oldschool-toontown/toontown/parties/PartyUtils.py

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Python
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2019-11-02 17:27:54 -05:00
import math
import time
import datetime
from direct.directnotify import DirectNotifyGlobal
from direct.interval.LerpInterval import LerpFunc
from pandac.PandaModules import Vec3
from toontown.toonbase import TTLocalizer
from toontown.toonbase.ToontownTimer import ToontownTimer
from toontown.parties import PartyGlobals
notify = DirectNotifyGlobal.directNotify.newCategory('PartyUtils')
def getNewToontownTimer():
timer = ToontownTimer()
timer.hide()
timer.posInTopRightCorner()
timer.setColor(1, 1, 1, 0.75)
return timer
def getPartyActivityIcon(activityIconsModel, activityName):
activityIconsDict = {'PartyValentineDance': 'tt_t_ara_pty_iconDanceFloorValentine',
'PartyValentineDance20': 'tt_t_ara_pty_iconDanceFloorValentine',
'PartyValentineJukebox': 'tt_t_ara_pty_iconJukeboxValentine',
'PartyValentineJukebox40': 'tt_t_ara_pty_iconJukeboxValentine',
'PartyValentineTrampoline': 'tt_t_ara_pty_iconTrampolineValentine'}
iconName = activityIconsDict.get(activityName)
if iconName:
icon = activityIconsModel.find('**/%s' % iconName)
else:
icon = activityIconsModel.find('**/%sIcon' % activityName)
if icon.isEmpty():
icon = activityIconsModel.find('**/PartyClockIcon')
notify.warning("Couldn't find %sIcon in %s, using PartyClockIcon" % (activityName, activityIconsModel.getName()))
return icon
def arcPosInterval(duration, object, pos, arcHeight, other):
startPos = object.getPos()
endPos = object.getParent().getRelativePoint(other, pos)
startX = startPos.getX()
startY = startPos.getY()
startZ = startPos.getZ()
dx = endPos.getX() - startPos.getX()
dy = endPos.getY() - startPos.getY()
dz = endPos.getZ() - startPos.getZ()
def setArcPos(t):
newX = startX + dx * t
newY = startY + dy * t
newZ = startZ + dz * t + arcHeight * (-(2.0 * t - 1.0) ** 2 + 1.0)
object.setPos(newX, newY, newZ)
return LerpFunc(setArcPos, duration=duration)
def formatDate(year, month, day):
monthString = TTLocalizer.DateOfBirthEntryMonths[month - 1]
return TTLocalizer.PartyDateFormat % {'mm': monthString,
'dd': day,
'yyyy': year}
def truncateTextOfLabelBasedOnWidth(directGuiObject, textToTruncate, maxWidth):
text0 = directGuiObject.component('text0')
tempNode = text0.textNode
currentText = textToTruncate[:]
scale = text0.getScale()[0]
width = tempNode.calcWidth(currentText) * scale
while width > maxWidth:
currentText = currentText[:-1]
width = tempNode.calcWidth(currentText) * scale
directGuiObject['text'] = currentText
if directGuiObject['text'] != textToTruncate:
directGuiObject['text'] = '%s...' % directGuiObject['text']
def truncateTextOfLabelBasedOnMaxLetters(directGuiObject, textToTruncate, maxLetters):
curStr = directGuiObject['text']
if maxLetters < len(curStr):
curStr = curStr[:maxLetters]
curStr += '...'
directGuiObject['text'] = curStr
def scaleTextOfGuiObjectBasedOnWidth(directGuiObject, textToScale, maxWidth):
width = directGuiObject.getWidth()
scale = 0.01
while width > maxWidth:
directGuiObject['text_scale'] = scale
directGuiObject.resetFrameSize()
width = directGuiObject.getWidth()
scale += 0.005
def formatTime(hour, minute):
meridiemString = TTLocalizer.PartyTimeFormatMeridiemAM
if hour == 0:
hour = 12
elif hour > 11:
meridiemString = TTLocalizer.PartyTimeFormatMeridiemPM
if hour > 12:
hour -= 12
return TTLocalizer.PartyTimeFormat % (hour, minute, meridiemString)
SecondsInOneDay = 60 * 60 * 24
def getTimeDeltaInSeconds(td):
result = td.days * SecondsInOneDay + td.seconds + td.microseconds / 1000000.0
return result
def formatDateTime(dateTimeToShow, inLocalTime = False):
if inLocalTime:
curServerTime = base.cr.toontownTimeManager.getCurServerDateTime()
ltime = time.localtime()
localTime = datetime.datetime(year=ltime.tm_year, month=ltime.tm_mon, day=ltime.tm_mday, hour=ltime.tm_hour, minute=ltime.tm_min, second=ltime.tm_sec)
naiveServerTime = curServerTime.replace(tzinfo=None)
newTimeDelta = localTime - naiveServerTime
localDifference = getTimeDeltaInSeconds(newTimeDelta)
dateTimeToShow = dateTimeToShow + datetime.timedelta(seconds=localDifference)
return '%s %s' % (formatDate(dateTimeToShow.year, dateTimeToShow.month, dateTimeToShow.day), formatTime(dateTimeToShow.hour, dateTimeToShow.minute))
else:
return '%s %s' % (formatDate(dateTimeToShow.year, dateTimeToShow.month, dateTimeToShow.day), formatTime(dateTimeToShow.hour, dateTimeToShow.minute))
return
def convertDistanceToPartyGrid(d, index):
return int((d - PartyGlobals.PartyGridToPandaOffset[index]) / PartyGlobals.PartyGridUnitLength[index])
def convertDistanceFromPartyGrid(d, index):
return d * PartyGlobals.PartyGridUnitLength[index] + PartyGlobals.PartyGridToPandaOffset[index] + PartyGlobals.PartyGridUnitLength[index] / 2.0
def convertDegreesToPartyGrid(h):
while h < 0.0:
h = h + 360.0
h = h % 360.0
return int(h / PartyGlobals.PartyGridHeadingConverter)
def convertDegreesFromPartyGrid(h):
return h * PartyGlobals.PartyGridHeadingConverter
def getCenterPosFromGridSize(x, y, gridsize):
if gridsize[0] % 2 == 0:
xMod = PartyGlobals.PartyGridUnitLength[0] / 2.0
else:
xMod = 0
if gridsize[1] % 2 == 0:
yMod = PartyGlobals.PartyGridUnitLength[1] / 2.0
else:
yMod = 0
return (x + xMod, y + yMod)
def toRadians(angle):
return angle * math.pi / 180.0
def toDegrees(angle):
return angle * 180.0 / math.pi
def calcVelocity(rotation, angle, initialVelocity = 1.0):
horizVel = initialVelocity * math.cos(angle)
xVel = horizVel * -math.sin(rotation)
yVel = horizVel * math.cos(rotation)
zVel = initialVelocity * math.sin(angle)
return Vec3(xVel, yVel, zVel)
class LineSegment:
def __init__(self, pt1, pt2):
self.pt1 = pt1
self.pt2 = pt2
def isIntersecting(self, line, compare = None):
x1 = self.pt1.getX()
x2 = self.pt2.getX()
x3 = line.pt1.getX()
x4 = line.pt2.getX()
y1 = self.pt1.getY()
y2 = self.pt2.getY()
y3 = line.pt1.getY()
y4 = line.pt2.getY()
top1 = (x4 - x3) * (y1 - y3) - (y4 - y3) * (x1 - x3)
top2 = (x2 - x1) * (y1 - y3) - (y2 - y1) * (x1 - x3)
bot = (y4 - y3) * (x2 - x1) - (x4 - x3) * (y2 - y1)
if bot == 0.0:
return False
u1 = top1 / bot
u2 = top2 / bot
if compare is None:
return 0 <= u1 and u1 <= 1 and 0 <= u2 and u2 <= 1
elif compare == 'segment-ray':
return 0 <= u1 and u1 <= 1 and 0 <= u2
elif compare == 'ray-ray':
return 0 <= u1 and 0 <= u2
elif compare == 'ray-segment':
return 0 <= u1 and 0 <= u2 and u2 <= 1
return