package octez-libs
module PP : sig ... end
val build_permutations :
size_domain:int ->
range_checks:(int * int) list Plonk.Identities.SMap.t ->
int array Plonk.Identities.SMap.t
val preprocessing :
range_checks:(int * int) list Plonk.Identities.SMap.t ->
permutations:int array Plonk.Identities.SMap.t ->
domain:Kzg.Bls.Domain.t ->
Kzg.Bls.Poly.t Plonk.Identities.SMap.t
val f_map_contribution_1 :
range_checks:(int * int) list Plonk.Identities.SMap.t ->
domain:Kzg.Bls.Domain.t ->
values:Identities.Evaluations.t Plonk.Identities.SMap.t ->
Identities.Evaluations.t Plonk.Identities.SMap.t
* Kzg.Bls.Poly.t Plonk.Identities.SMap.t
val f_map_contribution_2 :
permutations:int array Plonk.Identities.SMap.t ->
beta:Kzg.Bls.Poly.scalar ->
gamma:Kzg.Bls.Poly.scalar ->
domain:Kzg.Bls.Domain.t ->
values:Identities.Evaluations.t Plonk.Identities.SMap.t ->
Kzg.Bls.Poly.t Plonk.Identities.SMap.t
val prover_identities_1 :
?circuit_prefix:(string -> string) ->
proof_prefix:(string -> string) ->
domain_size:int ->
range_checks:'a Plonk.Identities.SMap.t ->
unit ->
Identities.prover_identities
val prover_identities_2 :
?circuit_prefix:(string -> string) ->
beta:Kzg.Bls.Scalar.t ->
gamma:Kzg.Bls.Scalar.t ->
domain_size:int ->
range_checks:'a Plonk.Identities.SMap.t ->
unit ->
Identities.prover_identities
val verifier_identities_1 :
?circuit_prefix:(string -> string) ->
proof_prefix:(string -> string) ->
range_checks:bool Plonk.Identities.SMap.t ->
unit ->
Kzg.Bls.Scalar.t ->
Kzg.Bls.Scalar.t Plonk.Identities.SMap.t Plonk.Identities.SMap.t ->
Kzg.Bls.Scalar.t Plonk.Identities.SMap.t
val verifier_identities_2 :
?circuit_prefix:(string -> string) ->
nb_proofs:int ->
beta:Kzg.Bls.Scalar.t ->
gamma:Kzg.Bls.Scalar.t ->
delta:Kzg.Bls.Scalar.t ->
domain_size:int ->
generator:Kzg.Bls.Scalar.t ->
range_checks:bool Plonk.Identities.SMap.t ->
unit ->
Identities.verifier_identities
val cs :
rc_index:int list ->
nb_proofs:int ->
lnin1:Plompiler.LibCircuit.scalar Plompiler.LibCircuit.repr list ->
pnin1:Plompiler.LibCircuit.scalar Plompiler.LibCircuit.repr list ->
z_rc:Plompiler.LibCircuit.scalar Plompiler.LibCircuit.repr list list ->
zg_rc:Plompiler.LibCircuit.scalar Plompiler.LibCircuit.repr list list ->
z_perm:Plompiler.LibCircuit.scalar Plompiler.LibCircuit.repr list ->
zg_perm:Plompiler.LibCircuit.scalar Plompiler.LibCircuit.repr list ->
aggregated_wires:Plompiler.LibCircuit.scalar Plompiler.LibCircuit.repr list ->
sum_alpha_i:
(Plompiler.LibCircuit.scalar Plompiler.LibCircuit.repr list ->
Plompiler.LibCircuit.scalar Plompiler.LibCircuit.repr ->
Plompiler.LibCircuit.scalar Plompiler.LibCircuit.repr
Plompiler.LibCircuit.t) ->
l1:Plompiler.LibCircuit.scalar Plompiler.LibCircuit.repr ->
ss_list:Plompiler.LibCircuit.scalar Plompiler.LibCircuit.repr list list ->
beta:Plompiler.LibCircuit.scalar Plompiler.LibCircuit.repr ->
gamma:Plompiler.LibCircuit.scalar Plompiler.LibCircuit.repr ->
delta:Plompiler.LibCircuit.scalar Plompiler.LibCircuit.repr ->
x:Plompiler.LibCircuit.scalar Plompiler.LibCircuit.repr ->
(string * Plompiler.LibCircuit.scalar Plompiler.LibCircuit.repr) list
Plompiler.LibCircuit.t
sectionYPositions = computeSectionYPositions($el), 10)"
x-init="setTimeout(() => sectionYPositions = computeSectionYPositions($el), 10)"
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