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