mirror of
https://github.com/arnaucube/poulpy.git
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90 lines
2.6 KiB
Rust
90 lines
2.6 KiB
Rust
use itertools::izip;
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use sampling::source::Source;
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use spqlios::module::{Module, FFT64, VECZNXBIG};
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use spqlios::poly::Poly;
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use spqlios::scalar::Scalar;
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fn main() {
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let n: usize = 16;
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let log_base2k: usize = 15;
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let prec: usize = 54;
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let log_scale: usize = 18;
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let module: Module = Module::new::<FFT64>(n);
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let mut carry: Vec<u8> = vec![0; module.vec_znx_big_normalize_tmp_bytes()];
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let seed: [u8; 32] = [0; 32];
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let mut source: Source = Source::new(seed);
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let mut res: Poly = Poly::new(n, log_base2k, prec);
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// Allocates a buffer to store DFT(s)
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module.new_svp_ppol();
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// s <- Z_{-1, 0, 1}[X]/(X^{N}+1)
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let mut s: Scalar = Scalar::new(n);
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s.fill_ternary_prob(0.5, &mut source);
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// Buffer to store s in the DFT domain
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let mut s_ppol: spqlios::module::SVPPOL = module.new_svp_ppol();
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// s_ppol <- DFT(s)
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module.svp_prepare(&mut s_ppol, &s);
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// a <- Z_{2^prec}[X]/(X^{N}+1)
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let mut a: Poly = Poly::new(n, log_base2k, prec);
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a.fill_uniform(&mut source);
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// Scratch space for DFT values
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let mut buf_dft: spqlios::module::VECZNXDFT = module.new_vec_znx_dft(a.limbs());
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// Applies buf_dft <- s * a
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module.svp_apply_dft(&mut buf_dft, &s_ppol, &a);
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// Alias scratch space
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let mut buf_big: spqlios::module::VECZNXBIG = buf_dft.as_vec_znx_big();
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// buf_big <- IDFT(buf_dft) (not normalized)
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module.vec_znx_idft_tmp_a(&mut buf_big, &mut buf_dft, a.limbs());
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let mut m: Poly = Poly::new(n, log_base2k, prec - log_scale);
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let mut want: Vec<i64> = vec![0; n];
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want.iter_mut()
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.for_each(|x| *x = source.next_u64n(16, 15) as i64);
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// m
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m.set_i64(&want, 4);
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m.normalize(&mut carry);
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// buf_big <- m - buf_big
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module.vec_znx_big_sub_small_a_inplace(&mut buf_big, &m);
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// b <- normalize(buf_big) + e
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let mut b: Poly = Poly::new(n, log_base2k, prec);
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module.vec_znx_big_normalize(&mut b, &buf_big, &mut carry);
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b.add_normal(&mut source, 3.2, 19.0);
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//Decrypt
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// buf_big <- a * s
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module.svp_apply_dft(&mut buf_dft, &s_ppol, &a);
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module.vec_znx_idft_tmp_a(&mut buf_big, &mut buf_dft, b.limbs());
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// buf_big <- a * s + b
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module.vec_znx_big_add_small_inplace(&mut buf_big, &b);
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// res <- normalize(buf_big)
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module.vec_znx_big_normalize(&mut res, &buf_big, &mut carry);
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// have = m * 2^{log_scale} + e
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let mut have: Vec<i64> = vec![i64::default(); n];
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res.get_i64(&mut have);
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let scale: f64 = (1 << log_scale) as f64;
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izip!(want.iter(), have.iter())
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.enumerate()
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.for_each(|(i, (a, b))| {
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println!("{}: {} {}", i, a, (*b as f64) / scale);
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})
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}
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