package octez-libs
val preprocessing :
domain:Kzg.Bls.Domain.t ->
string ->
('a * int) list ->
Identities.Evaluations.polynomial Plonk.Identities.SMap.t
val partial_z : (Kzg.Bls.Scalar.t * int) -> Kzg.Bls.Scalar.t list
val f_map_contribution :
domain:Kzg.Bls.Domain.t ->
values:Identities.Evaluations.t Plonk.Identities.SMap.t ->
Plonk.Identities.SMap.key ->
(int * int) list ->
Identities.Evaluations.t Plonk.Identities.SMap.t
* Identities.Evaluations.polynomial Plonk.Identities.SMap.t
val prover_identities :
?circuit_prefix:(string -> string) ->
proof_prefix:(string -> string) ->
domain_size:int ->
string ->
'a ->
Identities.Evaluations.t Kzg.SMap.t ->
Identities.Evaluations.t Plonk.Identities.SMap.t
val verifier_identities :
?circuit_prefix:(string -> string) ->
proof_prefix:(string -> string) ->
string ->
bool ->
'a ->
Kzg.Bls.Scalar.t Plonk.Identities.SMap.t Plonk.Identities.SMap.t ->
Kzg.Bls.Scalar.t Plonk.Identities.SMap.t
val cs_unitary :
prefix:(string -> string) ->
lnin1:L.Num.scalar L.repr ->
pnin1:L.Num.scalar L.repr ->
z:L.Num.scalar L.Num.repr ->
zg:L.Num.scalar L.Num.repr ->
int ->
(string * L.Num.scalar L.Num.repr) list L.t
val cs_for_all_wires :
prefix:(string -> string) ->
lnin1:L.Num.scalar L.repr list ->
pnin1:L.Num.scalar L.repr list ->
z_list:L.Num.scalar L.Num.repr list ->
zg_list:L.Num.scalar L.Num.repr list ->
int list ->
(string * L.Num.scalar L.Num.repr) list L.t
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