/// <summary>
/// renvoi vrai si on peut se déplacer vers la où on veut en tense
/// </summary>
/// <returns></returns>
public Vector3 GetTheGoodAngleWhenTenseInAirMove(Vector3 dirPlayer)
{
//si on est grounded, faire gaffe à pas bouger si on vise le mur !
Vector3 dirInversePlayer = -dirPlayer; //une fois que j'ai mon vecteur, prendre l'inverse
Vector3 dirNormal = worldCollision.GetSumNormalSafe(); //prend la normal
Debug.DrawRay(transform.position, dirPlayer * 2, Color.green, 1f);
Debug.DrawRay(transform.position, dirInversePlayer * 2, Color.red, 1f);
//float anglePlayer = QuaternionExt.GetAngleFromVector(dirPlayer);
float angleInverse = QuaternionExt.GetAngleFromVector(dirInversePlayer);
float angleNormal = QuaternionExt.GetAngleFromVector(dirNormal);
float diffAngleNormalInverse;
bool isCLose = QuaternionExt.IsAngleCloseToOtherByAmount(angleNormal, angleInverse, playerAirMove.DiffAngleWhenWeCantMoveThisWay, out diffAngleNormalInverse);
//Debug.Log("Diff angleNormal/angleInverse: " + diffAngleNormalInverse);
if (!isCLose)
{
return(dirPlayer);
}
//Debug.Break();
return(Vector3.zero);
}
/// <summary>
/// Ground, //0 Wall, //1 Ceilling //2
///
/// Ground, //0 /// GroundLeft, //1 /// GroundRight, //2 /// WallLeft, //3 /// WallRight, //4
/// CeilingLeft, //5 /// CeilingRight, //6 /// Ceilling, //7
///
/// <param name="normal">direction de la normal de collision</param>
/// <returns>retourne un type de collision ( explicite)</returns>
private int WhatKindOfNormalIsIt(Vector3 normal)
{
if (normal == Vector3.zero)
{
//Debug.Log("return -1, la normal fourni est 0");
return(-1);
}
float angleNormal = QuaternionExt.GetAngleFromVector(normal); //angle normal collision
//si la normal de contact est proche de 0 ou 180, à 20° près, alors on est en mode wallJump...
float diffAngle = 0;
for (int i = 0; i < angleReference.Length; i++)
{
bool groundType = QuaternionExt.IsAngleCloseToOtherByAmount(angleNormal, angleReference[i], angleDifference, out diffAngle);
if (groundType)
{
//Debug.Log(angleReferenceDisplay[i] + ", angleNormal: " + angleNormal + "(diff:" + diffAngle + ")");
return(i);
}
}
//Debug.Log("return -1");
return(-1);
}
/// <summary>
/// ajout / enleve avec l'input du joueur up / down
/// </summary>
private void ModifyRopeUpDown()
{
if (!CanModifyUpDown())
{
return;
}
Vector3 dirRope = Vector3.zero;
if (!ropeHandler.IsTenseForAirMove)
{
//ici on reprend avec l'angle d'avant de la rope
dirRope = holdDirRope;
}
else
{
dirRope = ropeHandler.GetVectorFromPlayer(playerController.IdPlayer);
//dirRope = playerPenduleMove.GetDirRopeFromPivot();
holdDirRope = dirRope;
timeWhenWeCanModifyRope.StartCoolDown();
}
Vector3 dirRopeInverse = -dirRope;
Vector3 dirInput = playerInput.GetDirInput();
float angleRope = QuaternionExt.GetAngleFromVector(dirRope);
float angleRopeInverse = QuaternionExt.GetAngleFromVector(dirRopeInverse);
float angleInput = QuaternionExt.GetAngleFromVector(dirInput);
Debug.DrawRay(transform.position, dirRope, Color.green, 1f);
Debug.DrawRay(transform.position, dirInput, Color.red, 1f);
float diffAngleRopeNormal;
if (QuaternionExt.IsAngleCloseToOtherByAmount(angleInput, angleRope, diffAngleForUpAndDown, out diffAngleRopeNormal))
{
//Debug.Log("delete");
RemoveRopeParticle();
}
else if (QuaternionExt.IsAngleCloseToOtherByAmount(angleInput, angleRopeInverse, diffAngleForUpAndDown, out diffAngleRopeNormal))
{
//Debug.Log("add");
AddRopeParticle();
}
}
/// <summary>
/// ici est appelé a chaque fixedUpdate, on doit aller dans une direction !!
/// </summary>
private void ControlledAirJump()
{
//Vector3 dirRope = ropeHandler.GetVectorFromPlayer(playerController.IdPlayer);
Vector3 dirRope = transform.position - savePivot;
Vector3 dirLeft = -QuaternionExt.CrossProduct(dirRope, Vector3.forward).normalized;
Vector3 dirRight = QuaternionExt.CrossProduct(dirRope, Vector3.forward).normalized;
Vector3 dirJump = previousControllerJumpDir;
float angleLeft = QuaternionExt.GetAngleFromVector(dirLeft);
float angleRight = QuaternionExt.GetAngleFromVector(dirRight);
float angleJump = QuaternionExt.GetAngleFromVector(dirJump);
//calcul de direction
float diffAngleLeftNormal;
QuaternionExt.IsAngleCloseToOtherByAmount(angleLeft, angleJump, 179f, out diffAngleLeftNormal);
float diffAngleRightNormal;
QuaternionExt.IsAngleCloseToOtherByAmount(angleRight, angleJump, 179f, out diffAngleRightNormal);
if (diffAngleLeftNormal < diffAngleRightNormal)
{
dirJump = dirLeft;
}
else
{
dirJump = dirRight;
}
previousControllerJumpDir = dirJump;
Debug.DrawRay(transform.position, dirJump * currentJumpBoost * 10, Color.white, 1f);
//a la fin, effectuer la force
playerPenduleAirMove.ApplyAirMoveForce(dirJump, currentJumpBoost * playerGetFat.boostAirMoveWhenFat());
//currentJumpBoost -= 0;
}
/// <summary>
/// déplace horizontalement le player
/// </summary>
private void MoveHorizOnGround(Vector3 velocityChange)
{
if (playerPenduleMove.IsAirTenseOrInCoolDown())
{
return;
}
Vector3 targetVelocity = velocityChange;
//si on est en collision avec wall, ou ceilling, gérer ça à part
if (!CheckCollisionType(velocityChange))
{
return;
}
//si il n'y a pas d'input, gérer la décélération ??
if (velocityChange.x == 0)
{
DoSlowDownWhenNoInput();
//animController.NotMoving();
return;
}
//animController.IsMoving(playerInput.Horiz);
previousInput = velocityChange.x;
//TODO: rotate, ou remplacer velocityChange par le right/left de la normal de collision...
//TODO;
Vector3 dirNormal = worldCollision.GetSumNormalSafe();
Vector3 dirReference = velocityChange;
if (dirNormal != Vector3.zero && dirReference != Vector3.zero)
{
Vector3 dir = QuaternionExt.GetTheGoodRightAngleClosest(dirNormal, dirReference, 10f);
Vector3 direction = dir.normalized;
float speed = velocityChange.magnitude;
velocityChange = direction * speed;
Vector3 normalRight = QuaternionExt.CrossProduct(velocityChange, Vector3.forward);
CollisionSimple rightNormal = worldCollision.WhatKindOfNormalItIs(normalRight);
Vector3 normalLeft = -QuaternionExt.CrossProduct(velocityChange, Vector3.forward);
CollisionSimple leftNormal = worldCollision.WhatKindOfNormalItIs(normalLeft);
/*Vector3 newDir = (rightNormal == CollisionSimple.Ground) ? normalRight : normalLeft;*/
if (rightNormal == CollisionSimple.Ground || leftNormal == CollisionSimple.Ground)
{
if (worldCollision.IsOnCoinGround())
{
//ChooseIfAccelerateOrVelocityChange(velocityChange, ratioForceInCoin);
CoinCase(velocityChange);
}
else
{
float angle = QuaternionExt.GetAngleFromVector(direction);
//Debug.Log("angleDirection: " + angle);
if (QuaternionExt.IsAngleCloseToOtherByAmount(90, angle, angleNotAcceptedForOrientedMoveFrom90))
{
//Debug.Log("ici pas de force orienté par la normal");
//Debug.DrawRay(transform.position, dirReference, Color.green, 1f);
ChooseIfAccelerateOrVelocityChange(dirReference, ratioForceInBadAngle);
return;
}
if (worldCollision.GetSimpleCollisionSafe() == CollisionSimple.Wall)
{
ChooseIfAccelerateOrVelocityChange(velocityChange, ratioOnWall);
}
else
{
ChooseIfAccelerateOrVelocityChange(velocityChange, 1);
}
//rb.AddForce(velocityChange, ForceMode.VelocityChange);
//Debug.DrawRay(transform.position, velocityChange, Color.green, 1f);
}
}
}
}
/// <summary>
/// ici cherche le premier point de pivot, puis assigne la distance, et le nombre de particule player - point de pivot.
/// </summary>
public void GetPivotPoint(int indexPlayer, float angleDifferenceMarginForPivotPoint, float marginAngleConsideredAsEqual, out float distance, out int numberParticleFromPlayerToPivot, out Vector3 pointPivot, out bool onRope)
{
int startPoint = 4; //ici commence au Xeme point...
float diffAdd = 0; //ici la somme des différence d'angles à chaque test
int numberParticleTested = startPoint; //ici le nombre de particule testé
onRope = false;
Vector3 lastDir = Vector3.zero; //défini le vecteur directeur précédent
Vector3 currentDir = Vector3.zero; //défini le vecteur à tester courrament dans la boucle
if (indexPlayer == 0)
{
Vector3 posFirst = GetPosParticle(0);
Vector3 posSecond = GetPosParticle(0 + startPoint);
lastDir = posSecond - posFirst;
for (int i = startPoint; i <= GetSizeConstrain() - 1; i++)
{
Vector3 posFirstTmp = posFirst;
posFirst = GetPosParticle(i);
posSecond = GetPosParticle(i + 1);
currentDir = posSecond - posFirst;
//Debug.Log("posActualPartivcleTested(current): " + posFirst);
//Debug.Log("pos next: " + posSecond);
//Debug.Log("current Direction: " + currentDir);
if (currentDir == Vector3.zero)
{
//ici ok même angle, on continue
//DebugExtension.DebugWireSphere(GetPosParticle(i), Color.blue, 1f, 1f);
numberParticleTested++;
//lastDir = currentDir;
//Debug.Log("next");
continue;
}
//Debug.DrawRay(posFirstTmp, lastDir, Color.red, 1f);
//Debug.DrawRay(posFirst, currentDir, Color.cyan, 1f);
float anglePrevious = QuaternionExt.GetAngleFromVector(lastDir);
float angleCurrent = QuaternionExt.GetAngleFromVector(currentDir);
float diffAngleDir;
QuaternionExt.IsAngleCloseToOtherByAmount(anglePrevious, angleCurrent, angleDifferenceMarginForPivotPoint, out diffAngleDir);
if (diffAngleDir > marginAngleConsideredAsEqual)
{
diffAdd += diffAngleDir;
}
//Debug.Log("anglePrevious: " + anglePrevious + ", angleCurrent: " + angleCurrent);
//Debug.Log("diffAdd: " + diffAdd + " (+" + diffAngleDir + ")");
if (diffAdd < angleDifferenceMarginForPivotPoint)
{
//ici ok même angle, on continue
//DebugExtension.DebugWireSphere(GetPosParticle(i), Color.blue, 1f, 1f);
numberParticleTested++;
lastDir = currentDir;
//Debug.Log("next");
}
else
{
//ici on a changé d'angle ! (soit brutalement, soit avec le temps)
//ici prendre... la différence entre le premier et ce dernier point testé
pointPivot = GetPosParticle(i);
distance = Vector3.Distance(playerManager.GetPosPlayer(indexPlayer), pointPivot);
numberParticleFromPlayerToPivot = numberParticleTested;
//Debug.Log("ici !");
onRope = true;
DebugExtension.DebugWireSphere(GetPosParticle(i), Color.blue, 1f, 1f);
//Debug.Break();
return;
}
}
//Debug.Log("on prend le dernier");
//ici prendre... le dernier player. (et la distance par rapport au premier player)
pointPivot = playerManager.GetPosPlayer(1);
distance = Vector3.Distance(playerManager.GetPosPlayer(0), pointPivot);
numberParticleFromPlayerToPivot = numberParticleTested;
return;
}
else
{
Vector3 posFirst = GetPosParticle(GetSizeConstrain());
Vector3 posSecond = GetPosParticle(GetSizeConstrain() - startPoint);
lastDir = posSecond - posFirst;
for (int i = GetSizeConstrain() - startPoint; i >= 1; i--)
{
Vector3 posFirstTmp = posFirst;
posFirst = GetPosParticle(i);
posSecond = GetPosParticle(i - 1);
currentDir = posSecond - posFirst;
if (currentDir == Vector3.zero)
{
//ici ok même angle, on continue
//DebugExtension.DebugWireSphere(GetPosParticle(i), Color.blue, 1f, 1f);
numberParticleTested++;
//lastDir = currentDir;
//Debug.Log("next");
continue;
}
//Debug.DrawRay(posFirstTmp, lastDir, Color.red, 1f);
//Debug.DrawRay(posFirst, currentDir, Color.cyan, 1f);
float anglePrevious = QuaternionExt.GetAngleFromVector(lastDir);
float angleCurrent = QuaternionExt.GetAngleFromVector(currentDir);
float diffAngleDir;
QuaternionExt.IsAngleCloseToOtherByAmount(anglePrevious, angleCurrent, angleDifferenceMarginForPivotPoint, out diffAngleDir);
diffAdd += diffAngleDir;
if (diffAdd < angleDifferenceMarginForPivotPoint)
{
//ici ok même angle, on continue
//DebugExtension.DebugWireSphere(GetPosParticle(i), Color.red, 1f, 1f);
numberParticleTested++;
lastDir = currentDir;
}
else
{
//ici on a changé d'angle ! (soit brutalement, soit avec le temps)
//ici prendre... la différence entre le dernier et ce dernier point testé
pointPivot = GetPosParticle(i);
distance = Vector3.Distance(playerManager.GetPosPlayer(indexPlayer), pointPivot);
numberParticleFromPlayerToPivot = numberParticleTested;
onRope = true;
return;
}
}
//ici prendre... le premier player. (et la distance par rapport au dernier player)
pointPivot = playerManager.GetPosPlayer(0);
distance = Vector3.Distance(playerManager.GetPosPlayer(1), pointPivot);
numberParticleFromPlayerToPivot = numberParticleTested;
return;
}
}
