYObject = m_iCurrentScreenY;

	if((m_iCurrentScreenY+m_iDrawHeight)>=521)
	{
		m_iCurrentScreenY=521-m_iDrawHeight;
		m_iCurrentScreenYObject = m_iCurrentScreenY;
	}



	RedrawObjects();
	
}