leo/compiler/tests/group/mod.rs

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use crate::{
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assert_satisfied,
expect_synthesis_error,
field::field_to_decimal_string,
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generate_main_input,
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parse_program,
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parse_program_with_input,
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};
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use leo_typed::InputValue;
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use snarkos_curves::edwards_bls12::EdwardsAffine;
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use rand::{Rng, SeedableRng};
use rand_xorshift::XorShiftRng;
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pub fn group_to_decimal_string(g: EdwardsAffine) -> String {
let x = field_to_decimal_string(g.x);
let y = field_to_decimal_string(g.y);
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format!("({}, {})", x, y)
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}
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#[test]
fn test_zero() {
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let bytes = include_bytes!("zero.leo");
let program = parse_program(bytes).unwrap();
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assert_satisfied(program);
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}
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#[test]
fn test_one() {
let bytes = include_bytes!("one.leo");
let program = parse_program(bytes).unwrap();
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assert_satisfied(program)
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}
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#[test]
fn test_point() {
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let bytes = include_bytes!("point.leo");
let program = parse_program(bytes).unwrap();
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assert_satisfied(program);
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}
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#[test]
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fn test_input() {
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let program_bytes = include_bytes!("input.leo");
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let input_bytes_pass = include_bytes!("input/one_one.in");
let input_bytes_fail = include_bytes!("input/one_zero.in");
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let program = parse_program_with_input(program_bytes, input_bytes_pass).unwrap();
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assert_satisfied(program);
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let program = parse_program_with_input(program_bytes, input_bytes_fail).unwrap();
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expect_synthesis_error(program);
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}
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#[test]
fn test_negate() {
use std::ops::Neg;
let mut rng = XorShiftRng::seed_from_u64(1231275789u64);
for _ in 0..10 {
let a: EdwardsAffine = rng.gen();
let b = a.neg();
let a_string = group_to_decimal_string(a);
let b_string = group_to_decimal_string(b);
let bytes = include_bytes!("negate.leo");
let mut program = parse_program(bytes).unwrap();
let main_input = generate_main_input(vec![
("a", Some(InputValue::Group(a_string))),
("b", Some(InputValue::Group(b_string))),
]);
program.set_main_input(main_input);
assert_satisfied(program)
}
}
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#[test]
fn test_add() {
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use std::ops::Add;
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let mut rng = XorShiftRng::seed_from_u64(1231275789u64);
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for _ in 0..10 {
let a: EdwardsAffine = rng.gen();
let b: EdwardsAffine = rng.gen();
let c = a.add(&b);
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let a_string = group_to_decimal_string(a);
let b_string = group_to_decimal_string(b);
let c_string = group_to_decimal_string(c);
let bytes = include_bytes!("add.leo");
let mut program = parse_program(bytes).unwrap();
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let main_input = generate_main_input(vec![
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("a", Some(InputValue::Group(a_string))),
("b", Some(InputValue::Group(b_string))),
("c", Some(InputValue::Group(c_string))),
]);
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program.set_main_input(main_input);
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assert_satisfied(program)
}
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}
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#[test]
fn test_sub() {
use std::ops::Sub;
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let mut rng = XorShiftRng::seed_from_u64(1231275789u64);
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for _ in 0..10 {
let a: EdwardsAffine = rng.gen();
let b: EdwardsAffine = rng.gen();
let c = a.sub(&b);
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let a_string = group_to_decimal_string(a);
let b_string = group_to_decimal_string(b);
let c_string = group_to_decimal_string(c);
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let bytes = include_bytes!("sub.leo");
let mut program = parse_program(bytes).unwrap();
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let main_input = generate_main_input(vec![
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("a", Some(InputValue::Group(a_string))),
("b", Some(InputValue::Group(b_string))),
("c", Some(InputValue::Group(c_string))),
]);
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program.set_main_input(main_input);
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assert_satisfied(program)
}
}
#[test]
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fn test_assert_eq_pass() {
let mut rng = XorShiftRng::seed_from_u64(1231275789u64);
for _ in 0..10 {
let a: EdwardsAffine = rng.gen();
let a_string = group_to_decimal_string(a);
let bytes = include_bytes!("assert_eq.leo");
let mut program = parse_program(bytes).unwrap();
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let main_input = generate_main_input(vec![
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("a", Some(InputValue::Group(a_string.clone()))),
("b", Some(InputValue::Group(a_string))),
]);
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program.set_main_input(main_input);
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assert_satisfied(program);
}
}
#[test]
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fn test_assert_eq_fail() {
let mut rng = XorShiftRng::seed_from_u64(1231275789u64);
for _ in 0..10 {
let a: EdwardsAffine = rng.gen();
let b: EdwardsAffine = rng.gen();
if a == b {
continue;
}
let a_string = group_to_decimal_string(a);
let b_string = group_to_decimal_string(b);
let bytes = include_bytes!("assert_eq.leo");
let mut program = parse_program(bytes).unwrap();
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let main_input = generate_main_input(vec![
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("a", Some(InputValue::Group(a_string))),
("b", Some(InputValue::Group(b_string))),
]);
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program.set_main_input(main_input);
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expect_synthesis_error(program);
}
}
#[test]
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#[ignore]
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fn test_eq() {
let mut rng = XorShiftRng::seed_from_u64(1231275789u64);
for _ in 0..10 {
let a: EdwardsAffine = rng.gen();
let b: EdwardsAffine = rng.gen();
let a_string = group_to_decimal_string(a);
let b_string = group_to_decimal_string(b);
// test equal
let bytes = include_bytes!("eq.leo");
let mut program = parse_program(bytes).unwrap();
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let main_input = generate_main_input(vec![
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("a", Some(InputValue::Group(a_string.clone()))),
("b", Some(InputValue::Group(a_string.clone()))),
("c", Some(InputValue::Boolean(true))),
]);
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program.set_main_input(main_input);
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assert_satisfied(program);
// test not equal
let c = a.eq(&b);
let mut program = parse_program(bytes).unwrap();
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let main_input = generate_main_input(vec![
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("a", Some(InputValue::Group(a_string))),
("b", Some(InputValue::Group(b_string))),
("c", Some(InputValue::Boolean(c))),
]);
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program.set_main_input(main_input);
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assert_satisfied(program);
}
}
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#[test]
fn test_ternary() {
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let mut rng = XorShiftRng::seed_from_u64(1231275789u64);
let a: EdwardsAffine = rng.gen();
let b: EdwardsAffine = rng.gen();
let a_string = group_to_decimal_string(a);
let b_string = group_to_decimal_string(b);
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let bytes = include_bytes!("ternary.leo");
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let mut program = parse_program(bytes).unwrap();
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// true -> field a
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let main_input = generate_main_input(vec![
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("s", Some(InputValue::Boolean(true))),
("a", Some(InputValue::Group(a_string.clone()))),
("b", Some(InputValue::Group(b_string.clone()))),
("c", Some(InputValue::Group(a_string.clone()))),
]);
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program.set_main_input(main_input);
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assert_satisfied(program);
let mut program = parse_program(bytes).unwrap();
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// false -> field b
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let main_input = generate_main_input(vec![
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("s", Some(InputValue::Boolean(false))),
("a", Some(InputValue::Group(a_string))),
("b", Some(InputValue::Group(b_string.clone()))),
("c", Some(InputValue::Group(b_string))),
]);
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program.set_main_input(main_input);
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assert_satisfied(program);
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}