def _calculatePoint(self, x, miscParams, src, tgt, commonData):
distance = x
velocityStrMults = {}
timeStrMults = {}
for velocityStr, timeStr, optimal, falloff, stackingGroup in commonData['gds']:
rangeFactor = calculateRangeFactor(srcOptimalRange=optimal, srcFalloffRange=falloff, distance=distance)
velocityStr *= rangeFactor
timeStr *= rangeFactor
velocityStrMults.setdefault(stackingGroup, []).append((1 + velocityStr / 100, None))
timeStrMults.setdefault(stackingGroup, []).append((1 + timeStr / 100, None))
velocityStrMult = calculateMultiplier(velocityStrMults)
timeStrMult = calculateMultiplier(timeStrMults)
strength = (1 - velocityStrMult * timeStrMult) * 100
return strength
def _calculatePoint(self, x, miscParams, src, tgt, commonData):
distance = x
strMults = {}
for strength, optimal, falloff, stackingGroup in commonData['tps']:
strength *= calculateRangeFactor(srcOptimalRange=optimal, srcFalloffRange=falloff, distance=distance)
strMults.setdefault(stackingGroup, []).append((1 + strength / 100, None))
strMult = calculateMultiplier(strMults)
strength = (strMult - 1) * 100
return strength
def _calculatePoint(self, x, miscParams, src, tgt, commonData):
distance = x
inLockRange = checkLockRange(src=src, distance=distance)
inDroneRange = checkDroneControlRange(src=src, distance=distance)
velocityStrMults = {}
timeStrMults = {}
for velocityStr, timeStr, optimal, falloff, stackingGroup, needsLock, needsDcr in commonData['gds']:
if (needsLock and not inLockRange) or (needsDcr and not inDroneRange):
continue
rangeFactor = calculateRangeFactor(srcOptimalRange=optimal, srcFalloffRange=falloff, distance=distance)
velocityStr *= rangeFactor
timeStr *= rangeFactor
velocityStrMults.setdefault(stackingGroup, []).append((1 + velocityStr / 100, None))
timeStrMults.setdefault(stackingGroup, []).append((1 + timeStr / 100, None))
velocityStrMult = calculateMultiplier(velocityStrMults)
timeStrMult = calculateMultiplier(timeStrMults)
strength = (1 - velocityStrMult * timeStrMult) * 100
return strength
def _calculatePoint(self, x, miscParams, src, tgt, commonData):
distance = x
inLockRange = checkLockRange(src=src, distance=distance)
inDroneRange = checkDroneControlRange(src=src, distance=distance)
strMults = {}
for strength, optimal, falloff, stackingGroup, needsLock, needsDcr in commonData['tps']:
if (needsLock and not inLockRange) or (needsDcr and not inDroneRange):
continue
strength *= calculateRangeFactor(srcOptimalRange=optimal, srcFalloffRange=falloff, distance=distance)
strMults.setdefault(stackingGroup, []).append((1 + strength / 100, None))
strMult = calculateMultiplier(strMults)
strength = (strMult - 1) * 100
return strength