#![allow(non_snake_case)] #![allow(clippy::assertions_on_result_states)] extern crate flate2; extern crate libspartan; extern crate merlin; extern crate rand; use ark_serialize::*; use libspartan::parameters::poseidon_params; use libspartan::poseidon_transcript::PoseidonTranscript; use libspartan::{Instance, NIZK}; fn print(msg: &str) { let star = "* "; println!("{:indent$}{}{}", "", star, msg, indent = 2); } pub fn main() { // the list of number of variables (and constraints) in an R1CS instance let inst_sizes = vec![10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20]; println!("Profiler:: NIZK"); for &s in inst_sizes.iter() { let num_vars = (2_usize).pow(s as u32); let num_cons = num_vars; let num_inputs = 10; // produce a synthetic R1CSInstance let (inst, vars, inputs) = Instance::produce_synthetic_r1cs(num_cons, num_vars, num_inputs); // produce public generators // let gens = NIZKGens::new(num_cons, num_vars, num_inputs); let params = poseidon_params(); // produce a proof of satisfiability let mut prover_transcript = PoseidonTranscript::new(¶ms); let proof = NIZK::prove(&inst, vars, &inputs, &mut prover_transcript); let mut proof_encoded = Vec::new(); proof.serialize(&mut proof_encoded).unwrap(); let msg_proof_len = format!("NIZK::proof_compressed_len {:?}", proof_encoded.len()); print(&msg_proof_len); // verify the proof of satisfiability let mut verifier_transcript = PoseidonTranscript::new(¶ms); assert!(proof .verify(&inst, &inputs, &mut verifier_transcript) .is_ok()); println!(); } }