From: Matt Corallo Date: Sat, 16 Dec 2023 17:42:35 +0000 (+0000) Subject: avoid float conversion in inner loop X-Git-Url: http://git.bitcoin.ninja/?a=commitdiff_plain;h=c907ad7abbe78c1bc5990dc234d027ac66cebcea;p=rust-lightning avoid float conversion in inner loop --- diff --git a/lightning/src/routing/scoring.rs b/lightning/src/routing/scoring.rs index c745bb42e..0274aed21 100644 --- a/lightning/src/routing/scoring.rs +++ b/lightning/src/routing/scoring.rs @@ -1125,22 +1125,21 @@ fn nonlinear_success_probability( #[inline(always)] fn bucket_nonlinear_success_probability( - amount_msat: u16, min_liquidity_msat: u16, max_liquidity_msat: u16, capacity_msat: u16, + amount_msat: f32, min_liquidity_msat: f32, max_liquidity_msat: f32, capacity_msat: f32, min_zero_implies_no_successes: bool, ) -> FourF32 { - let min_max_amt_max_msat = FourF32::from_ints( + let min_max_amt_max_msat = FourF32::new( min_liquidity_msat, max_liquidity_msat, amount_msat, max_liquidity_msat, ); - let capacity = capacity_msat as f32; - let cap_cap_cap_cap = FourF32::new(capacity, capacity, capacity, capacity); + let cap_cap_cap_cap = FourF32::new(capacity_msat, capacity_msat, capacity_msat, capacity_msat); nonlinear_success_probability_finish( min_max_amt_max_msat, cap_cap_cap_cap, - min_zero_implies_no_successes && min_liquidity_msat == 0, + min_zero_implies_no_successes && min_liquidity_msat == 0.0, ) } @@ -1581,7 +1580,7 @@ mod bucketed_history { // By default u16s may not be cache-aligned, but we'd rather not have to read a third cache // line just to access it - #[repr(align(128))] + #[repr(align(64))] struct BucketStartPos([u16; 32]); impl BucketStartPos { const fn new() -> Self { @@ -1598,6 +1597,26 @@ mod bucketed_history { } const BUCKET_START_POS: BucketStartPos = BucketStartPos::new(); + // By default f32s may not be cache-aligned, but we'd rather not have to read a third cache + // line just to access it + #[repr(align(128))] + struct FloatBucketStartPos([f32; 32]); + impl FloatBucketStartPos { + const fn new() -> Self { + Self([ + 0.0, 1.0, 3.0, 7.0, 15.0, 31.0, 63.0, 127.0, 255.0, 511.0, 1023.0, 2047.0, 3071.0, + 4095.0, 6143.0, 8191.0, 10239.0, 12287.0, 13311.0, 14335.0, 15359.0, 15871.0, 16127.0, + 16255.0, 16319.0, 16351.0, 16367.0, 16375.0, 16379.0, 16381.0, 16382.0, 16383.0, + ]) + } + } + impl core::ops::Index for FloatBucketStartPos { + type Output = f32; + #[inline(always)] + fn index(&self, index: usize) -> &f32 { &self.0[index] } + } + const FLOAT_BUCKET_START_POS: FloatBucketStartPos = FloatBucketStartPos::new(); + const LEGACY_TO_BUCKET_RANGE: [(u8, u8); 8] = [ (0, 12), (12, 14), (14, 15), (15, 16), (16, 17), (17, 18), (18, 20), (20, 32) ]; @@ -1626,6 +1645,7 @@ mod bucketed_history { for (bucket, width) in BUCKET_WIDTH_IN_16384S.iter().enumerate() { if bucket != 0 { assert_eq!(BUCKET_START_POS[bucket - 1] + 1, min_size_iter); + assert_eq!(FLOAT_BUCKET_START_POS[bucket - 1] + 1.0, min_size_iter as f32); } for i in 0..*width { assert_eq!(pos_to_bucket(min_size_iter + i) as usize, bucket); @@ -1640,6 +1660,7 @@ mod bucketed_history { } } assert_eq!(BUCKET_START_POS[31], POSITION_TICKS - 1); + assert_eq!(FLOAT_BUCKET_START_POS[31], POSITION_TICKS as f32 - 1.0); assert_eq!(min_size_iter, POSITION_TICKS); } @@ -1886,12 +1907,15 @@ mod bucketed_history { return None; } let total_points_tracked_float = total_valid_points_tracked as f32; + let payment_pos_float = payment_pos as f32; let mut cumulative_success_prob_times_billion = 0; let mut cumulative_success_prob_float = 0.0; let mut cumulative_success_points = 0; macro_rules! calculate_probability { - ($success_probability: ident, $accumulate_prob: ident) => { { + ($success_probability: ident, $accumulate_prob: ident, + $payment_pos: ident, $BUCKET_START_POS: ident, $MATH_TY: ty + ) => { { // Special-case the 0th min bucket - it generally means we failed a payment, so only // consider the highest (i.e. largest-offset-from-max-capacity) max bucket for all // points against the 0th min bucket. This avoids the case where we fail to route @@ -1908,10 +1932,10 @@ mod bucketed_history { } total_max_points += *max_bucket as u64; } - let max_bucket_end_pos = BUCKET_START_POS[31 - highest_max_bucket_with_points]; - if payment_pos < max_bucket_end_pos { - let success_probability = $success_probability(payment_pos, 0, - max_bucket_end_pos , POSITION_TICKS - 1, true); + let max_bucket_end_pos = $BUCKET_START_POS[31 - highest_max_bucket_with_points]; + if $payment_pos < max_bucket_end_pos { + let success_probability = $success_probability($payment_pos, 0 as $MATH_TY, + max_bucket_end_pos, (POSITION_TICKS - 1) as $MATH_TY, true); let bucket_points = (min_liquidity_offset_history_buckets[0] as u64) * total_max_points; $accumulate_prob(success_probability, bucket_points); @@ -1919,8 +1943,13 @@ mod bucketed_history { } for (min_idx, min_bucket) in min_liquidity_offset_history_buckets.iter().enumerate().skip(1) { - let min_bucket_start_pos = min_idx.checked_sub(1).map(|idx| BUCKET_START_POS[idx] + 1).unwrap_or(0); - if payment_pos < min_bucket_start_pos { + const ONE: $MATH_TY = 1 as $MATH_TY; + let min_bucket_start_pos = min_idx.checked_sub(1) + .map(|idx| $BUCKET_START_POS[idx] + ONE).unwrap_or(0 as $MATH_TY); + let int_min_bucket_start_pos = min_idx.checked_sub(1) + .map(|idx| BUCKET_START_POS[idx] + 1).unwrap_or(0); + + if payment_pos < int_min_bucket_start_pos { for (max_idx, max_bucket) in max_liquidity_offset_history_buckets.iter().enumerate().take(32 - min_idx) { let max_bucket_end_pos = BUCKET_START_POS[31 - max_idx]; if payment_pos >= max_bucket_end_pos { @@ -1931,14 +1960,14 @@ mod bucketed_history { } } else { for (max_idx, max_bucket) in max_liquidity_offset_history_buckets.iter().enumerate().take(32 - min_idx) { - let max_bucket_end_pos = BUCKET_START_POS[31 - max_idx]; - if payment_pos >= max_bucket_end_pos { + let max_bucket_end_pos = $BUCKET_START_POS[31 - max_idx]; + if $payment_pos >= max_bucket_end_pos { // Success probability 0, the payment amount may be above the max liquidity break; } - let success_probability = $success_probability(payment_pos, + let success_probability = $success_probability($payment_pos, min_bucket_start_pos, max_bucket_end_pos, - POSITION_TICKS - 1, true); + (POSITION_TICKS - 1) as $MATH_TY, true); // Note that this multiply can only barely not overflow - two 16 bit ints plus // 30 bits is 62 bits. let bucket_points = (*min_bucket as u32) * (*max_bucket as u32); @@ -1959,7 +1988,9 @@ mod bucketed_history { * numerator / denominator; 0.0 }; - calculate_probability!(success_prob_u64s, int_success_prob); + calculate_probability!( + success_prob_u64s, int_success_prob, payment_pos, BUCKET_START_POS, u16 + ); } else { let mut float_success_prob = |zero_zero_den_num: FourF32, bucket_points: u64| { let zero_zero_total_points = FourF32::new(0.0f32, 0.0f32, total_points_tracked_float, bucket_points as f32); @@ -1967,7 +1998,10 @@ mod bucketed_history { let res = zero_zero_rden_rnum.dump(); cumulative_success_prob_float += res.3 / res.2; }; - calculate_probability!(bucket_nonlinear_success_probability, float_success_prob); + calculate_probability!( + bucket_nonlinear_success_probability, float_success_prob, + payment_pos_float, FLOAT_BUCKET_START_POS, f32 + ); } // Once we've added all 32*32/2 32-bit success points together, we may have up to 42