* feat: start hypernova nimfs verifier
* refactor: change where nimfs verifier lives
* feat: `EqEvalGadget` for computing `eq(x, y)`
* refactor: rename to `utils.rs`
* feat: implement a `VecFpVar` struct, representing a vector of `FpVar`s
* refactor: extract a `sum_muls_gamma_pows_eq_sigma` function to make circuit tests easier
* feat: implement a `SumMulsGammaPowEqSigmaGadget` to compute the first term of the sum of section 5, step 5
* refactor: update gadget name and method name to match `sum_muls_gamma_pows_eq_sigma`
* fix: update method call
* refactor: remove usage of `GammaVar`
Co-authored-by: arnaucube <root@arnaucube.com>
* refactor: move hypernova circuit related types and methods into `src/folding/hypernova/circuits.rs`
* refactor: remove all of `GammaVar` wrapper
* chore: update type to `&[F]`
* refactor: update from `new_constant` to `new_witness`
* fix: actual file deletion
* refactor: remove `VecFpVar` struct
* chore: update comment doc
* refactor: extract a `sum_ci_mul_prod_thetaj` function for testing
* feat: `test_sum_ci_mul_prod_thetaj_gadget` passing
* refactor: update docs and add a helper `get_prepared_thetas` function
* refactor: clearer arg name
* fix: clippy typing
* chore: correct latex comments
* refactor: remove unncessary `get_prepared_thetas` fn
* feat: test passing for rough first pass on `ComputeCFromSigmasAndThetasGadget`
* chore: add additional doc comments
* chore: add `#[allow(clippy::too_many_arguments)]`
* refactor: make gadget generic over a curve group
* chore: clippy fixes
* chore: correct latex in doc comment
* refactor: refactor `sum_muls_gamma_pows_eq_sigma` and `sum_ci_mul_prod_thetaj` in `ComputeCFromSigmasAndThetasGadget`
---------
Co-authored-by: arnaucube <root@arnaucube.com>
This is to be able to instantiate the CycleFoldCircuit over Curve2
constraint field, and check it's RelaxedR1CS relation non-natively
inside the Curve1 constraint field, while reusing the same code that we
already have for checking the main circuit RelaxedR1CS over Curve1
constraint field natively.
Port ProtoGalaxy initial version from
https://github.com/arnaucube/protogalaxy-poc adapting it to the current
folding-schemes lib, which is a first iteration that implements the
Lagrange-basis version from
[ProtoGalaxy](https://eprint.iacr.org/2023/1106) folding scheme. There
are some pending optimizations, but is a first step towards integrating
ProtoGalaxy in the library.
* Implement Nova IVC's new & prove_step methods
Implement Nova IVC's new & prove_step methods (without CycleFold part yet)
* transcript.absorb_point err handling, and update C.xy() usage
* add transcript usage to IVC prove, add NovaTranscript trait extending Transcript trait, refactor NIFS.P to allow absorbing in transcript inbetween
* Implement Nova's IVC.V method (without CycleFold part yet)
* clippy lints
* move challenge r computation in-circuit
* reuse computed points with coordinates over CF (non-native) to save constraints in AugmentedFCircuit
(constraint count went down ~6k)
* rm 128 bit constant
* add params to Errors
* Updates from review suggestions. Additionally refactored nova/nifs fold, and rm transcript from nova/IVC.
- Updates from PR suggestions
- Additionally updated:
- in nova/nifs.rs: reuse folded_committed_instance for verify_folded_instance, computationally is the same, but reusing the same code so avoiding duplication and having an error on one of the two versions.
- in nova/ivc.rs: remove transcript from IVC (not needed, it uses the RO)
* impl AugmentedFCircuit non-base case
* add multiple iterations to AugmentedFCircuit test
* implement base case on AugmentedFCircuit and test
* Update cmE of E=0-vec to work as zero point
Update cmE of E=0-vec to work as zero point instead of as cm(0-vec)
* patch r1cs-std dep to a cherry-picked version with the zero-scalar-mult fix
* refactor FCircuit to make it more suitable inside the AugmentedFCircuit
* r1cs_parser
* z vector calculation
* test function done
* improved
* Brushuped
* add comment
* Added description of test_circuit
* found mistake
* fixed cargo.toml
* Imported ark-circom as crate
* improved l in R1CS as the number of public I/O
* separate test functions into success/failure and unify variable to pub_io_len
* removed bn254 & abstracted to PrimeField, but still some work
* add comments and clean up code
* move ark-bn254 in dev-dependencies
* abstracted test function
* fixed github action's error
* cargo fmt
* remove convert_constraints_bigint_to_scalar function
* fixed n_cols
* fixed n_cols
* Add functionality to compile Circom files in tests
* Remove test_circuit.r1cs
* Introduce CircomFrontend trait and simplify with CircomWrapper struct
* deleted the CircomFrontend
* improved
* fixed clippy lint checks of github actions
* probably fixed github actions error by changing the github yaml
* fixed github yaml, fmt, and clippy
---------
Co-authored-by: Carlos Pérez <37264926+CPerezz@users.noreply.github.com>
* Port HyperNova's multifolding from https://github.com/privacy-scaling-explorations/multifolding-poc adapting and refactoring some of its methods and structs.
Note: adapted mle.rs methods from dense to sparse repr.
Co-authored-by: George Kadianakis <desnacked@riseup.net>
* HyperNova: move CCS struct outside of LCCCS & CCCS
HyperNova nimfs: move CCS structure outside of LCCCS & CCCS, to avoid
carrying around the whole CCS and duplicating data when is not needed.
Also add feature flags for the folding schemes.
---------
Co-authored-by: George Kadianakis <desnacked@riseup.net>
- Add naive decider circuit `RelaxedR1CSGadget`, which in-circuit checks
that the given z satisfies the given RelaxedR1CS instance
- Add method to relax the R1CS instance
- Add check_relation (for testing only) to R1CS & RelaxedR1CS
- Migrate from own SparseMatrix to use ark_relations::r1cs::Matrix
- Add frontend helper to use arkworks circuits
* Implement Nova's NIFS.Verify circuits (with CycleFold)
- Add circuit for NIFS.Verify on the main curve to check the folded `u`
& `x`
- Add circuit for NIFS.Verify on the CycleFold's auxiliary curve to
check the folded `cm(E)` & `cm(W)`
- Add transcript.get_challenge_nbits
- Add tests for utils::vec.rs
* replace bls12-377 & bw6-761 by pallas & vesta curves (only affects tests)
We will use pallas & vesta curves (for tests only, the non-tests code
uses generics) for the logic that does not require pairings, and while
Grumpkin is not available
(https://github.com/privacy-scaling-explorations/folding-schemes/issues/12).
* update links to papers to markdown style
Port Espresso/hyperplonk's `virtualpolynomial`, `multilinearpolynomial`
and `sum_check` utils from
https://github.com/EspressoSystems/hyperplonk/tree/main
Each file contains the reference to the original file.
Porting it into a subdirectory `src/utils/espresso`, to have it
self-contained. In future iterations we might replace part of it but we
can keep focusing on the folding schemes part for now.
* feat: draft traits `FoldingScheme` and `Decider`
Co-authored-by: arnaucube <root@arnaucube.com>
* Add Transcript trait, with PoseidonTranscript impl (#1)
Add also the PoseidonTranscriptVar (gadget).
* Update FoldingScheme trait to take C1 & C2 as params (#2)
* Update FoldingScheme trait to take C1 & C2 as params
Update FoldingScheme trait to take C1 & C2 as params which are used by
the diverse folding schemes as a cycle of curves.
* Add constraint to FoldingScheme C1,C2 fields swap.
Co-authored-by: Han <tinghan0110@gmail.com>
---------
Co-authored-by: Han <tinghan0110@gmail.com>
* move transcript to it's own mod
---------
Co-authored-by: han0110 <tinghan0110@gmail.com>
Pierre
arnaucube
Y5
ashWhiteHat
arnaucube
Han