use std::fmt; use poulpy_hal::{ layouts::{Data, DataMut, DataRef, FillUniform, ReaderFrom, WriterTo, Zn, ZnToMut, ZnToRef, ZnxInfos}, source::Source, }; use crate::layouts::{Base2K, Degree, TorusPrecision}; use byteorder::{LittleEndian, ReadBytesExt, WriteBytesExt}; pub trait LWEInfos { fn n(&self) -> Degree; fn k(&self) -> TorusPrecision; fn max_k(&self) -> TorusPrecision { TorusPrecision(self.k().0 * self.size() as u32) } fn base2k(&self) -> Base2K; fn size(&self) -> usize { self.k().0.div_ceil(self.base2k().0) as usize } fn lwe_layout(&self) -> LWELayout { LWELayout { n: self.n(), k: self.k(), base2k: self.base2k(), } } } pub trait SetLWEInfos { fn set_k(&mut self, k: TorusPrecision); fn set_base2k(&mut self, base2k: Base2K); } #[derive(PartialEq, Eq, Copy, Clone, Debug)] pub struct LWELayout { pub n: Degree, pub k: TorusPrecision, pub base2k: Base2K, } impl LWEInfos for LWELayout { fn base2k(&self) -> Base2K { self.base2k } fn k(&self) -> TorusPrecision { self.k } fn n(&self) -> Degree { self.n } } #[derive(PartialEq, Eq, Clone)] pub struct LWE { pub(crate) data: Zn, pub(crate) k: TorusPrecision, pub(crate) base2k: Base2K, } impl LWEInfos for LWE { fn base2k(&self) -> Base2K { self.base2k } fn k(&self) -> TorusPrecision { self.k } fn n(&self) -> Degree { Degree(self.data.n() as u32 - 1) } fn size(&self) -> usize { self.data.size() } } impl SetLWEInfos for LWE { fn set_base2k(&mut self, base2k: Base2K) { self.base2k = base2k } fn set_k(&mut self, k: TorusPrecision) { self.k = k } } impl LWE { pub fn data(&self) -> &Zn { &self.data } } impl LWE { pub fn data_mut(&mut self) -> &Zn { &mut self.data } } impl fmt::Debug for LWE { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { write!(f, "{self}") } } impl fmt::Display for LWE { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { write!( f, "LWE: base2k={} k={}: {}", self.base2k().0, self.k().0, self.data ) } } impl FillUniform for LWE where Zn: FillUniform, { fn fill_uniform(&mut self, log_bound: usize, source: &mut Source) { self.data.fill_uniform(log_bound, source); } } impl LWE> { pub fn alloc_from_infos(infos: &A) -> Self where A: LWEInfos, { Self::alloc(infos.n(), infos.base2k(), infos.k()) } pub fn alloc(n: Degree, base2k: Base2K, k: TorusPrecision) -> Self { LWE { data: Zn::alloc((n + 1).into(), 1, k.0.div_ceil(base2k.0) as usize), k, base2k, } } pub fn bytes_of_from_infos(infos: &A) -> usize where A: LWEInfos, { Self::bytes_of(infos.n(), infos.base2k(), infos.k()) } pub fn bytes_of(n: Degree, base2k: Base2K, k: TorusPrecision) -> usize { Zn::bytes_of((n + 1).into(), 1, k.0.div_ceil(base2k.0) as usize) } } pub trait LWEToRef { fn to_ref(&self) -> LWE<&[u8]>; } impl LWEToRef for LWE { fn to_ref(&self) -> LWE<&[u8]> { LWE { k: self.k, base2k: self.base2k, data: self.data.to_ref(), } } } pub trait LWEToMut { #[allow(dead_code)] fn to_mut(&mut self) -> LWE<&mut [u8]>; } impl LWEToMut for LWE { fn to_mut(&mut self) -> LWE<&mut [u8]> { LWE { k: self.k, base2k: self.base2k, data: self.data.to_mut(), } } } impl ReaderFrom for LWE { fn read_from(&mut self, reader: &mut R) -> std::io::Result<()> { self.k = TorusPrecision(reader.read_u32::()?); self.base2k = Base2K(reader.read_u32::()?); self.data.read_from(reader) } } impl WriterTo for LWE { fn write_to(&self, writer: &mut W) -> std::io::Result<()> { writer.write_u32::(self.k.into())?; writer.write_u32::(self.base2k.into())?; self.data.write_to(writer) } }