plonky2/evm/src/cpu/kernel/tests/bn254.rs

use anyhow::Result;
use ethereum_types::U256;
use rand::Rng;

use crate::cpu::kernel::interpreter::{
    run_interpreter_with_memory, Interpreter, InterpreterMemoryInitialization,
};
use crate::curve_pairings::{
    bn_final_exponent, bn_miller_loop, gen_bn_fp12_sparse, Curve, CyclicGroup,
};
use crate::extension_tower::{FieldExt, Fp12, Fp2, Fp6, Stack, BN254};
use crate::memory::segments::Segment::BnPairing;

fn extract_stack(interpreter: Interpreter<'static>) -> Vec<U256> {
    interpreter
        .stack()
        .iter()
        .rev()
        .cloned()
        .collect::<Vec<U256>>()
}

fn run_bn_mul_fp6(f: Fp6<BN254>, g: Fp6<BN254>, label: &str) -> Vec<U256> {
    let mut stack = f.on_stack();
    if label == "mul_fp254_6" {
        stack.extend(g.on_stack());
    }
    stack.push(U256::from(0xdeadbeefu32));

    let setup = InterpreterMemoryInitialization {
        label: label.to_string(),
        stack,
        segment: BnPairing,
        memory: vec![],
    };
    let interpreter = run_interpreter_with_memory(setup).unwrap();
    extract_stack(interpreter)
}

#[test]
fn test_bn_mul_fp6() -> Result<()> {
    let mut rng = rand::thread_rng();
    let f: Fp6<BN254> = rng.gen::<Fp6<BN254>>();
    let g: Fp6<BN254> = rng.gen::<Fp6<BN254>>();

    let out_normal: Vec<U256> = run_bn_mul_fp6(f, g, "mul_fp254_6");
    let out_square: Vec<U256> = run_bn_mul_fp6(f, f, "square_fp254_6");

    let exp_normal: Vec<U256> = (f * g).on_stack();
    let exp_square: Vec<U256> = (f * f).on_stack();

    assert_eq!(out_normal, exp_normal);
    assert_eq!(out_square, exp_square);

    Ok(())
}

fn run_bn_mul_fp12(f: Fp12<BN254>, g: Fp12<BN254>, label: &str) -> Vec<U256> {
    let in0: usize = 100;
    let in1: usize = 112;
    let out: usize = 124;

    let mut stack = vec![
        U256::from(in0),
        U256::from(in1),
        U256::from(out),
        U256::from(0xdeadbeefu32),
    ];
    if label == "square_fp254_12" {
        stack.remove(0);
    }

    let setup = InterpreterMemoryInitialization {
        label: label.to_string(),
        stack,
        segment: BnPairing,
        memory: vec![(in0, f.on_stack()), (in1, g.on_stack())],
    };
    let interpreter = run_interpreter_with_memory(setup).unwrap();
    interpreter.extract_kernel_memory(BnPairing, out..out + 12)
}

#[test]
fn test_bn_mul_fp12() -> Result<()> {
    let mut rng = rand::thread_rng();
    let f: Fp12<BN254> = rng.gen::<Fp12<BN254>>();
    let g: Fp12<BN254> = rng.gen::<Fp12<BN254>>();
    let h: Fp12<BN254> = gen_bn_fp12_sparse(&mut rng);

    let out_normal: Vec<U256> = run_bn_mul_fp12(f, g, "mul_fp254_12");
    let out_sparse: Vec<U256> = run_bn_mul_fp12(f, h, "mul_fp254_12_sparse");
    let out_square: Vec<U256> = run_bn_mul_fp12(f, f, "square_fp254_12");

    let exp_normal: Vec<U256> = (f * g).on_stack();
    let exp_sparse: Vec<U256> = (f * h).on_stack();
    let exp_square: Vec<U256> = (f * f).on_stack();

    assert_eq!(out_normal, exp_normal);
    assert_eq!(out_sparse, exp_sparse);
    assert_eq!(out_square, exp_square);

    Ok(())
}

fn run_bn_frob_fp6(f: Fp6<BN254>, n: usize) -> Vec<U256> {
    let setup = InterpreterMemoryInitialization {
        label: format!("test_frob_fp254_6_{}", n),
        stack: f.on_stack(),
        segment: BnPairing,
        memory: vec![],
    };
    let interpreter = run_interpreter_with_memory(setup).unwrap();
    extract_stack(interpreter)
}

#[test]
fn test_bn_frob_fp6() -> Result<()> {
    let mut rng = rand::thread_rng();
    let f: Fp6<BN254> = rng.gen::<Fp6<BN254>>();
    for n in 1..4 {
        let output: Vec<U256> = run_bn_frob_fp6(f, n);
        let expected: Vec<U256> = f.frob(n).on_stack();
        assert_eq!(output, expected);
    }
    Ok(())
}

fn run_bn_frob_fp12(f: Fp12<BN254>, n: usize) -> Vec<U256> {
    let ptr: usize = 100;
    let setup = InterpreterMemoryInitialization {
        label: format!("test_frob_fp254_12_{}", n),
        stack: vec![U256::from(ptr)],
        segment: BnPairing,
        memory: vec![(ptr, f.on_stack())],
    };
    let interpreter = run_interpreter_with_memory(setup).unwrap();
    interpreter.extract_kernel_memory(BnPairing, ptr..ptr + 12)
}

#[test]
fn test_bn_frob_fp12() -> Result<()> {
    let mut rng = rand::thread_rng();
    let f: Fp12<BN254> = rng.gen::<Fp12<BN254>>();

    for n in [1, 2, 3, 6] {
        let output = run_bn_frob_fp12(f, n);
        let expected: Vec<U256> = f.frob(n).on_stack();
        assert_eq!(output, expected);
    }
    Ok(())
}

#[test]
fn test_bn_inv_fp12() -> Result<()> {
    let ptr: usize = 100;
    let inv: usize = 112;
    let mut rng = rand::thread_rng();
    let f: Fp12<BN254> = rng.gen::<Fp12<BN254>>();

    let setup = InterpreterMemoryInitialization {
        label: "inv_fp254_12".to_string(),
        stack: vec![U256::from(ptr), U256::from(inv), U256::from(0xdeadbeefu32)],
        segment: BnPairing,
        memory: vec![(ptr, f.on_stack())],
    };
    let interpreter: Interpreter = run_interpreter_with_memory(setup).unwrap();
    let output: Vec<U256> = interpreter.extract_kernel_memory(BnPairing, inv..inv + 12);
    let expected: Vec<U256> = f.inv().on_stack();

    assert_eq!(output, expected);

    Ok(())
}

#[test]
fn test_bn_final_exponent() -> Result<()> {
    let ptr: usize = 100;

    let mut rng = rand::thread_rng();
    let f: Fp12<BN254> = rng.gen::<Fp12<BN254>>();

    let setup = InterpreterMemoryInitialization {
        label: "bn254_final_exponent".to_string(),
        stack: vec![
            U256::zero(),
            U256::zero(),
            U256::from(ptr),
            U256::from(0xdeadbeefu32),
        ],
        segment: BnPairing,
        memory: vec![(ptr, f.on_stack())],
    };

    let interpreter: Interpreter = run_interpreter_with_memory(setup).unwrap();
    let output: Vec<U256> = interpreter.extract_kernel_memory(BnPairing, ptr..ptr + 12);
    let expected: Vec<U256> = bn_final_exponent(f).on_stack();

    assert_eq!(output, expected);

    Ok(())
}

#[test]
fn test_bn_miller() -> Result<()> {
    let ptr: usize = 100;
    let out: usize = 106;

    let mut rng = rand::thread_rng();
    let p: Curve<BN254> = rng.gen::<Curve<BN254>>();
    let q: Curve<Fp2<BN254>> = rng.gen::<Curve<Fp2<BN254>>>();

    let mut input = p.on_stack();
    input.extend(q.on_stack());

    let setup = InterpreterMemoryInitialization {
        label: "bn254_miller".to_string(),
        stack: vec![U256::from(ptr), U256::from(out), U256::from(0xdeadbeefu32)],
        segment: BnPairing,
        memory: vec![(ptr, input)],
    };
    let interpreter = run_interpreter_with_memory(setup).unwrap();
    let output: Vec<U256> = interpreter.extract_kernel_memory(BnPairing, out..out + 12);
    let expected = bn_miller_loop(p, q).on_stack();

    assert_eq!(output, expected);

    Ok(())
}

#[test]
fn test_bn_pairing() -> Result<()> {
    let out: usize = 100;
    let ptr: usize = 112;

    let mut rng = rand::thread_rng();
    let k: usize = rng.gen_range(1..10);
    let mut acc: i32 = 0;
    let mut input: Vec<U256> = vec![];
    for _ in 1..k {
        let m: i32 = rng.gen_range(1..8);
        let n: i32 = rng.gen_range(1..8);
        acc -= m * n;

        let p: Curve<BN254> = Curve::<BN254>::int(m);
        let q: Curve<Fp2<BN254>> = Curve::<Fp2<BN254>>::int(n);
        input.extend(p.on_stack());
        input.extend(q.on_stack());
    }
    let p: Curve<BN254> = Curve::<BN254>::int(acc);
    let q: Curve<Fp2<BN254>> = Curve::<Fp2<BN254>>::GENERATOR;
    input.extend(p.on_stack());
    input.extend(q.on_stack());

    let setup = InterpreterMemoryInitialization {
        label: "bn254_pairing".to_string(),
        stack: vec![
            U256::from(k),
            U256::from(ptr),
            U256::from(out),
            U256::from(0xdeadbeefu32),
        ],
        segment: BnPairing,
        memory: vec![(ptr, input)],
    };
    let interpreter = run_interpreter_with_memory(setup).unwrap();
    assert_eq!(interpreter.stack()[0], U256::one());
    Ok(())
}
stuff 2022-10-12 10:06:34 -04:00			`use anyhow::Result;`
			`use ethereum_types::U256;`
rand impl 2023-02-01 19:15:56 -08:00			`use rand::Rng;`
stuff 2022-10-12 10:06:34 -04:00
fmt 2023-02-16 19:45:33 -08:00			`use crate::cpu::kernel::interpreter::{`
			`run_interpreter_with_memory, Interpreter, InterpreterMemoryInitialization,`
			`};`
peculiar... 2023-04-27 18:06:51 -07:00			`use crate::curve_pairings::{`
			`bn_final_exponent, bn_miller_loop, gen_bn_fp12_sparse, Curve, CyclicGroup,`
			`};`
abstraction 2023-04-26 17:21:52 -07:00			`use crate::extension_tower::{FieldExt, Fp12, Fp2, Fp6, Stack, BN254};`
fmt 2023-02-16 19:45:33 -08:00			`use crate::memory::segments::Segment::BnPairing;`
mul test from memory 2023-01-20 13:59:39 +07:00
tests and stacks 2023-02-07 18:53:58 -08:00			`fn extract_stack(interpreter: Interpreter<'static>) -> Vec<U256> {`
fmt 2023-02-16 19:45:33 -08:00			`interpreter`
			`.stack()`
			`.iter()`
			`.rev()`
			`.cloned()`
			`.collect::<Vec<U256>>()`
tests and stacks 2023-02-07 18:53:58 -08:00			`}`

tests passing 2023-04-19 14:51:25 -07:00			`fn run_bn_mul_fp6(f: Fp6<BN254>, g: Fp6<BN254>, label: &str) -> Vec<U256> {`
fp6 works 2023-03-21 13:55:51 -07:00			`let mut stack = f.on_stack();`
			`if label == "mul_fp254_6" {`
			`stack.extend(g.on_stack());`
			`}`
			`stack.push(U256::from(0xdeadbeefu32));`
refactor 2023-04-19 13:12:47 -07:00
			`let setup = InterpreterMemoryInitialization {`
fp6 works 2023-03-21 13:55:51 -07:00			`label: label.to_string(),`
			`stack,`
			`segment: BnPairing,`
			`memory: vec![],`
refactor 2023-04-19 13:12:47 -07:00			`};`
			`let interpreter = run_interpreter_with_memory(setup).unwrap();`
			`extract_stack(interpreter)`
fp6 works 2023-03-21 13:55:51 -07:00			`}`
tests and stacks 2023-02-07 18:53:58 -08:00
fp6 works 2023-03-21 13:55:51 -07:00			`#[test]`
tests passing 2023-04-19 14:51:25 -07:00			`fn test_bn_mul_fp6() -> Result<()> {`
fp6 works 2023-03-21 13:55:51 -07:00			`let mut rng = rand::thread_rng();`
			`let f: Fp6<BN254> = rng.gen::<Fp6<BN254>>();`
			`let g: Fp6<BN254> = rng.gen::<Fp6<BN254>>();`
tests and stacks 2023-02-07 18:53:58 -08:00
tests passing 2023-04-19 14:51:25 -07:00			`let out_normal: Vec<U256> = run_bn_mul_fp6(f, g, "mul_fp254_6");`
			`let out_square: Vec<U256> = run_bn_mul_fp6(f, f, "square_fp254_6");`
tests and stacks 2023-02-07 18:53:58 -08:00
fp6 works 2023-03-21 13:55:51 -07:00			`let exp_normal: Vec<U256> = (f * g).on_stack();`
			`let exp_square: Vec<U256> = (f * f).on_stack();`
tests and stacks 2023-02-07 18:53:58 -08:00
fp6 works 2023-03-21 13:55:51 -07:00			`assert_eq!(out_normal, exp_normal);`
			`assert_eq!(out_square, exp_square);`
tests and stacks 2023-02-07 18:53:58 -08:00
fp6 works 2023-03-21 13:55:51 -07:00			`Ok(())`
			`}`
tests and stacks 2023-02-07 18:53:58 -08:00
tests passing 2023-04-19 14:51:25 -07:00			`fn run_bn_mul_fp12(f: Fp12<BN254>, g: Fp12<BN254>, label: &str) -> Vec<U256> {`
memory compress 2023-04-20 20:54:13 -07:00			`let in0: usize = 100;`
			`let in1: usize = 112;`
			`let out: usize = 124;`
tests and stacks 2023-02-07 18:53:58 -08:00
			`let mut stack = vec![`
			`U256::from(in0),`
			`U256::from(in1),`
			`U256::from(out),`
			`U256::from(0xdeadbeefu32),`
			`];`
			`if label == "square_fp254_12" {`
			`stack.remove(0);`
			`}`
refactor 2023-04-19 13:12:47 -07:00
			`let setup = InterpreterMemoryInitialization {`
rewrite w methods 2023-01-24 00:01:47 +07:00			`label: label.to_string(),`
tests and stacks 2023-02-07 18:53:58 -08:00			`stack,`
fmt 2023-02-16 19:45:33 -08:00			`segment: BnPairing,`
miller loop test 2023-02-07 09:18:49 -08:00			`memory: vec![(in0, f.on_stack()), (in1, g.on_stack())],`
refactor 2023-04-19 13:12:47 -07:00			`};`
			`let interpreter = run_interpreter_with_memory(setup).unwrap();`
			`interpreter.extract_kernel_memory(BnPairing, out..out + 12)`
fix fp12 test 2022-11-14 15:58:37 -08:00			`}`

minor 2022-12-14 20:16:50 -08:00			`#[test]`
tests passing 2023-04-19 14:51:25 -07:00			`fn test_bn_mul_fp12() -> Result<()> {`
rand impl 2023-02-01 19:15:56 -08:00			`let mut rng = rand::thread_rng();`
frob works 2023-03-21 13:51:11 -07:00			`let f: Fp12<BN254> = rng.gen::<Fp12<BN254>>();`
			`let g: Fp12<BN254> = rng.gen::<Fp12<BN254>>();`
fair naming 2023-04-27 17:23:55 -07:00			`let h: Fp12<BN254> = gen_bn_fp12_sparse(&mut rng);`
fp12 sq works 2022-11-15 13:34:47 -08:00
tests passing 2023-04-19 14:51:25 -07:00			`let out_normal: Vec<U256> = run_bn_mul_fp12(f, g, "mul_fp254_12");`
			`let out_sparse: Vec<U256> = run_bn_mul_fp12(f, h, "mul_fp254_12_sparse");`
			`let out_square: Vec<U256> = run_bn_mul_fp12(f, f, "square_fp254_12");`
fp12 sq works 2022-11-15 13:34:47 -08:00
miller loop test 2023-02-07 09:18:49 -08:00			`let exp_normal: Vec<U256> = (f * g).on_stack();`
finish 2023-03-21 19:19:02 -07:00			`let exp_sparse: Vec<U256> = (f * h).on_stack();`
miller loop test 2023-02-07 09:18:49 -08:00			`let exp_square: Vec<U256> = (f * f).on_stack();`
fp12 sq works 2022-11-15 13:34:47 -08:00
streamline tests 2022-12-15 13:18:00 -08:00			`assert_eq!(out_normal, exp_normal);`
finish 2023-03-21 19:19:02 -07:00			`assert_eq!(out_sparse, exp_sparse);`
streamline tests 2022-12-15 13:18:00 -08:00			`assert_eq!(out_square, exp_square);`
fp12 sq works 2022-11-15 13:34:47 -08:00
			`Ok(())`
comments 2022-11-15 13:40:14 -08:00			`}`
frob tests work 2022-12-15 17:00:38 -08:00
tests passing 2023-04-19 14:51:25 -07:00			`fn run_bn_frob_fp6(f: Fp6<BN254>, n: usize) -> Vec<U256> {`
reorg 2023-04-19 13:19:06 -07:00			`let setup = InterpreterMemoryInitialization {`
			`label: format!("test_frob_fp254_6_{}", n),`
fp6 works 2023-03-21 13:55:51 -07:00			`stack: f.on_stack(),`
			`segment: BnPairing,`
			`memory: vec![],`
reorg 2023-04-19 13:19:06 -07:00			`};`
			`let interpreter = run_interpreter_with_memory(setup).unwrap();`
			`extract_stack(interpreter)`
fp6 works 2023-03-21 13:55:51 -07:00			`}`

			`#[test]`
tests passing 2023-04-19 14:51:25 -07:00			`fn test_bn_frob_fp6() -> Result<()> {`
fp6 works 2023-03-21 13:55:51 -07:00			`let mut rng = rand::thread_rng();`
			`let f: Fp6<BN254> = rng.gen::<Fp6<BN254>>();`
			`for n in 1..4 {`
tests passing 2023-04-19 14:51:25 -07:00			`let output: Vec<U256> = run_bn_frob_fp6(f, n);`
reorg 2023-04-19 13:19:06 -07:00			`let expected: Vec<U256> = f.frob(n).on_stack();`
			`assert_eq!(output, expected);`
fp6 works 2023-03-21 13:55:51 -07:00			`}`
			`Ok(())`
			`}`
frob works 2023-03-21 13:51:11 -07:00
tests passing 2023-04-19 14:51:25 -07:00			`fn run_bn_frob_fp12(f: Fp12<BN254>, n: usize) -> Vec<U256> {`
memory compress 2023-04-20 20:54:13 -07:00			`let ptr: usize = 100;`
reorg 2023-04-19 13:19:06 -07:00			`let setup = InterpreterMemoryInitialization {`
			`label: format!("test_frob_fp254_12_{}", n),`
improved prover input and test api 2023-01-21 13:19:07 +07:00			`stack: vec![U256::from(ptr)],`
fmt 2023-02-16 19:45:33 -08:00			`segment: BnPairing,`
miller loop test 2023-02-07 09:18:49 -08:00			`memory: vec![(ptr, f.on_stack())],`
reorg 2023-04-19 13:19:06 -07:00			`};`
			`let interpreter = run_interpreter_with_memory(setup).unwrap();`
			`interpreter.extract_kernel_memory(BnPairing, ptr..ptr + 12)`
test frob from memory 2023-01-20 14:52:44 +07:00			`}`

			`#[test]`
tests passing 2023-04-19 14:51:25 -07:00			`fn test_bn_frob_fp12() -> Result<()> {`
rand impl 2023-02-01 19:15:56 -08:00			`let mut rng = rand::thread_rng();`
frob works 2023-03-21 13:51:11 -07:00			`let f: Fp12<BN254> = rng.gen::<Fp12<BN254>>();`
reorg 2023-04-19 13:19:06 -07:00
loop test 2023-02-25 10:55:18 -08:00			`for n in [1, 2, 3, 6] {`
tests passing 2023-04-19 14:51:25 -07:00			`let output = run_bn_frob_fp12(f, n);`
reorg 2023-04-19 13:19:06 -07:00			`let expected: Vec<U256> = f.frob(n).on_stack();`
			`assert_eq!(output, expected);`
loop test 2023-02-25 10:55:18 -08:00			`}`
test frob from memory 2023-01-20 14:52:44 +07:00			`Ok(())`
			`}`
fix 2022-12-19 14:39:23 -08:00
finish 2023-03-21 19:19:02 -07:00			`#[test]`
tests passing 2023-04-19 14:51:25 -07:00			`fn test_bn_inv_fp12() -> Result<()> {`
memory compress 2023-04-20 20:54:13 -07:00			`let ptr: usize = 100;`
			`let inv: usize = 112;`
finish 2023-03-21 19:19:02 -07:00			`let mut rng = rand::thread_rng();`
			`let f: Fp12<BN254> = rng.gen::<Fp12<BN254>>();`

			`let setup = InterpreterMemoryInitialization {`
			`label: "inv_fp254_12".to_string(),`
			`stack: vec![U256::from(ptr), U256::from(inv), U256::from(0xdeadbeefu32)],`
			`segment: BnPairing,`
			`memory: vec![(ptr, f.on_stack())],`
			`};`
			`let interpreter: Interpreter = run_interpreter_with_memory(setup).unwrap();`
			`let output: Vec<U256> = interpreter.extract_kernel_memory(BnPairing, inv..inv + 12);`
			`let expected: Vec<U256> = f.inv().on_stack();`

			`assert_eq!(output, expected);`

			`Ok(())`
			`}`

			`#[test]`
tests passing 2023-04-19 14:51:25 -07:00			`fn test_bn_final_exponent() -> Result<()> {`
memory compress 2023-04-20 20:54:13 -07:00			`let ptr: usize = 100;`
tests 2023-04-19 13:30:03 -07:00
finish 2023-03-21 19:19:02 -07:00			`let mut rng = rand::thread_rng();`
			`let f: Fp12<BN254> = rng.gen::<Fp12<BN254>>();`

			`let setup = InterpreterMemoryInitialization {`
refactor 2023-04-19 13:12:47 -07:00			`label: "bn254_final_exponent".to_string(),`
fmt 2023-04-19 14:45:11 -07:00			`stack: vec![`
			`U256::zero(),`
			`U256::zero(),`
			`U256::from(ptr),`
			`U256::from(0xdeadbeefu32),`
			`],`
finish 2023-03-21 19:19:02 -07:00			`segment: BnPairing,`
			`memory: vec![(ptr, f.on_stack())],`
			`};`

			`let interpreter: Interpreter = run_interpreter_with_memory(setup).unwrap();`
			`let output: Vec<U256> = interpreter.extract_kernel_memory(BnPairing, ptr..ptr + 12);`
fair naming 2023-04-27 17:23:55 -07:00			`let expected: Vec<U256> = bn_final_exponent(f).on_stack();`
finish 2023-03-21 19:19:02 -07:00
			`assert_eq!(output, expected);`

			`Ok(())`
			`}`

clean more 2023-04-24 09:37:42 -07:00			`#[test]`
			`fn test_bn_miller() -> Result<()> {`
			`let ptr: usize = 100;`
			`let out: usize = 106;`
random inp 2023-04-27 16:20:55 -07:00
			`let mut rng = rand::thread_rng();`
			`let p: Curve<BN254> = rng.gen::<Curve<BN254>>();`
			`let q: Curve<Fp2<BN254>> = rng.gen::<Curve<Fp2<BN254>>>();`

on stack 2023-04-27 17:15:25 -07:00			`let mut input = p.on_stack();`
			`input.extend(q.on_stack());`
finish 2023-03-21 19:19:02 -07:00
			`let setup = InterpreterMemoryInitialization {`
			`label: "bn254_miller".to_string(),`
			`stack: vec![U256::from(ptr), U256::from(out), U256::from(0xdeadbeefu32)],`
			`segment: BnPairing,`
cleanup 2023-04-24 09:33:05 -07:00			`memory: vec![(ptr, input)],`
finish 2023-03-21 19:19:02 -07:00			`};`
			`let interpreter = run_interpreter_with_memory(setup).unwrap();`
			`let output: Vec<U256> = interpreter.extract_kernel_memory(BnPairing, out..out + 12);`
fair naming 2023-04-27 17:23:55 -07:00			`let expected = bn_miller_loop(p, q).on_stack();`
finish 2023-03-21 19:19:02 -07:00
			`assert_eq!(output, expected);`

			`Ok(())`
			`}`

			`#[test]`
tests passing 2023-04-19 14:51:25 -07:00			`fn test_bn_pairing() -> Result<()> {`
memory compress 2023-04-20 20:54:13 -07:00			`let out: usize = 100;`
			`let ptr: usize = 112;`
fmt 2023-04-26 14:16:35 -07:00
peculiar... 2023-04-27 18:06:51 -07:00			`let mut rng = rand::thread_rng();`
			`let k: usize = rng.gen_range(1..10);`
			`let mut acc: i32 = 0;`
			`let mut input: Vec<U256> = vec![];`
			`for _ in 1..k {`
fix unit 2023-04-27 18:24:08 -07:00			`let m: i32 = rng.gen_range(1..8);`
			`let n: i32 = rng.gen_range(1..8);`
peculiar... 2023-04-27 18:06:51 -07:00			`acc -= m * n;`

			`let p: Curve<BN254> = Curve::<BN254>::int(m);`
			`let q: Curve<Fp2<BN254>> = Curve::<Fp2<BN254>>::int(n);`
			`input.extend(p.on_stack());`
			`input.extend(q.on_stack());`
			`}`
			`let p: Curve<BN254> = Curve::<BN254>::int(acc);`
			`let q: Curve<Fp2<BN254>> = Curve::<Fp2<BN254>>::GENERATOR;`
			`input.extend(p.on_stack());`
			`input.extend(q.on_stack());`
clean up 2023-04-26 09:57:36 -07:00
test 2023-04-26 14:16:23 -07:00			`let setup = InterpreterMemoryInitialization {`
clean up 2023-04-26 09:57:36 -07:00			`label: "bn254_pairing".to_string(),`
			`stack: vec![`
peculiar... 2023-04-27 18:06:51 -07:00			`U256::from(k),`
clean up 2023-04-26 09:57:36 -07:00			`U256::from(ptr),`
			`U256::from(out),`
			`U256::from(0xdeadbeefu32),`
			`],`
			`segment: BnPairing,`
peculiar... 2023-04-27 18:06:51 -07:00			`memory: vec![(ptr, input)],`
clean up 2023-04-26 09:57:36 -07:00			`};`
test 2023-04-26 14:16:23 -07:00			`let interpreter = run_interpreter_with_memory(setup).unwrap();`
return bool 2023-04-26 15:35:19 -07:00			`assert_eq!(interpreter.stack()[0], U256::one());`
finish 2023-03-21 19:19:02 -07:00			`Ok(())`
			`}`