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// Copyright (C) 2019-2022 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/>.

use super::*;

impl<N: Network> Literal<N> {
    /// Initializes a new literal from a list of little-endian bits *without* trailing zeros.
    pub fn from_bits_le(variant: u8, bits_le: &[bool]) -> Result<Self> {
        let literal = bits_le;
        let literal = match variant {
            0 => Literal::Address(Address::new(Group::from_x_coordinate(Field::<N>::from_bits_le(literal)?)?)),
            1 => match bits_le.len() {
                1 => Literal::Boolean(Boolean::new(literal[0])),
                _ => bail!("Expected a boolean literal, but found a list of {} bits.", bits_le.len()),
            },
            2 => Literal::Field(Field::from_bits_le(literal)?),
            3 => Literal::Group(Group::from_bits_le(literal)?),
            4 => Literal::I8(I8::from_bits_le(literal)?),
            5 => Literal::I16(I16::from_bits_le(literal)?),
            6 => Literal::I32(I32::from_bits_le(literal)?),
            7 => Literal::I64(I64::from_bits_le(literal)?),
            8 => Literal::I128(I128::from_bits_le(literal)?),
            9 => Literal::U8(U8::from_bits_le(literal)?),
            10 => Literal::U16(U16::from_bits_le(literal)?),
            11 => Literal::U32(U32::from_bits_le(literal)?),
            12 => Literal::U64(U64::from_bits_le(literal)?),
            13 => Literal::U128(U128::from_bits_le(literal)?),
            14 => Literal::Scalar(Scalar::from_bits_le(literal)?),
            15 => {
                let buffer = Vec::<u8>::from_bits_le(literal)?;
                match buffer.len() <= N::MAX_STRING_BYTES as usize {
                    true => {
                        let string = String::from_utf8(buffer).map_err(|e| error(format!("{e}")))?;
                        Self::String(StringType::new(&string))
                    }
                    false => bail!("String literal exceeds maximum length of {} bytes.", N::MAX_STRING_BYTES),
                }
            }
            16.. => bail!("Failed to initialize literal variant {} from bits (LE)", variant),
        };
        Ok(literal)
    }

    /// Initializes a new literal from a list of big-endian bits *without* leading zeros.
    pub fn from_bits_be(variant: u8, bits_be: &[bool]) -> Result<Self> {
        let literal = bits_be;
        let literal = match variant {
            0 => Literal::Address(Address::new(Group::from_x_coordinate(Field::from_bits_be(literal)?)?)),
            1 => match bits_be.len() {
                1 => Literal::Boolean(Boolean::new(literal[0])),
                _ => bail!("Expected a boolean literal, but found a list of {} bits.", bits_be.len()),
            },
            2 => Literal::Field(Field::from_bits_be(literal)?),
            3 => Literal::Group(Group::from_bits_be(literal)?),
            4 => Literal::I8(I8::from_bits_be(literal)?),
            5 => Literal::I16(I16::from_bits_be(literal)?),
            6 => Literal::I32(I32::from_bits_be(literal)?),
            7 => Literal::I64(I64::from_bits_be(literal)?),
            8 => Literal::I128(I128::from_bits_be(literal)?),
            9 => Literal::U8(U8::from_bits_be(literal)?),
            10 => Literal::U16(U16::from_bits_be(literal)?),
            11 => Literal::U32(U32::from_bits_be(literal)?),
            12 => Literal::U64(U64::from_bits_be(literal)?),
            13 => Literal::U128(U128::from_bits_be(literal)?),
            14 => Literal::Scalar(Scalar::from_bits_be(literal)?),
            15 => {
                let buffer = Vec::<u8>::from_bits_be(literal)?;
                match buffer.len() <= N::MAX_STRING_BYTES as usize {
                    true => {
                        let string = String::from_utf8(buffer).map_err(|e| error(format!("{e}")))?;
                        Self::String(StringType::new(&string))
                    }
                    false => bail!("String literal exceeds maximum length of {} bytes.", N::MAX_STRING_BYTES),
                }
            }
            16.. => bail!("Failed to initialize literal variant {} from bits (BE)", variant),
        };
        Ok(literal)
    }
}

#[cfg(test)]
mod tests {
    use super::*;
    use snarkvm_console_network::Testnet3;

    type CurrentNetwork = Testnet3;

    const ITERATIONS: u32 = 1000;

    fn check_serialization(expected: Literal<CurrentNetwork>) -> Result<()> {
        println!("{}", expected);
        assert_eq!(expected, Literal::from_bits_le(expected.variant(), &expected.to_bits_le())?);
        assert_eq!(expected, Literal::from_bits_be(expected.variant(), &expected.to_bits_be())?);
        Ok(())
    }

    #[test]
    fn test_from_bits() -> Result<()> {
        let rng = &mut TestRng::default();

        for _ in 0..ITERATIONS {
            let private_key = snarkvm_console_account::PrivateKey::<CurrentNetwork>::new(rng)?;

            // Address
            check_serialization(Literal::<CurrentNetwork>::Address(Address::try_from(private_key)?))?;
            // Boolean
            check_serialization(Literal::<CurrentNetwork>::Boolean(Boolean::new(Uniform::rand(rng))))?;
            // Field
            check_serialization(Literal::<CurrentNetwork>::Field(Uniform::rand(rng)))?;
            // Group
            check_serialization(Literal::<CurrentNetwork>::Group(Uniform::rand(rng)))?;
            // I8
            check_serialization(Literal::<CurrentNetwork>::I8(I8::new(Uniform::rand(rng))))?;
            // I16
            check_serialization(Literal::<CurrentNetwork>::I16(I16::new(Uniform::rand(rng))))?;
            // I32
            check_serialization(Literal::<CurrentNetwork>::I32(I32::new(Uniform::rand(rng))))?;
            // I64
            check_serialization(Literal::<CurrentNetwork>::I64(I64::new(Uniform::rand(rng))))?;
            // I128
            check_serialization(Literal::<CurrentNetwork>::I128(I128::new(Uniform::rand(rng))))?;
            // U8
            check_serialization(Literal::<CurrentNetwork>::U8(U8::new(Uniform::rand(rng))))?;
            // U16
            check_serialization(Literal::<CurrentNetwork>::U16(U16::new(Uniform::rand(rng))))?;
            // U32
            check_serialization(Literal::<CurrentNetwork>::U32(U32::new(Uniform::rand(rng))))?;
            // U64
            check_serialization(Literal::<CurrentNetwork>::U64(U64::new(Uniform::rand(rng))))?;
            // U128
            check_serialization(Literal::<CurrentNetwork>::U128(U128::new(Uniform::rand(rng))))?;
            // Scalar
            check_serialization(Literal::<CurrentNetwork>::Scalar(Uniform::rand(rng)))?;
            // String
            // Sample a random string. Take 1/4th to ensure we fit for all code points.
            let string = rng.next_string(CurrentNetwork::MAX_STRING_BYTES / 4, false);
            check_serialization(Literal::<CurrentNetwork>::String(StringType::new(&string)))?;
        }
        Ok(())
    }
}