[
Version=1
]
[
ObjTp=FSgntr
Sgntr=UserMacro
RelVrs=2.05.22
IntStrVrs=2
MinSMWVrs=0
MinTIOVrs=0
SavedBy=SMW2.05.22
]
[
ObjTp=Hd
S0Nd=1
S1Nd=2
SLNd=3
PrNm=Crestron Animation For CIP.umc
DbVr=16.1.4
PgmNm=CRR
DlrNm=Crestron Electronics
CltNm=Controls Crestron swirl animation on I2P demos
McNm=Crestron Animation For CIP
SmVr=291
DvVr=291
TpN1=1
TpN2=2
TpN3=3
TpN4=4
TpN5=5
Cmn1=This module controls the animation of the Crestron\\swirl on I2P||1
Cmn2=demo programs. The two digital inputs\\will start and stop the swirl,||1
Cmn3=while the single analog\\output will be routed to the swirl animation||1
Cmn4=on the\\touch panel definition.\\
]
[
ObjTp=Bk
Nm1=\
Sx1=0
Sy1=0
Mx1=0
]
[
ObjTp=Bw
H=1
Lx=0
Ly=0
Rx=776
Ry=435
Xm=-1
Ym=-1
SH=6
Z=100
Ht=3
Hi=1
]
[
ObjTp=Bw
H=1
Lx=0
Ly=435
Rx=776
Ry=870
Xm=-1
Ym=-1
SH=15
Z=100
Ht=3
Hi=2
]
[
ObjTp=Symbol
Name=Crestron Animation For CIP
Code=1
SmplCName=Crestron Animation For CIP.umc
Smpl-C=3
Convertable=True
CompilerTimePrecision=Single_Or_Double_Precision
Hint=Controls Crestron swirl animation on I2P demos
SMWRev=0
TIORev=0
HelpID=1055
APg=0
NumFixedInputs=2
NumFixedOutputs=1
MinVariableInputs=0
MinVariableInputsList2=0
MinVariableInputsList3=0
MinVariableOutputs=0
MinVariableOutputsList2=0
MinVariableOutputsList3=0
MinVariableParams=0
SymbolTree=32
OutputSigType1=Analog
ParamSigType1=Percent
InputCue1=START-ANIMATE
InputCue2=STOP-ANIMATE
OutputCue1=ANIMATE
FileName=Crestron Animation For CIP.umc
]
[
ObjTp=Sm
H=1
SmC=157
Nm=Central Control Modules
CF=2
n1I=1
n1O=1
mI=1
mO=1
tO=1
mP=1
P1=
]
[
ObjTp=Sm
H=2
SmC=157
Nm=Network Modules
CF=2
n1I=1
n1O=1
mI=1
mO=1
tO=1
mP=1
P1=
]
[
ObjTp=Sm
H=3
SmC=157
Nm=Ethernet
CF=2
n1I=1
n1O=1
mI=1
mO=1
tO=1
mP=1
P1=
]
[
ObjTp=Sm
H=4
SmC=156
Nm=Logic
CF=2
mC=1
C1=7
]
[
ObjTp=Sm
H=5
SmC=157
Nm=DefineArguments
CF=2
n1I=1
n1O=1
mC=1
C1=6
mI=1
mO=1
tO=1
mP=1
P1=
]
[
ObjTp=Sm
H=6
SmC=55
PrH=5
CF=2
n1I=2
n1O=1
mI=2
I1=5
I2=6
mO=1
tO=1
O1=16
mP=1
P1=
]
[
ObjTp=Sm
H=7
SmC=156
PrH=4
CF=2
Cmn1=ANIMATE CRESTRON LOGO
mC=9
C1=8
C2=9
C3=10
C4=11
C5=12
C6=13
C7=14
C8=15
C9=16
]
[
ObjTp=Sm
H=8
SmC=9
PrH=7
CF=2
n1I=3
n1O=2
mI=3
I1=2
mO=2
tO=2
O1=4
mP=1
P1=.1S
]
[
ObjTp=Sm
H=9
SmC=20
PrH=7
CF=2
n1I=3
n1O=2
mI=3
I1=2
I2=4
I3=5
mO=2
tO=2
O1=17
O2=17
]
[
ObjTp=Sm
H=10
SmC=12
PrH=7
CF=2
n1I=2
n1O=2
mI=2
I1=17
I2=6
mO=2
tO=2
O1=7
]
[
ObjTp=Sm
H=11
SmC=8
PrH=7
CF=2
n1I=1
n1O=1
mI=1
I1=7
mO=1
tO=1
O1=8
mP=2
P1=.1s
P2=.9S
]
[
ObjTp=Sm
H=12
SmC=17
PrH=7
CF=2
n1I=3
n1O=4
mI=3
I1=8
mO=4
tO=4
O1=9
O2=10
O3=11
O4=12
]
[
ObjTp=Sm
H=13
SmC=19
PrH=7
CF=2
n1I=4
n1O=2
mI=4
I3=9
I4=12
mO=2
tO=2
O1=13
O2=14
]
[
ObjTp=Sm
H=14
SmC=22
PrH=7
CF=2
n1I=3
n1O=1
mI=3
I1=13
I2=14
mO=1
tO=1
O1=15
mP=1
P1=1S
]
[
ObjTp=Sm
H=15
SmC=24
PrH=7
CF=2
n1I=1
n1O=1
mI=1
I1=15
mO=1
tO=1
O1=16
mP=3
P1=10D
P2=
P3=0D
]
[
ObjTp=Sm
H=16
SmC=20
PrH=7
CF=2
n1I=4
n1O=3
Cmn1=UNUSED SIGNALS\\
mI=4
I1=1
I2=10
I3=11
I4=18
mO=3
tO=3
O1=18
O2=18
O3=18
]
[
ObjTp=Sg
H=4
Nm=START
]
[
ObjTp=Sg
H=5
Nm=START-ANIMATE
]
[
ObjTp=Sg
H=6
Nm=STOP-ANIMATE
]
[
ObjTp=Sg
H=7
Nm=ANIMATE-GO
]
[
ObjTp=Sg
H=8
Nm=ANIMATE-OSC
]
[
ObjTp=Sg
H=9
Nm=ANIMATE-1
]
[
ObjTp=Sg
H=10
Nm=ANIMATE-2
]
[
ObjTp=Sg
H=11
Nm=ANIMATE-3
]
[
ObjTp=Sg
H=12
Nm=ANIMATE-4
]
[
ObjTp=Sg
H=13
Nm=FORWARD
]
[
ObjTp=Sg
H=14
Nm=REVERSE
]
[
ObjTp=Sg
H=15
Nm=ANIMATE-AN
SgTp=2
]
[
ObjTp=Sg
H=16
Nm=ANIMATE
SgTp=2
]
[
ObjTp=Sg
H=17
Nm=START-ANIMATE-GO
]
[
ObjTp=Sg
H=18
Nm=UNUSED
]