Files
pezkuwi-subxt/substrate/primitives/phragmen/compact/src/staked.rs
T
Kian Paimani 762c741c55 Clean Phragmén Equlise API (#5452)
* Clean phragmen API and equalise()

* Stabilize new api

* Fix phragmen fuzzers

* More fixes

* Make fuzzers reproducible

* improvements

* Make equalize update assignments as well.

* total function for staked_assignment.

* Fix fuzzer build

* remvoe TODO

* Fix a bunch more.

* clean stray debug stuff

* Update primitives/phragmen/src/lib.rs

Co-Authored-By: thiolliere <gui.thiolliere@gmail.com>

* fix range function

* fix number generator

Co-authored-by: thiolliere <gui.thiolliere@gmail.com>
2020-04-17 09:53:30 +02:00

210 lines
6.1 KiB
Rust

// Copyright 2020 Parity Technologies (UK) Ltd.
// This file is part of Substrate.
// Substrate is free software: you can redistribute it and/or modify
// it under the terms of the GNU General Public License as published by
// the Free Software Foundation, either version 3 of the License, or
// (at your option) any later version.
// Substrate is distributed in the hope that it will be useful,
// but WITHOUT ANY WARRANTY; without even the implied warranty of
// MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
// GNU General Public License for more details.
// You should have received a copy of the GNU General Public License
// along with Substrate. If not, see <http://www.gnu.org/licenses/>.
//! Code generation for the staked assignment type.
use crate::field_name_for;
use proc_macro2::{TokenStream as TokenStream2};
use syn::{GenericArgument};
use quote::quote;
fn from_impl(count: usize) -> TokenStream2 {
let from_impl_single = {
let name = field_name_for(1);
quote!(1 => compact.#name.push(
(
index_of_voter(&who).ok_or(_phragmen::Error::CompactInvalidIndex)?,
index_of_target(&distribution[0].0).ok_or(_phragmen::Error::CompactInvalidIndex)?,
)
),)
};
let from_impl_double = {
let name = field_name_for(2);
quote!(2 => compact.#name.push(
(
index_of_voter(&who).ok_or(_phragmen::Error::CompactInvalidIndex)?,
(
index_of_target(&distribution[0].0).ok_or(_phragmen::Error::CompactInvalidIndex)?,
distribution[0].1,
),
index_of_target(&distribution[1].0).ok_or(_phragmen::Error::CompactInvalidIndex)?,
)
),)
};
let from_impl_rest = (3..=count).map(|c| {
let inner = (0..c-1).map(|i|
quote!((index_of_target(&distribution[#i].0).ok_or(_phragmen::Error::CompactInvalidIndex)?, distribution[#i].1),)
).collect::<TokenStream2>();
let field_name = field_name_for(c);
let last_index = c - 1;
let last = quote!(index_of_target(&distribution[#last_index].0).ok_or(_phragmen::Error::CompactInvalidIndex)?);
quote!(
#c => compact.#field_name.push((index_of_voter(&who).ok_or(_phragmen::Error::CompactInvalidIndex)?, [#inner], #last)),
)
}).collect::<TokenStream2>();
quote!(
#from_impl_single
#from_impl_double
#from_impl_rest
)
}
fn into_impl(count: usize) -> TokenStream2 {
let into_impl_single = {
let name = field_name_for(1);
quote!(
for (voter_index, target_index) in self.#name {
let who = voter_at(voter_index).ok_or(_phragmen::Error::CompactInvalidIndex)?;
let all_stake: u128 = max_of(&who).into();
assignments.push(_phragmen::StakedAssignment {
who,
distribution: vec![(target_at(target_index).ok_or(_phragmen::Error::CompactInvalidIndex)?, all_stake)],
})
}
)
};
let into_impl_double = {
let name = field_name_for(2);
quote!(
for (voter_index, (t1_idx, w1), t2_idx) in self.#name {
let who = voter_at(voter_index).ok_or(_phragmen::Error::CompactInvalidIndex)?;
let all_stake: u128 = max_of(&who).into();
if w1 >= all_stake {
return Err(_phragmen::Error::CompactStakeOverflow);
}
// w2 is ensured to be positive.
let w2 = all_stake - w1;
assignments.push( _phragmen::StakedAssignment {
who,
distribution: vec![
(target_at(t1_idx).ok_or(_phragmen::Error::CompactInvalidIndex)?, w1),
(target_at(t2_idx).ok_or(_phragmen::Error::CompactInvalidIndex)?, w2),
]
});
}
)
};
let into_impl_rest = (3..=count).map(|c| {
let name = field_name_for(c);
quote!(
for (voter_index, inners, t_last_idx) in self.#name {
let who = voter_at(voter_index).ok_or(_phragmen::Error::CompactInvalidIndex)?;
let mut sum = u128::min_value();
let all_stake: u128 = max_of(&who).into();
let mut inners_parsed = inners
.iter()
.map(|(ref t_idx, w)| {
sum = sum.saturating_add(*w);
let target = target_at(*t_idx).ok_or(_phragmen::Error::CompactInvalidIndex)?;
Ok((target, *w))
}).collect::<Result<Vec<(A, u128)>, _phragmen::Error>>()?;
if sum >= all_stake {
return Err(_phragmen::Error::CompactStakeOverflow);
}
// w_last is proved to be positive.
let w_last = all_stake - sum;
inners_parsed.push((target_at(t_last_idx).ok_or(_phragmen::Error::CompactInvalidIndex)?, w_last));
assignments.push(_phragmen::StakedAssignment {
who,
distribution: inners_parsed,
});
}
)
}).collect::<TokenStream2>();
quote!(
#into_impl_single
#into_impl_double
#into_impl_rest
)
}
pub(crate) fn staked(
ident: syn::Ident,
voter_type: GenericArgument,
target_type: GenericArgument,
count: usize,
) -> TokenStream2 {
let from_impl = from_impl(count);
let into_impl = into_impl(count);
quote!(
impl<
#voter_type: _phragmen::codec::Codec + Default + Copy,
#target_type: _phragmen::codec::Codec + Default + Copy,
>
#ident<#voter_type, #target_type, u128>
{
/// Generate self from a vector of `StakedAssignment`.
pub fn from_staked<FV, FT, A>(
assignments: Vec<_phragmen::StakedAssignment<A>>,
index_of_voter: FV,
index_of_target: FT,
) -> Result<Self, _phragmen::Error>
where
for<'r> FV: Fn(&'r A) -> Option<#voter_type>,
for<'r> FT: Fn(&'r A) -> Option<#target_type>,
A: _phragmen::IdentifierT
{
let mut compact: #ident<#voter_type, #target_type, u128> = Default::default();
for _phragmen::StakedAssignment { who, distribution } in assignments {
match distribution.len() {
0 => continue,
#from_impl
_ => {
return Err(_phragmen::Error::CompactTargetOverflow);
}
}
};
Ok(compact)
}
/// Convert self into `StakedAssignment`. The given function should return the total
/// weight of a voter. It is used to subtract the sum of all the encoded weights to
/// infer the last one.
pub fn into_staked<FM, A>(
self,
max_of: FM,
voter_at: impl Fn(#voter_type) -> Option<A>,
target_at: impl Fn(#target_type) -> Option<A>,
)
-> Result<Vec<_phragmen::StakedAssignment<A>>, _phragmen::Error>
where
for<'r> FM: Fn(&'r A) -> u64,
A: _phragmen::IdentifierT,
{
let mut assignments: Vec<_phragmen::StakedAssignment<A>> = Default::default();
#into_impl
Ok(assignments)
}
}
)
}