snarkvm_circuit_program/data/plaintext/to_bits.rs
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// Copyright 2024 Aleo Network Foundation
// This file is part of the snarkVM library.
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at:
// http://www.apache.org/licenses/LICENSE-2.0
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
use super::*;
impl<A: Aleo> ToBits for Plaintext<A> {
type Boolean = Boolean<A>;
/// Returns this plaintext as a list of **little-endian** bits.
fn write_bits_le(&self, vec: &mut Vec<Boolean<A>>) {
match self {
Self::Literal(literal, bits_le) => {
// Compute the bits of the literal.
let bits = bits_le.get_or_init(|| {
let mut bits_le = Vec::new();
bits_le.extend([Boolean::constant(false), Boolean::constant(false)]); // Variant bit.
literal.variant().write_bits_le(&mut bits_le);
literal.size_in_bits().write_bits_le(&mut bits_le);
literal.write_bits_le(&mut bits_le);
bits_le.shrink_to_fit();
bits_le
});
// Extend the vector with the bits of the literal.
vec.extend_from_slice(bits);
}
Self::Struct(members, bits_le) => {
// Compute the bits of the struct.
let bits = bits_le.get_or_init(|| {
let mut bits_le = Vec::new();
bits_le.extend([Boolean::constant(false), Boolean::constant(true)]); // Variant bit.
U8::constant(console::U8::new(members.len() as u8)).write_bits_le(&mut bits_le);
for (identifier, value) in members {
let value_bits = value.to_bits_le();
identifier.size_in_bits().write_bits_le(&mut bits_le);
identifier.write_bits_le(&mut bits_le);
U16::constant(console::U16::new(value_bits.len() as u16)).write_bits_le(&mut bits_le);
bits_le.extend(value_bits);
}
bits_le.shrink_to_fit();
bits_le
});
// Extend the vector with the bits of the struct.
vec.extend_from_slice(bits);
}
Self::Array(elements, bits_le) => {
// Compute the bits of the array.
let bits = bits_le.get_or_init(|| {
let mut bits_le = Vec::new();
bits_le.extend([Boolean::constant(true), Boolean::constant(false)]); // Variant bit.
U32::constant(console::U32::new(elements.len() as u32)).write_bits_le(&mut bits_le);
for value in elements {
let value_bits = value.to_bits_le();
U16::constant(console::U16::new(value_bits.len() as u16)).write_bits_le(&mut bits_le);
bits_le.extend(value_bits);
}
bits_le.shrink_to_fit();
bits_le
});
// Extend the vector with the bits of the array.
vec.extend_from_slice(bits);
}
}
}
/// Returns this plaintext as a list of **big-endian** bits.
fn write_bits_be(&self, vec: &mut Vec<Boolean<A>>) {
match self {
Self::Literal(literal, bits_be) => {
// Compute the bits of the literal.
let bits = bits_be.get_or_init(|| {
let mut bits_be = Vec::new();
bits_be.extend([Boolean::constant(false), Boolean::constant(false)]); // Variant bit.
literal.variant().write_bits_be(&mut bits_be);
literal.size_in_bits().write_bits_be(&mut bits_be);
literal.write_bits_be(&mut bits_be);
bits_be.shrink_to_fit();
bits_be
});
// Extend the vector with the bits of the literal.
vec.extend_from_slice(bits);
}
Self::Struct(members, bits_be) => {
// Compute the bits of the struct.
let bits = bits_be.get_or_init(|| {
let mut bits_be = Vec::new();
bits_be.extend([Boolean::constant(false), Boolean::constant(true)]); // Variant bit.
U8::constant(console::U8::new(members.len() as u8)).write_bits_be(&mut bits_be);
for (identifier, value) in members {
let value_bits = value.to_bits_be();
identifier.size_in_bits().write_bits_be(&mut bits_be);
identifier.write_bits_be(&mut bits_be);
U16::constant(console::U16::new(value_bits.len() as u16)).write_bits_be(&mut bits_be);
bits_be.extend(value_bits);
}
bits_be.shrink_to_fit();
bits_be
});
// Extend the vector with the bits of the struct.
vec.extend_from_slice(bits)
}
Self::Array(elements, bits_be) => {
// Compute the bits of the array.
let bits = bits_be.get_or_init(|| {
let mut bits_be = Vec::new();
bits_be.extend([Boolean::constant(true), Boolean::constant(false)]); // Variant bit.
U32::constant(console::U32::new(elements.len() as u32)).write_bits_be(&mut bits_be);
for value in elements {
let value_bits = value.to_bits_be();
U16::constant(console::U16::new(value_bits.len() as u16)).write_bits_be(&mut bits_be);
bits_be.extend(value_bits);
}
bits_be.shrink_to_fit();
bits_be
});
// Extend the vector with the bits of the array.
vec.extend_from_slice(bits)
}
}
}
}