public async void RecordTransaction(UserTransaction userTransaction, RechargeRequestResource rechargeRequestResource)
{
userTransaction.DateCreated = DateTime.Now;
userTransaction.TransactionFee = 2 * transactionFee;
userTransaction.UserPoint = PointFunctions.GetBonus(userTransaction.Amount);
userTransaction.AdditionalInformation = rechargeRequestResource.AdditionalInformation();
if (userTransaction.User.RefererId != null)
{
RecordReferersTransaction(userTransaction);
}
userTransaction.Balance = userTransaction.UserPoint + await GetUsersPoint(userTransaction.User.Id.ToString());
_context.Add(userTransaction);
// var Transaction = new UserTransaction() {
// UserId = e.User.Id,
// RefererId = e.User.RefererId,
// Amount = e.Transaction.Amount,
// // Points = Functions.GetBonus(e.Transaction.amount),
// // RefererPoint = Functions.GetBonus(e.Transaction.amount, false),
// // PaymentType = e.Transaction.PaymentType(),
// AdditionalInformation = e.Transaction.AdditionalInformation(),
// DateCreated = DateTime.Now,
// TransactionFee = .015m * e.Transaction.Amount
// };
// _context.Add(Transaction);
// if(!await _context.SaveAll()){
// throw new Exception("Failed to save transaction");
// }
// RecordPublicTransaction(_mapper.Map<UserTransaction, PublicPaymentTransaction>(Transaction), e.User);
}
private async void RecordReferersTransaction(UserTransaction userTransaction)
{
var referTransaction = _mapper.Map <UserTransaction>(userTransaction);
referTransaction.TransactionFee = 1 * transactionFee;
referTransaction.UserPoint = PointFunctions.GetBonus(userTransaction.Amount, false);
referTransaction.Amount = 0.0m;
referTransaction.User = userTransaction.User.Referer;
referTransaction.Transactions = new List <AppTransaction>();
referTransaction.AdditionalInformation = null;
referTransaction.Balance = referTransaction.UserPoint + await GetUsersPoint(userTransaction.User.Id.ToString());
_context.Add(referTransaction);
// _context.Add(transaction);
// var publicTransactions = _repo.PublicPaymentTransactions.Where(u => u.UserId == user.Id);
// var count = await publicTransactions.CountAsync();
// if(count > maxCount + 1) {
// // var newPublicTransactions = publicTransactions.OrderByDescending(d => d.DateCreated).Take(maxCount);
// var mergePublicTransactions = publicTransactions.OrderByDescending(d => d.DateCreated).TakeLast(count - maxCount);
// var newPublicTransactions = new PublicPaymentTransaction(){
// DateCreated = DateTime.MinValue
// };
// foreach (var trans in mergePublicTransactions)
// {
// newPublicTransactions.Points += trans.Points;
// newPublicTransactions.RefererPoint += trans.RefererPoint;
// newPublicTransactions.Amount += trans.Amount;
// }
// _context.Delete(mergePublicTransactions);
// _context.Add(newPublicTransactions);
// }
}
public static double FindMaxDistance(IList <Point> contourPoints, PointF candidate)
{
double result = double.MaxValue;
foreach (var point in contourPoints)
{
result = Math.Min(PointFunctions.Distance(point.X, point.Y, candidate.X, candidate.Y), result);
}
return(result);
}
public double Interpolate(double x)
{
var interval = PointFunctions.FindInterval(x, _points);
if (interval.left is null || interval.right is null || interval.left.Equals(interval.right))
{
throw new ArgumentOutOfRangeException($"Wrong interpolation point (x = {x}).");
}
return(interval.left.Y + (((x - interval.left.X) / (interval.right.X - interval.left.X)) * (interval.right.Y - interval.left.Y)));
}
public bool isInRange(int targetX, int targetY, int range)
{
float dist = PointFunctions.DistanceTo(new Vector2(m_x, m_y), new Vector2(targetX, targetY));
if (dist <= range)
{
return(true);
}
return(false);
}
public double Interpolate(double x)
{
var interval = PointFunctions.FindInterval(x, _points);
if (interval.Item1 is null || interval.Item2 is null || interval.Item1.Equals(interval.Item2))
{
throw new ArgumentOutOfRangeException($"Wrong interpolation point (x = {x}).");
}
double deltaX = interval.Item2.X - interval.Item1.X;
double _xt = (1.0 - Math.Cos((x - interval.Item1.X) / deltaX * Math.PI)) / 2.0;
return(interval.Item1.Y * (1.0 - _xt) + interval.Item2.Y * _xt);
}
public double Interpolate(double x)
{
var _interval = PointFunctions.FindIntervalIndex(x, _points);
int _idxLeft = _interval.Item1;
int _idxRight = _interval.Item2;
//width of bracketing interval
double _dX = _points[_idxRight].X - _points[_idxLeft].X;
if (_dX == 0.0)
{
throw new ArgumentOutOfRangeException($"Two points have the same X value (x={x}).");
}
double _rightX = (_points[_idxRight].X - x) / _dX;
double _leftX = (x - _points[_idxLeft].X) / _dX;
double _result = _rightX * _points[_idxLeft].Y +
_leftX * _points[_idxRight].Y +
((Math.Pow(_rightX, 3) - _rightX) * _derivatives[_idxLeft] +
(Math.Pow(_leftX, 3) - _leftX) * _derivatives[_idxRight]) *
Math.Pow(_dX, 2) / 6.0;
return(_result);
}
// Update is called once per frame
void Update()
{
if (m_isDead && m_myTurn)
{
m_battleSystem.EndTurn();
return;
}
if (m_playingSkillAnimation || m_playingItemAnimation)
{
return;
}
//move animation
if (moveTimer > 0)
{
r_myTurnMarker.SetActive(false);
moveTimer -= Time.deltaTime * 2;
gameObject.transform.SetPositionAndRotation(Vector3.Lerp(newPos, oldPos, moveTimer), gameObject.transform.rotation);
}
else if (moveTimer < 0)
{
r_myTurnMarker.SetActive(true);
moveTimer = 0;
gameObject.transform.SetPositionAndRotation(Vector3.Lerp(newPos, oldPos, moveTimer), gameObject.transform.rotation);
}
//attackAnimation
if (attackTimer > 0 && m_attackHasHit == false)
{
r_myTurnMarker.SetActive(false);
attackTimer -= Time.deltaTime * 4;
gameObject.transform.SetPositionAndRotation(Vector3.Lerp(attackPos, oldPos, attackTimer), gameObject.transform.rotation);
}
else if (attackTimer < 0 && m_attackHasHit == false)
{
r_myTurnMarker.SetActive(false);
m_attackHasHit = true;
//deal Damage
m_battleSystem.m_battleSpaces[m_targetX, m_targetY].m_pawn.TakeDamage(this, DamageType.DAMAGETYPE_PHYSICAL, 1.0f);
if (gameObject.tag == "Player")
{
m_battleSystem.AttackEnd(false);
}
}
else if (attackTimer > 1 && m_attackHasHit == true)
{
r_myTurnMarker.SetActive(true);
attackTimer = 1;
gameObject.transform.SetPositionAndRotation(Vector3.Lerp(attackPos, oldPos, attackTimer), gameObject.transform.rotation);
}
else if (attackTimer < 1 && m_attackHasHit == true)
{
r_myTurnMarker.SetActive(false);
attackTimer += Time.deltaTime * 3;
gameObject.transform.SetPositionAndRotation(Vector3.Lerp(attackPos, oldPos, attackTimer), gameObject.transform.rotation);
}
if (m_HP <= 0)
{
Death();
return;
}
if (!m_myTurn)
{
r_myTurnMarker.SetActive(false);
return;
}
if (m_AP == 0 && m_myTurn)
{
EndTurn();
return;
}
if (gameObject.tag == "Enemy" && m_myTurn)
{
m_enemyActionTimer += Time.deltaTime;
if (m_enemyActionTimer < m_enemyActionDelay)
{
return;
}
//check if player is in range
m_enemyActionTimer = 0;
//attack an adjecent enemy
{
//right space
if (m_x < 7)
{
if (m_battleSystem.m_battleSpaces[m_x + 1, m_y].m_occupied)
{
if (m_battleSystem.m_battleSpaces[m_x + 1, m_y].m_pawn.gameObject.tag == "Player")
{
Attack(m_x + 1, m_y, m_battleSystem.m_battleSpaces[m_x + 1, m_y].m_pawn.gameObject.transform.position);
m_AP--;
return;
}
}
}
//up space
if (m_y < 3)
{
if (m_battleSystem.m_battleSpaces[m_x, m_y + 1].m_occupied)
{
if (m_battleSystem.m_battleSpaces[m_x, m_y + 1].m_pawn.gameObject.tag == "Player")
{
Attack(m_x, m_y + 1, m_battleSystem.m_battleSpaces[m_x, m_y + 1].m_pawn.gameObject.transform.position);
m_AP--;
return;
}
}
}
//left space
if (m_x > 0)
{
if (m_battleSystem.m_battleSpaces[m_x - 1, m_y].m_occupied)
{
if (m_battleSystem.m_battleSpaces[m_x - 1, m_y].m_pawn.gameObject.tag == "Player")
{
Attack(m_x - 1, m_y, m_battleSystem.m_battleSpaces[m_x - 1, m_y].m_pawn.gameObject.transform.position);
m_AP--;
return;
}
}
}
//down space
if (m_y > 0)
{
if (m_battleSystem.m_battleSpaces[m_x, m_y - 1].m_occupied)
{
if (m_battleSystem.m_battleSpaces[m_x, m_y - 1].m_pawn.gameObject.tag == "Player")
{
Attack(m_x, m_y - 1, m_battleSystem.m_battleSpaces[m_x, m_y - 1].m_pawn.gameObject.transform.position);
m_AP--;
return;
}
}
}
}
//if no adjecent enemy, move towards target
List <BattleSpace> targetSpaces = r_targetPlayer.GetAdjacentSpaces();
List <float> distences = new List <float>();
int i = 0;
//right space
if (r_targetPlayer.m_x > 0)
{
distences.Add(PointFunctions.DistanceTo(new Vector2(m_x, m_y), new Vector2(targetSpaces[i].x, targetSpaces[i].y)));
i++;
}
//up space
if (r_targetPlayer.m_y < 3)
{
distences.Add(PointFunctions.DistanceTo(new Vector2(m_x, m_y), new Vector2(targetSpaces[i].x, targetSpaces[i].y)));
i++;
}
//left space
if (r_targetPlayer.m_x < 7)
{
distences.Add(PointFunctions.DistanceTo(new Vector2(m_x, m_y), new Vector2(targetSpaces[i].x, targetSpaces[i].y)));
i++;
}
//down space
if (r_targetPlayer.m_y > 0)
{
distences.Add(PointFunctions.DistanceTo(new Vector2(m_x, m_y), new Vector2(targetSpaces[i].x, targetSpaces[i].y)));
i++;
}
bool found = false;
float lowestDist = 0;
int lowestJ = 0;
while (!found && distences.Count >= 0)
{
lowestJ = 0;
lowestDist = 0;
for (int j = 0; j < distences.Count; j++)
{
if (distences[j] < lowestDist)
{
lowestJ = j;
lowestDist = distences[j];
}
}
if (targetSpaces[lowestJ].m_occupied)
{
targetSpaces.RemoveAt(lowestJ);
distences.RemoveAt(lowestJ);
}
else
{
found = true;
}
}
if (found)
{
BattleSpace targetSpace = targetSpaces[lowestJ];
//if the target space is to the right move right
if (targetSpace.x > m_x)
{
//only if right is unocupied
if (m_battleSystem.m_battleSpaces[m_x + 1, m_y].m_occupied == false)
{
MoveTo(m_x + 1, m_y, new Vector3(m_battleSystem.m_battleSpaces[m_x + 1, m_y].m_cube.transform.position.x,
gameObject.transform.position.y,
m_battleSystem.m_battleSpaces[m_x + 1, m_y].m_cube.transform.position.z));
m_AP--;
return;
}
}
//if it is left move left
if (targetSpace.x < m_x)
{
//and if left is unocupied
if (m_battleSystem.m_battleSpaces[m_x - 1, m_y].m_occupied == false)
{
MoveTo(m_x - 1, m_y, new Vector3(m_battleSystem.m_battleSpaces[m_x - 1, m_y].m_cube.transform.position.x,
gameObject.transform.position.y,
m_battleSystem.m_battleSpaces[m_x - 1, m_y].m_cube.transform.position.z));
m_AP--;
return;
}
}
// if it is up
if (targetSpace.y > m_y)
{
if (m_battleSystem.m_battleSpaces[m_x, m_y + 1].m_occupied == false)
{
MoveTo(m_x, m_y + 1, new Vector3(m_battleSystem.m_battleSpaces[m_x, m_y + 1].m_cube.transform.position.x,
gameObject.transform.position.y,
m_battleSystem.m_battleSpaces[m_x, m_y + 1].m_cube.transform.position.z));
m_AP--;
return;
}
}
// if it is down
if (targetSpace.y < m_y)
{
if (m_battleSystem.m_battleSpaces[m_x, m_y - 1].m_occupied == false)
{
MoveTo(m_x, m_y - 1, new Vector3(m_battleSystem.m_battleSpaces[m_x, m_y - 1].m_cube.transform.position.x,
gameObject.transform.position.y,
m_battleSystem.m_battleSpaces[m_x, m_y - 1].m_cube.transform.position.z));
m_AP--;
return;
}
}
}
EndTurn();
}
}
