def addDynamics(self,*args):
for i in self.scene_before:
self.obj = mc.listRelatives(i, p = True)
mc.select(self.obj)
mc.rigidBody( active = True, mass = 10, initialVelocity = (0.0,0.0,0.0), bounciness = 1, dynamicFriction = 0.8, damping = 0.2)
self.G = mc.gravity(directionX = 0.0, directionY = -1.0, directionZ = 0.0, magnitude = 100)
mc.connectDynamic(*self.obj, f = self.G)
def add_rigid_body( self, objects, magnitude = 50 ): cmds.rigidBody( objects, active = False, m = magnitude, collisions = False ) cmds.gravity( pos = [0, 0, 0], m = magnitude, att = 0, dx = 0, dy = -1, dz = 0, mxd = -1, vsh = 'none', vex = 0, vof = [0, 0, 0], vsw = 360, tsr = 0.5 ) gravity_dag = oopmaya.DAG_Node() cmds.connectDynamic( objects, fields = gravity_dag.name() )
def doIt(self,argList):
cmds.polyPlane(n='myPlane', h=5, w=2)
cmds.polySphere(n='mySphere', r=5)
cmds.select('mySphere')
cmds.move(0,5,0)
cmds.rigidBody( n='myRigidBody', active=True, b=0.5, sf=0.4 )
cmds.select(cl=True)
cmds.gravity(n='myGravity')
cmds.connectDynamic('mySphere', fields='myGravity')
def _getRigidBody(obj):
'''Restituisce il nodo di rigidBody.'''
try:
return cmds.rigidBody(obj, q=True, n=True)
except:
return None
def _getRigidBody(obj):
'''Restituisce il nodo di rigidBody.'''
try:
return cmds.rigidBody(obj, q=True, n=True)
except:
return None
def add_rigid_body(self, objects, magnitude=50):
cmds.rigidBody(objects, active=False, m=magnitude, collisions=False)
cmds.gravity(pos=[0, 0, 0],
m=magnitude,
att=0,
dx=0,
dy=-1,
dz=0,
mxd=-1,
vsh='none',
vex=0,
vof=[0, 0, 0],
vsw=360,
tsr=0.5)
gravity_dag = oopmaya.DAG_Node()
cmds.connectDynamic(objects, fields=gravity_dag.name())
def importTerrain(self,*args):
self.scene_before = mc.ls(type = "mesh")
print self.scene_before
mc.file(self.terrainName,i = True)
self.scene_after = mc.ls(type = "mesh")
print self.scene_after
self.newObj = list(set(self.scene_after) - set(self.scene_before))
print self.newObj
mc.select(self.newObj)
self.groundRS = mc.rigidSolver(create = True, name = "rigidSolver1", s = 1.0, ct = 1.0)
self.groundRB = mc.rigidBody(passive = True, solver = "rigidSolver1", bounciness = 0.5, damping = 0.8, staticFriction = 1.0)
mc.select(clear = True)
def constrainAndRigibody():
#store the current selection as the select list
selectArray = cmds.ls( sl = True )
#a loop that adds contrains and rigid bodies to the selected assets
for mesh in selectArray:
#store a temp mesh name
origMeshName = str(mesh)
#correct it to the original mesh name
origMeshName = origMeshName.replace('D_', '')
print (origMeshName)
#store a reconstructed corresponding joint name
jointName = (origMeshName + "_j")
#add a constraint from the duplicate mesh (constrainor) to..
# .. the joint (constrainee)
cmds.parentConstraint( mesh, jointName, mo = 1 )
#clear the selection
cmds.select(cl=1)
#select the duplicate mesh
cmds.select(mesh)
#add an active rigidbody
cmds.rigidBody( active = 1)
#clear the selection
cmds.select(cl=1)
def rigidBody(*args, **kwargs):
res = cmds.rigidBody(*args, **kwargs)
if not kwargs.get('query', kwargs.get('q', False)):
res = _factories.maybeConvert(res, _general.PyNode)
return res
xp = cmds.getAttr(name)
rnd = (0.8 + random.random())
xp = xp * rnd
cmds.setAttr(name, xp)
name = n[0] + '.scaleZ'
zp = cmds.getAttr(name)
rnd = (0.8 + random.random())
zp = zp * rnd
cmds.setAttr(name, zp)
offset = random.randint(0, altitude)
raindrops.append(n[0])
cmds.move(x, altitude + offset, z, n[0])
print raindrops
for drop in raindrops:
rnd = -1 * (0.3 + random.random() * 0.2)
rb = 'rb_' + drop
print drop, ' ', rnd, ' ', rb
cmds.select(drop)
cmds.rigidBody(n=rb, active=True, iv=(0, rnd, 0))
# polyPlane -ch on -o on -w 32.897207 -h 32.897207 -sw 1 -sh 1 -cuv 2 ;
cmds.polyPlane(n='ground',
ch=True,
o=True,
w=32.29,
h=32.29,
sw=1,
sh=1,
cuv=2)
cmds.select('ground')
cmds.rigidBody(n='rb_ground', passive=True)
def createLego(x, y, z, name, dimension, victime):
g = cmds.radioButtonGrp("color", query=True, sl=True)
#xlego=cmds.intSliderGrp('lLego', query=True, value=True)
#zlego=cmds.intSliderGrp('loLego', query=True, value=True)
#lego de base
#Base
cmds.polyCube(name="base", w=dimension, d=dimension, h=dimension)
cmds.polyExtrudeFacet('base.f[3]', lsx=0.9, lsy=0.9, kft=True)
cmds.polyExtrudeFacet('base.f[3]', ltz=-dimension, kft=True)
cmds.delete("base.f[3]")
if cmds.checkBox("bevel", query=True, value=True):
cmds.polyBevel("base.e[0:11]",
"base.e[14]",
"base.e[16]",
"base.e[18]",
"base.e[19]",
offset=0.02 * dimension)
#Cylindre
cmds.polyCylinder(n="cercle0",
r=0.3 * dimension,
h=1.15 * dimension,
sx=20)
cmds.move(0, 0.1 * dimension, 0, relative=True)
cmds.polyExtrudeFacet('cercle0.f[20]', lsx=0.9, lsy=0.9, kft=True)
cmds.polyExtrudeFacet('cercle0.f[20]', ltz=-dimension, kft=True)
cmds.delete("cercle0.f[20]")
if cmds.checkBox("bevel", query=True, value=True):
cmds.polyBevel("cercle0.e[20:39]",
"cercle0.e[0:19]",
"cercle0.e[62:99]",
offset=0.02 * dimension)
#Longueur, xLego
'''for i in range (xlego-1):
cmds.duplicate("cercle"+`i`, n="cercle"+`i+1`)
cmds.select("cercle"+`i+1`)
cmds.move(-2,0,0, relative=True)
cmds.group("cercle*", name="cerclesx")'''
# Largeur, zlego
'''if zlego > 1 :
for i in range (0, zlego):
cmds.duplicate("cerclesx", n="cerclesz" +` i+1`)
cmds.select("cerclesz"+`i+1`)
cmds.move(0,0,2*i, relative=True)
cmds.group("cerclesx", "cerclesz*", n="cercles")
cmds.select("cercles")
cmds.move(0,0,-zlego+1, relative=True)
else :
cmds.rename("cerclesx", "cercles")'''
# Fin de creation du LEGO
cmds.polyUnite("cercle0", "base", n="lego" + ` name `, ch=False)
cmds.move(x, y, z)
#Dynamique sur Lego
if cmds.checkBox("physics", query=True, value=True) and cmds.checkBox(
"animation", query=True, value=True) == False:
cmds.rigidBody(n='RigidBodyLego', active=True, b=0.5, sf=0.4)
#Shader
cmds.shadingNode('blinn', name='legoBlinn' + ` name `, asShader=True)
cmds.select("lego" + ` name `)
cmds.hyperShade(assign="legoBlinn" + ` name `)
cmds.textScrollList('colorblinn', query=True)
#Selectionne la victime
cmds.select(victime)
#Couleur
cmds.radioButtonGrp("color", query=True, sl=True)
#Random
if cmds.radioButtonGrp("color", query=True, sl=True) == 1:
randIndClr = random.sample(indiceColor, 1)
cmds.setAttr("legoBlinn" + ` name ` + ".color", randIndClr[0][0],
randIndClr[0][1], randIndClr[0][2])
#Choice
if cmds.radioButtonGrp("color", query=True, sl=True) == 3:
colorChoice = cmds.textScrollList("colorblinn", query=True, sii=True)
random.shuffle(colorChoice)
cmds.setAttr("legoBlinn" + ` name ` + ".color",
indiceColor[colorChoice[0] - 1][0],
indiceColor[colorChoice[0] - 1][1],
indiceColor[colorChoice[0] - 1][2])
if cmds.radioButtonGrp("color", query=True, sl=True) == 2:
colorOther = cmds.colorSliderGrp("othrColor", query=True, rgb=True)
cmds.setAttr("legoBlinn" + ` name ` + ".color", colorOther[0],
colorOther[1], colorOther[2])
#Object
if cmds.radioButtonGrp("color", query=True, sl=True) == 4:
colorObject = colorClosestVertex(x, y, z)
cmds.setAttr("legoBlinn" + ` name ` + ".color", colorObject[0],
colorObject[1], colorObject[2])
def basicGround():
cmds.polyPlane(name='Basic_Ground')
cmds.select('Basic_Ground')
cmds.rigidBody(active = False, passive = True)
cmds.select(cl=1)
def createBlocks(*args):
''' -Query GUI Values- '''
horizontalCount = cmds.intField('horizontalCount', q=True, value=True)
verticalCount = cmds.intField('verticalCount', q=True, value=True)
blockScaling = cmds.floatField('blockScaling', q=True, value=True)
blockSpacing = cmds.floatField('blockSpacing', q=True, value=True)
blockBevel = cmds.intField('blockBevel', q=True, value=True)
addCollision = cmds.checkBox('addCollision', q=True, value=True)
''' -Create Geo Grp- '''
if cmds.objExists('blockMainGeo_grp'):
blockMainGeoGrp = 'blockMainGeo_grp'
else:
blockMainGeoGrp = cmds.group(n='blockMainGeo_grp', em=True)
''' -Create Rig Grp- '''
if cmds.objExists('blockMainRig_grp'):
blockMainRigGrp = 'blockMainRig_grp'
else:
blockMainRigGrp = cmds.group(n='blockMainRig_grp', em=True)
''' -Create Controller Grp- '''
if cmds.objExists('blockController_grp'):
blockControllerGrp = 'blockController_grp'
else:
blockControllerGrp = cmds.group(n='blockController_grp', em=True)
''' -Create Geo Layer- '''
if cmds.objExists('blockGeo_layer'):
blockGeoLayer = 'blockGeo_layer'
else:
blockGeoLayer = cmds.createDisplayLayer(n='blockGeo_layer')
''' -Create Controller Layer- '''
if cmds.objExists('blockController_layer'):
blockControllerLayer = 'blockController_layer'
else:
blockControllerLayer = cmds.createDisplayLayer(
n='blockController_layer')
cmds.editDisplayLayerMembers(blockControllerLayer, blockControllerGrp)
''' -Build Controller- '''
if cmds.objExists('blockTop*_controller'):
cmds.select('blockTop*_controller')
versionCount = cmds.ls(sl=True)
versionCount = len(versionCount) + 1
versionCount = str(versionCount)
else:
versionCount = '1'
blockTopScaleX = (blockScaling * horizontalCount * 0.5) + (
(horizontalCount - 1) * blockSpacing * 0.5) + blockScaling
blockTopScaleZ = (blockScaling * verticalCount * 0.5) + (
(verticalCount - 1) * blockSpacing * 0.5) + blockScaling
blockTopController = cmds.curve(n='blockTop' + versionCount +
'_controller',
p=[(-blockTopScaleX, 0, -blockTopScaleZ),
(blockTopScaleX, 0, -blockTopScaleZ),
(blockTopScaleX, 0, blockTopScaleZ),
(-blockTopScaleX, 0, blockTopScaleZ),
(-blockTopScaleX, 0, -blockTopScaleZ)],
d=1)
blockController = cmds.circle(n='block' + versionCount + '_controller',
nr=[0, 1, 0],
r=blockScaling,
ch=False)[0]
radiusScaleAttr = createAttr(blockController, 'radiusScale', [0, 1])
cmds.setAttr(blockController + '.translateY', blockScaling * 10)
cmds.makeIdentity(blockController, apply=True, t=True, r=True, s=True, n=0)
cmds.parent(blockController, blockTopController)
cmds.parent(blockTopController, blockControllerGrp)
blockRigTop = cmds.group(n='blockRigTop' + versionCount + '_grp',
p=blockMainRigGrp,
em=True)
cmds.parentConstraint(blockTopController, blockRigTop, mo=True)
cmds.scaleConstraint(blockTopController, blockRigTop, mo=True)
blockCount = horizontalCount * verticalCount
''' -Progress Bar- '''
progressName = progressBar('Building Blocks', blockCount)
for block in range(blockCount):
''' -Block Count- '''
if cmds.objExists('block*_geo'):
cmds.select('block*_geo')
blockVersion = cmds.ls(sl=True)
blockVersion = len(blockVersion) + 1
blockVersion = str(blockVersion)
else:
blockVersion = '1'
blockGeoGrp = cmds.group(n='blockGeo' + blockVersion + '_grp',
p=blockMainGeoGrp,
em=True)
blockRigGrp = cmds.group(n='blockRig' + blockVersion + '_grp',
p=blockRigTop,
em=True)
''' -Create Block- '''
blockGeo = cmds.polyCube(n='block' + blockVersion + '_geo',
w=blockScaling,
h=blockScaling,
d=blockScaling,
ch=False)[0]
cmds.parent(blockGeo, blockGeoGrp)
cmds.editDisplayLayerMembers(blockGeoLayer, blockGeo)
''' -Extrude the Top poly- '''
extrudeTop = cmds.polyExtrudeFacet(blockGeo + '.f[1]')[0]
cmds.setAttr(extrudeTop + ".localScale", 0.7, 0.7, 0.7, type='double3')
cmds.setAttr(extrudeTop + ".localTranslate",
0,
0,
blockScaling * 0.05,
type='double3')
''' -Translate Block to Ground Level- '''
blockTop = cmds.xform(blockGeo + '.f[9]', ws=True, q=True, t=True)
cmds.setAttr(blockGeo + '.translateY', -blockTop[1])
''' -Setup Distance- '''
blockBaseLoc = cmds.spaceLocator(n='blockBase' + blockVersion +
'_loc')[0]
blockEndLoc = cmds.spaceLocator(n='blockEnd' + blockVersion +
'_loc')[0]
blockTopLoc = cmds.spaceLocator(n='blockTop' + blockVersion +
'_loc')[0]
blockLoc = cmds.spaceLocator(n='block' + blockVersion + '_loc')[0]
cmds.parent(blockBaseLoc, blockEndLoc, blockLoc, blockTopLoc,
blockRigGrp)
cmds.parentConstraint(blockController, blockTopLoc, blockEndLoc)
cmds.setAttr(blockTopLoc + '.translateY', blockScaling * 10)
''' -Create Top Collision- '''
if addCollision == True:
collisionBlockGeo = cmds.duplicate(blockGeo,
n='collisionBlock' +
blockVersion + '_geo')[0]
cmds.delete(collisionBlockGeo + '.f[0]',
collisionBlockGeo + '.f[2:5]')
cmds.makeIdentity(collisionBlockGeo,
apply=True,
t=True,
r=True,
s=True,
n=0)
cmds.makeIdentity(collisionBlockGeo)
cmds.delete(collisionBlockGeo, ch=True)
''' -Collision Dynamics- '''
collisionDyn = cmds.rigidBody(collisionBlockGeo,
n='collisionBlock' + blockVersion +
'_dyn',
active=False)
cmds.hide(collisionBlockGeo)
cmds.pointConstraint(blockLoc, collisionBlockGeo)
''' -Zero Out Block Values- '''
cmds.makeIdentity(blockGeo, apply=True, t=True, r=True, s=True, n=0)
cmds.makeIdentity(blockGeo)
cmds.delete(blockGeo, ch=True)
''' -Create and Place Joints- '''
cmds.select(cl=True)
blockBaseJnt = cmds.joint(n='blockBase' + blockVersion + '_jnt')
blockBottom = cmds.xform(blockGeo + '.f[0]', ws=True, q=True, t=True)
cmds.setAttr(blockBaseJnt + '.translateY', blockBottom[1])
blockEndJnt = cmds.joint(n='blockEnd' + blockVersion + '_jnt')
cmds.setAttr(blockEndJnt + '.translateY', -blockBottom[1])
cmds.setAttr(blockBaseJnt + '.radius', blockScaling * 0.1)
cmds.setAttr(blockEndJnt + '.radius', blockScaling * 0.1)
cmds.parentConstraint(blockLoc, blockEndJnt)
cmds.parent(blockBaseJnt, blockRigGrp)
''' -Skin Block to Joints- '''
blockSkin = cmds.skinCluster(blockGeo,
blockBaseJnt,
blockEndJnt,
n='block' + blockVersion + '_skin')[0]
cmds.skinPercent(blockSkin,
blockGeo + '.vtx[0:1]',
blockGeo + '.vtx[6:7]',
transformValue=[(blockBaseJnt, 1), (blockEndJnt, 0)])
cmds.skinPercent(blockSkin,
blockGeo + '.vtx[2:5]',
blockGeo + '.vtx[8:11]',
transformValue=[(blockBaseJnt, 0), (blockEndJnt, 1)])
''' -Bevel the Block- '''
if blockBevel >= 1:
cmds.polyBevel(blockGeo + '.e[0:19]',
offset=0.08,
offsetAsFraction=1,
autoFit=1,
segments=blockBevel,
worldSpace=1,
uvAssignment=0,
fillNgons=1,
mergeVertices=1,
mergeVertexTolerance=0.0001,
smoothingAngle=30,
miteringAngle=180,
angleTolerance=180,
ch=1)
cmds.bakePartialHistory(blockGeo, prePostDeformers=True)
''' -Radius Scale- '''
try:
blockScaleCurve1 = blockScaleCurve1
blockEndConstraint = cmds.parentConstraint(blockEndLoc,
name=True,
q=True)
blockEndAlias = con = cmds.parentConstraint(blockEndLoc,
weightAliasList=True,
q=True)
blockEndConstraint1 = blockEndConstraint + '.' + blockEndAlias[0]
blockEndConstraint2 = blockEndConstraint + '.' + blockEndAlias[1]
cmds.connectAttr(blockScaleCurve1 + '.output', blockEndConstraint1)
cmds.connectAttr(blockScaleCurve2 + '.output', blockEndConstraint2)
except:
blockEndConstraint = cmds.parentConstraint(blockEndLoc,
name=True,
q=True)
blockEndAlias = con = cmds.parentConstraint(blockEndLoc,
weightAliasList=True,
q=True)
blockEndConstraint1 = blockEndConstraint + '.' + blockEndAlias[0]
blockEndConstraint2 = blockEndConstraint + '.' + blockEndAlias[1]
cmds.setDrivenKeyframe(blockEndConstraint1,
cd=radiusScaleAttr,
dv=0,
v=1)
cmds.setDrivenKeyframe(blockEndConstraint1,
cd=radiusScaleAttr,
dv=1,
v=0)
cmds.setDrivenKeyframe(blockEndConstraint2,
cd=radiusScaleAttr,
dv=0,
v=0)
cmds.setDrivenKeyframe(blockEndConstraint2,
cd=radiusScaleAttr,
dv=1,
v=1)
blockScaleCurve1 = cmds.listConnections(blockEndConstraint1,
source=True,
type="animCurve")[0]
blockScaleCurve2 = cmds.listConnections(blockEndConstraint2,
source=True,
type="animCurve")[0]
''' -Find Distance- '''
blockDistance = cmds.shadingNode('distanceBetween',
asUtility=True,
name='block' + blockVersion +
'_distance')
blockBaseLocShape = cmds.listRelatives(blockBaseLoc, shapes=True)[0]
blockEndLocShape = cmds.listRelatives(blockEndLoc, shapes=True)[0]
cmds.connectAttr(blockBaseLocShape + '.worldPosition [0]',
blockDistance + '.point1')
cmds.connectAttr(blockEndLocShape + '.worldPosition [0]',
blockDistance + '.point2')
''' -Translate Box Anim- '''
cmds.setDrivenKeyframe(blockLoc + '.translateY',
cd=blockDistance + '.distance',
dv=blockScaling * 10,
v=blockScaling * 0)
cmds.setDrivenKeyframe(blockLoc + '.translateY',
cd=blockDistance + '.distance',
dv=blockScaling * 9.8,
v=-blockScaling * 0.2)
cmds.setDrivenKeyframe(blockLoc + '.translateY',
cd=blockDistance + '.distance',
dv=blockScaling * 5.2,
v=blockScaling * 5.2)
cmds.setDrivenKeyframe(blockLoc + '.translateY',
cd=blockDistance + '.distance',
dv=blockScaling * 5,
v=blockScaling * 5)
cmds.setDrivenKeyframe(blockLoc + '.translateY',
cd=blockDistance + '.distance',
dv=blockScaling * 0.2,
v=-blockScaling * 0.2)
cmds.setDrivenKeyframe(blockLoc + '.translateY',
cd=blockDistance + '.distance',
dv=blockScaling * 0,
v=blockScaling * 0)
''' -Block Layout- '''
blockScaling2 = blockScaling + blockSpacing
if block == 0:
traX = ((horizontalCount - 1) * -0.5 * blockScaling2)
traZ = ((verticalCount - 1) * -0.5 * blockScaling2)
cmds.setAttr(blockRigGrp + '.translate', traX, 0, traZ)
horizontalCountDown1 = horizontalCount - 1
horizontalCountDown2 = horizontalCount
verticalCountDown = 0
else:
if horizontalCountDown1 == 0:
horizontalCountDown1 = horizontalCount
horizontalCountDown2 = horizontalCount
verticalCountDown = verticalCountDown - 1
horizontalCountDown1 = horizontalCountDown1 - 1
horizontalCountDown2 = horizontalCountDown2 - 1
traX = (((horizontalCount - 1) * -0.5 + horizontalCountDown2) *
blockScaling2)
traZ = (((verticalCount - 1) * -0.5 - verticalCountDown) *
blockScaling2)
cmds.setAttr(blockRigGrp + '.translate', traX, 0, traZ)
cmds.parentConstraint(blockController, blockTopLoc, mo=True)
cmds.hide(blockRigGrp)
cmds.progressBar(progressName, e=True, step=1)
''' -Close Progress Bar- '''
progressBar('', 0)
h=0.10,
d=100,
sx=10,
sy=1,
sz=10,
ax=(0, 1, 0),
name='floor')
cmds.setAttr('floor.translateY', -15)
''' Initiate rigidSolvers
mySphere should interact with shards created from myPlane
Shards created below by way of cutObject should interact
'''
cmds.rigidSolver(create=True, name='rigidSolver1')
cmds.select('floor')
cmds.rigidBody(passive=True,
solver='rigidSolver1',
name='passiveRigidBodyFloor')
cmds.gravity(pos=(0, 0, 0), m=9.8, dx=0, dy=-1, dz=0, name='gravityField')
fracturePosition = cmds.objectCenter(myPlane, gl=True)
print("Fracture position")
print(fracturePosition)
centerPoints = generateVoronoiPoints(fracturePosition)
shatteredPlane = cutObject(myPlane, centerPoints)
shards = cmds.listRelatives(shatteredPlane, children=True)
for i in range(len(shards)):
cmds.select(shards[i])
cmds.rigidBody(active=True, solver='rigidSolver1', name='shard' + str(i))
def readK2P():
mc.constructionHistory(toggle=False)
mc.select(all=True)
mc.delete()
counterMin = 1;
counter=counterMin;
counterMax = 200;
mc.playbackOptions(minTime=counterMin, maxTime=counterMax)
skipCounterMin = 1;
skipCounter=skipCounterMin;
skipCounterMax = 6;
path = "/Users/nick/Development/Maya/readxml"
fileName = "mocapData1.xml"
#trackPoint = ["l_foot","l_knee","l_hip","r_foot","r_knee","r_hip","l_hand","l_elbow","l_shoulder","r_hand","r_elbow","r_shoulder","torso","neck","head"]
trackPoint = ["head"]
scaler = 10
grav = mc.gravity()
xmlFile = xd.parse(path + "/" + fileName)
print("loaded: " + fileName)
for t in trackPoint:
joint = xmlFile.getElementsByTagName(t)
jointCounter = 0;
cubeName = t
#mergeName = t + "Merge"
for j in joint:
counter=counterMin;
x = scaler * float(j.getAttribute("x"))
y = scaler * float(j.getAttribute("y"))
z = scaler * float(j.getAttribute("z"))
if(x!=0 and y!=0 and z!=0):
mc.currentTime(counter)
counter+=1
if(skipCounter<skipCounterMax):
jointCounter+=1
mc.polyCube(name=cubeName+str(counter))
#polyCube(sx=2, sy=2, sz=2, name=cubeName+str(counter))
#polySmooth(dv=1)
mc.connectDynamic(f=grav) #adds gravity
mc.move(x, y, z)
mc.rotate(rnd.uniform(-1 * scaler, scaler),rnd.uniform(-1 * scaler, scaler),rnd.uniform(-1 * scaler, scaler))
skipCounter+=1
else:
skipCounter=skipCounterMin
print("cubes made: " + str(jointCounter))
#select(all=True)
#polyUnite(constructionHistory=False) #1=union, 2=difference, 3=intersection
floor = mc.polyPlane(w=30,h=30)
mc.rigidBody(passive=True)
mc.move(0,0,0)
print("...script complete.")
