include "sequence_aux.csp" 
include "function_aux.csp" 
include "auxiliar.csp" 
include "rules.csp"
datatype Direction = req | ack
Value = {1..3}
channel rd : Direction.Value
channel wrt : Direction.Value


BricRingCell = wrt.req?x -> wrt.ack.x -> rd.req?dumb -> rd.ack!x -> BricRingCell



channel rd2 : Direction.Value
channel wrt2 : Direction.Value
channel rd2 : Direction.Value
channel wrt2 : Direction.Value


PROT_CELL(e) = |~| v2:Value @ e.req?v1 -> e.ack.v2 -> PROT_CELL(e)
DUAL_PROT_CELL(e) = |~| v1:Value @ e.req.v1 -> e.ack?v2 -> DUAL_PROT_CELL(e)


BricIRCell1 = BricRingCell [[rd <- rd2,wrt <- wrt2]] 


BricIRCell2 = BricRingCell [[rd <- rd2,wrt <- wrt2]] 

Inst_Cell2 = <(rd,rd2),(wrt,wrt2)> 
Cell2 = rename(BricRingCell, Inst_Cell2) 

Inst_Cell2 = <(rd,rd2),(wrt,wrt2)> 
Cell2 = rename(BricRingCell, Inst_Cell2) 


GET_CHANNELS(P) =
 	 let f =
 	 < 
	(Cell2, { rd2,wrt2 }),

	(Cell2, { rd2,wrt2 }),

	(PROT_IMP_Cell2_rd2,{rd2}),

	(PROT_IMP_Cell2_wrt2,{wrt2}) 	 > 

 	 within apply(f,P )

inputs( P ) = 
 	 let f = 
	<
 	 ( Cell2, {| rd2.req,wrt2.req |}),
 	 ( Cell2, {| rd2.req,wrt2.req |}),
	(PROT_IMP_Cell2_rd2,inputs_PROT_IMP(Cell2,rd2)),

	(PROT_IMP_Cell2_wrt2,inputs_PROT_IMP(Cell2,wrt2)),

	(PROT_IMP_Cell2_rd2_R_IO_wrt2,inputs_R_IO(PROT_IMP_Cell2_rd2,rd2,wrt2)),

	(PROT_IMP_Cell2_wrt2_R_IO_rd2,inputs_R_IO(PROT_IMP_Cell2_wrt2,wrt2,rd2)),

	(DUAL_PROT_IMP_Cell2_rd2_R_IO_wrt2,outputs(PROT_IMP_Cell2_rd2_R_IO_wrt2)),

	(DUAL_PROT_IMP_Cell2_wrt2_R_IO_rd2,outputs(PROT_IMP_Cell2_wrt2_R_IO_rd2))
 	 > 

 	 within apply(f, P )


 outputs( P ) = 
 	 let f =
	  < 
	 ( Cell2, {| rd2.ack,wrt2.ack |}),
	 ( Cell2, {| rd2.ack,wrt2.ack |}),
	(PROT_IMP_Cell2_rd2,outputs_PROT_IMP(Cell2,rd2)),

	(PROT_IMP_Cell2_wrt2,outputs_PROT_IMP(Cell2,wrt2)),

	(PROT_IMP_Cell2_rd2_R_IO_wrt2,outputs_R_IO(Cell2,rd2,wrt2)),

	(PROT_IMP_Cell2_wrt2_R_IO_rd2,outputs_R_IO(Cell2,wrt2,rd2)),

	(DUAL_PROT_IMP_Cell2_rd2_R_IO_wrt2,inputs(PROT_IMP_Cell2_rd2_R_IO_wrt2)),

	(DUAL_PROT_IMP_Cell2_wrt2_R_IO_rd2,inputs(PROT_IMP_Cell2_wrt2_R_IO_rd2))
 	 > 

 	 within apply(f, P )

PROT_IMP_Cell2_rd2 = PROT_CELL(rd2)
PROT_IMP_Cell2_wrt2 = PROT_CELL(wrt2)

DUAL_PROT_IMP_Cell2_rd2 = DUAL_PROT_CELL(rd2)
DUAL_PROT_IMP_Cell2_wrt2 = DUAL_PROT_CELL(wrt2)

PROT_IMP_Cell2_rd2_R_IO_wrt2 = PROT_IMP_R(PROT_IMP_Cell2_rd2,R_IO(Cell2,rd2,wrt2))
PROT_IMP_Cell2_wrt2_R_IO_rd2 = PROT_IMP_R(PROT_IMP_Cell2_wrt2,R_IO(Cell2,wrt2,rd2))

DUAL_PROT_IMP_Cell2_rd2_R_IO_wrt2 = DUAL_PROT_IMP_R(DUAL_PROT_IMP_Cell2_rd2,R_IO(Cell2,rd2,wrt2))
DUAL_PROT_IMP_Cell2_wrt2_R_IO_rd2 = DUAL_PROT_IMP_R(DUAL_PROT_IMP_Cell2_wrt2,R_IO(Cell2,wrt2,rd2))

--COMMUNICATION COMPOSITION

Cell2_Cell2 = FEED(Cell2, rd2, wrt2)


--D.1 channel1 is in the alphabet of contract

assert not Cell2 \ {|rd2|} [T= Cell2



--D.1 channel1 is in the alphabet of contract

assert not Cell2 \ {|wrt2|} [T= Cell2

--D.4 : I/O confluence for first component
--D.4.1 It is divergence-free


assert PROT_IMP_Cell2_rd2 :[divergence free [FD]]

--D.4.2 It is refined by the projection on the channel 

assert PROT_IMP_Cell2_rd2 [F= PROT_IMP_def(Cell2,rd2)

--D.4.3 It is a refinement of the projection on the channel 

assert PROT_IMP_def(Cell2,rd2) [FD= PROT_IMP_Cell2_rd2

--D.4.4 It is a port-protocol (communication protocol) 


--D.4.4.1 
assert not Test(subseteq(inputs_PROT_IMP(Cell2,rd2),{|rd2|})) [T= ERROR

--D.4.4.2 
assert not Test(subseteq(outputs_PROT_IMP(Cell2,rd2),{|rd2|})) [T= ERROR

--D.4.5 : The renamed version is I/O Confluent

assert InBufferProt(PROT_IMP_Cell2_rd2_R_IO_wrt2, rd2) :[deterministic [F]]

--D.5 : I/O confluence for second component 
--D.5.1 


assert PROT_IMP_Cell2_wrt2 :[divergence free [FD]]

--D.5.2 

assert PROT_IMP_Cell2_wrt2 [F= PROT_IMP_def(Cell2,wrt2)

--D.5.3 

assert PROT_IMP_def(Cell2,wrt2) [FD= PROT_IMP_Cell2_wrt2

--D.5.4 


--D.5.4.1 
assert not Test(subseteq(inputs_PROT_IMP(Cell2,wrt2),{|wrt2|})) [T= ERROR

--D.5.4.2 
assert not Test(subseteq(outputs_PROT_IMP(Cell2,wrt2),{|wrt2|})) [T= ERROR

--D.5.5 : The renamed version is I/O Confluent

assert InBufferProt(PROT_IMP_Cell2_wrt2_R_IO_rd2, wrt2) :[deterministic [F]]

---- D.6: Protocols are Strong Compatible

assert PROT_IMP_Cell2_rd2_R_IO_wrt2 :[deadlock free [FD]]

assert PROT_IMP_Cell2_wrt2_R_IO_rd2 :[deadlock free [FD]]

----	 * D.6.2: Protocols are communication protocols

--D.6.2.1
assert not Test(subseteq(inputs(PROT_IMP_Cell2_rd2_R_IO_wrt2), {| rd2|})) [T= ERROR

--D.6.2.2
assert not Test(subseteq(outputs(PROT_IMP_Cell2_rd2_R_IO_wrt2), {|wrt2|})) [T= ERROR

--D.6.2.3
assert not Test(subseteq(inputs(PROT_IMP_Cell2_wrt2_R_IO_rd2), {| wrt2|})) [T= ERROR

--D.6.2.4
assert not Test(subseteq(outputs(PROT_IMP_Cell2_wrt2_R_IO_rd2), {| rd2|})) [T= ERROR

--D.6.3: It is a Dual Protocol



assert not Test(inputs(PROT_IMP_Cell2_rd2_R_IO_wrt2) == outputs(DUAL_PROT_IMP_Cell2_rd2_R_IO_wrt2)) [T= ERROR



assert not Test(outputs(PROT_IMP_Cell2_wrt2_R_IO_rd2) == inputs(DUAL_PROT_IMP_Cell2_wrt2_R_IO_rd2)) [T= ERROR



assert DUAL_PROT_IMP_Cell2_rd2_R_IO_wrt2 [T= PROT_IMP_Cell2_rd2_R_IO_wrt2

assert PROT_IMP_Cell2_rd2_R_IO_wrt2 [T= DUAL_PROT_IMP_Cell2_rd2_R_IO_wrt2



assert DUAL_PROT_IMP_Cell2_rd2_R_IO_wrt2 [F= PROT_IMP_Cell2_wrt2_R_IO_rd2



assert PROT_IMP_Cell2_wrt2_R_IO_rd2 [F= DUAL_PROT_IMP_Cell2_rd2_R_IO_wrt2

--D.7: Protocols have Finite Output Property 

--D.7.1

assert PROT_IMP_Cell2_rd2_R_IO_wrt2 \  outputs(PROT_IMP_Cell2_rd2_R_IO_wrt2):[divergence free [FD]]

assert PROT_IMP_Cell2_wrt2_R_IO_rd2 \  outputs(PROT_IMP_Cell2_wrt2_R_IO_rd2):[divergence free [FD]]

assert INTER_PROT_IMP(Cell2, {rd2, wrt2}) [F= PROJECTION(Cell2, {rd2, wrt2})

assert PROJECTION(Cell2, {rd2, wrt2}) [FD= INTER_PROT_IMP(Cell2, {rd2, wrt2})