// Copyright (C) 2019-2023 Aleo Systems Inc.
// This file is part of the snarkVM library.

// The snarkVM library is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.

// The snarkVM library is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.

// You should have received a copy of the GNU General Public License
// along with the snarkVM library. If not, see <https://www.gnu.org/licenses/>.

#![forbid(unsafe_code)]
#![allow(clippy::too_many_arguments)]

pub mod v0;
pub use v0::*;

use snarkvm_circuit_collections::merkle_tree::MerklePath;
use snarkvm_circuit_types::{environment::Environment, Boolean, Field, Group, Scalar};

pub trait Aleo: Environment {
    /// The maximum number of field elements in data (must not exceed u16::MAX).
    const MAX_DATA_SIZE_IN_FIELDS: u32 = <Self::Network as console::Network>::MAX_DATA_SIZE_IN_FIELDS;

    /// Returns the balance commitment domain as a constant field element.
    fn bcm_domain() -> Field<Self>;

    /// Returns the encryption domain as a constant field element.
    fn encryption_domain() -> Field<Self>;

    /// Returns the graph key domain as a constant field element.
    fn graph_key_domain() -> Field<Self>;

    /// Returns the randomizer domain as a constant field element.
    fn randomizer_domain() -> Field<Self>;

    /// Returns the balance commitment randomizer domain as a constant field element.
    fn r_bcm_domain() -> Field<Self>;

    /// Returns the serial number domain as a constant field element.
    fn serial_number_domain() -> Field<Self>;

    /// Returns the scalar multiplication on the generator `G`.
    fn g_scalar_multiply(scalar: &Scalar<Self>) -> Group<Self>;

    /// Returns a BHP commitment with an input hasher of 256-bits.
    fn commit_bhp256(input: &[Boolean<Self>], randomizer: &Scalar<Self>) -> Field<Self>;

    /// Returns a BHP commitment with an input hasher of 512-bits.
    fn commit_bhp512(input: &[Boolean<Self>], randomizer: &Scalar<Self>) -> Field<Self>;

    /// Returns a BHP commitment with an input hasher of 768-bits.
    fn commit_bhp768(input: &[Boolean<Self>], randomizer: &Scalar<Self>) -> Field<Self>;

    /// Returns a BHP commitment with an input hasher of 1024-bits.
    fn commit_bhp1024(input: &[Boolean<Self>], randomizer: &Scalar<Self>) -> Field<Self>;

    /// Returns a Pedersen commitment for the given (up to) 64-bit input and randomizer.
    fn commit_ped64(input: &[Boolean<Self>], randomizer: &Scalar<Self>) -> Group<Self>;

    /// Returns a Pedersen commitment for the given (up to) 128-bit input and randomizer.
    fn commit_ped128(input: &[Boolean<Self>], randomizer: &Scalar<Self>) -> Group<Self>;

    /// Returns the BHP hash with an input hasher of 256-bits.
    fn hash_bhp256(input: &[Boolean<Self>]) -> Field<Self>;

    /// Returns the BHP hash with an input hasher of 512-bits.
    fn hash_bhp512(input: &[Boolean<Self>]) -> Field<Self>;

    /// Returns the BHP hash with an input hasher of 768-bits.
    fn hash_bhp768(input: &[Boolean<Self>]) -> Field<Self>;

    /// Returns the BHP hash with an input hasher of 1024-bits.
    fn hash_bhp1024(input: &[Boolean<Self>]) -> Field<Self>;

    /// Returns the Pedersen hash for a given (up to) 64-bit input.
    fn hash_ped64(input: &[Boolean<Self>]) -> Field<Self>;

    /// Returns the Pedersen hash for a given (up to) 128-bit input.
    fn hash_ped128(input: &[Boolean<Self>]) -> Field<Self>;

    /// Returns the Poseidon hash with an input rate of 2.
    fn hash_psd2(input: &[Field<Self>]) -> Field<Self>;

    /// Returns the Poseidon hash with an input rate of 4.
    fn hash_psd4(input: &[Field<Self>]) -> Field<Self>;

    /// Returns the Poseidon hash with an input rate of 8.
    fn hash_psd8(input: &[Field<Self>]) -> Field<Self>;

    /// Returns the extended Poseidon hash with an input rate of 2.
    fn hash_many_psd2(input: &[Field<Self>], num_outputs: u16) -> Vec<Field<Self>>;

    /// Returns the extended Poseidon hash with an input rate of 4.
    fn hash_many_psd4(input: &[Field<Self>], num_outputs: u16) -> Vec<Field<Self>>;

    /// Returns the extended Poseidon hash with an input rate of 8.
    fn hash_many_psd8(input: &[Field<Self>], num_outputs: u16) -> Vec<Field<Self>>;

    /// Returns the Poseidon hash with an input rate of 2 on the affine curve.
    fn hash_to_group_psd2(input: &[Field<Self>]) -> Group<Self>;

    /// Returns the Poseidon hash with an input rate of 4 on the affine curve.
    fn hash_to_group_psd4(input: &[Field<Self>]) -> Group<Self>;

    /// Returns the Poseidon hash with an input rate of 8 on the affine curve.
    fn hash_to_group_psd8(input: &[Field<Self>]) -> Group<Self>;

    /// Returns the Poseidon hash with an input rate of 2 on the scalar field.
    fn hash_to_scalar_psd2(input: &[Field<Self>]) -> Scalar<Self>;

    /// Returns the Poseidon hash with an input rate of 4 on the scalar field.
    fn hash_to_scalar_psd4(input: &[Field<Self>]) -> Scalar<Self>;

    /// Returns the Poseidon hash with an input rate of 8 on the scalar field.
    fn hash_to_scalar_psd8(input: &[Field<Self>]) -> Scalar<Self>;

    /// Returns `true` if the given Merkle path is valid for the given root and leaf.
    #[allow(clippy::ptr_arg)]
    fn verify_merkle_path_bhp<const DEPTH: u8>(
        path: &MerklePath<Self, DEPTH>,
        root: &Field<Self>,
        leaf: &Vec<Boolean<Self>>,
    ) -> Boolean<Self>;

    /// Returns `true` if the given Merkle path is valid for the given root and leaf.
    #[allow(clippy::ptr_arg)]
    fn verify_merkle_path_psd<const DEPTH: u8>(
        path: &MerklePath<Self, DEPTH>,
        root: &Field<Self>,
        leaf: &Vec<Field<Self>>,
    ) -> Boolean<Self>;
}