From 8798b435d3ea1fcbdbc5231ceb9014c4c02d0685 Mon Sep 17 00:00:00 2001 From: Jacob Jackson Date: Sat, 8 Oct 2022 00:28:15 +0000 Subject: [PATCH] strip out comments from original code --- plonky2_verifier/challenger.go | 60 ---------------------------------- 1 file changed, 60 deletions(-) diff --git a/plonky2_verifier/challenger.go b/plonky2_verifier/challenger.go index 3d60c83..f4c4e5e 100644 --- a/plonky2_verifier/challenger.go +++ b/plonky2_verifier/challenger.go @@ -12,12 +12,6 @@ type Challenger struct { output_buffer: []V } -// pub struct Challenger { -// sponge_state: [GoldilocksField; SPONGE_WIDTH], -// input_buffer: Vec, -// output_buffer: Vec -// } - func NewChallenger() Challenger { var sponge_state [SPONGE_WIDTH]V for i := 0; i < SPONGE_WIDTH; i++ { @@ -29,31 +23,16 @@ func NewChallenger() Challenger { output_buffer: []V{}, } } -// pub fn new() -> Challenger { -// return Challenger { -// sponge_state: [GoldilocksField::ZERO; SPONGE_WIDTH], -// input_buffer: Vec::with_capacity(SPONGE_RATE), -// output_buffer: Vec::with_capacity(SPONGE_RATE) -// }; -// } func (c *Challenger) observe_elements(elements []V) { for _, element := range elements { c.observe_element(element) } } -// pub fn observe_elements(&mut self, elements: &[GoldilocksField]) { -// for &element in elements { -// self.observe_element(element); -// } -// } func (c *Challenger) observe_hash(hash []V) { c.observe_elements(hash) } -// pub fn observe_hash(&mut self, hash: Vec) { -// self.observe_elements(&hash.to_vec()) -// } func (c *Challenger) observe_element(element V) { c.output_buffer = V[]{} @@ -62,24 +41,12 @@ func (c *Challenger) observe_element(element V) { c.duplexing() } } -// pub fn observe_element(&mut self, element: GoldilocksField) { -// self.output_buffer.clear(); -// self.input_buffer.push(element); -// if self.input_buffer.len() == SPONGE_RATE { -// self.duplexing(); -// } -// } func (c *Challenger) observe_cap(cap [][]V) { for _, hash := range cap { c.observe_hash(hash) } } -// pub fn observe_cap(&mut self, cap: &Vec>) { -// for hash in cap.into_iter() { -// self.observe_hash(hash.clone()); -// } -// } func (c *Challenger) duplexing() { if len(c.input_buffer) > SPONGE_RATE { panic("buffer too large") } @@ -93,19 +60,6 @@ func (c *Challenger) duplexing() { c.output_buffer = c.sponge_state[:SPONGE_RATE] } -// fn duplexing(&mut self) { -// assert!(self.input_buffer.len() <= SPONGE_RATE); - -// for (i, input) in self.input_buffer.drain(..).enumerate() { -// self.sponge_state[i] = input; -// } - -// self.sponge_state = poseidon(self.sponge_state); - -// self.output_buffer.clear(); -// self.output_buffer -// .extend_from_slice(&self.sponge_state[0..SPONGE_RATE]); -// } func (c *Challenger) get_challenge() V { if len(c.input_buffer) > 0 || len(c.output_buffer) == 0 { @@ -115,15 +69,6 @@ func (c *Challenger) get_challenge() V { c.output_buffer = c.output_buffer[:len(c.output_buffer) - 1] return result } -// pub fn get_challenge(&mut self) -> GoldilocksField { -// if !self.input_buffer.is_empty() || self.output_buffer.is_empty() { -// self.duplexing(); -// } - -// self.output_buffer -// .pop() -// .expect("Output buffer should be non-empty") -// } func (c *Challenger) get_n_challenges(n int) []V { result := make([]V, n) @@ -132,8 +77,3 @@ func (c *Challenger) get_n_challenges(n int) []V { } return result } -// pub fn get_n_challenges(&mut self, n: usize) -> Vec { -// (0..n).map(|_| self.get_challenge()).collect() -// } -// } -