leo/compiler/tests/field/mod.rs

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use crate::boolean::{output_expected_boolean, output_false, output_true};
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use crate::{compile_program, get_error, get_output, EdwardsConstrainedValue, EdwardsTestCompiler};
use leo_compiler::{
errors::{CompilerError, FieldError, FunctionError},
ConstrainedValue, FieldType, InputValue,
};
use snarkos_curves::edwards_bls12::Fq;
use snarkos_gadgets::curves::edwards_bls12::FqGadget;
use snarkos_models::curves::{Field, PrimeField};
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use snarkos_models::gadgets::{
curves::field::FieldGadget,
r1cs::{ConstraintSystem, TestConstraintSystem},
};
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use snarkos_utilities::biginteger::BigInteger256;
const DIRECTORY_NAME: &str = "tests/field/";
fn output_expected_constant(program: EdwardsTestCompiler, expected: Fq) {
let output = get_output(program);
assert_eq!(
EdwardsConstrainedValue::Return(vec![ConstrainedValue::Field(FieldType::Constant(
expected
))])
.to_string(),
output.to_string()
);
}
fn output_expected_allocated(program: EdwardsTestCompiler, expected: FqGadget) {
let output = get_output(program);
match output {
EdwardsConstrainedValue::Return(vec) => match vec.as_slice() {
[ConstrainedValue::Field(FieldType::Allocated(fp_gadget))] => {
assert_eq!(*fp_gadget, expected as FqGadget)
}
_ => panic!("program output unknown return value"),
},
_ => panic!("program output unknown return value"),
}
}
fn output_zero(program: EdwardsTestCompiler) {
output_expected_constant(program, Fq::zero())
}
fn output_one(program: EdwardsTestCompiler) {
output_expected_constant(program, Fq::one())
}
fn fail_field(program: EdwardsTestCompiler) {
match get_error(program) {
CompilerError::FunctionError(FunctionError::FieldError(FieldError::Invalid(_string))) => {}
error => panic!("Expected invalid field error, got {}", error),
}
}
fn fail_synthesis(program: EdwardsTestCompiler) {
match get_error(program) {
CompilerError::FunctionError(FunctionError::FieldError(FieldError::SynthesisError(
_string,
))) => {}
error => panic!("Expected synthesis error, got {}", error),
}
}
#[test]
fn test_zero() {
let program = compile_program(DIRECTORY_NAME, "zero.leo").unwrap();
output_zero(program);
}
#[test]
fn test_one() {
let program = compile_program(DIRECTORY_NAME, "one.leo").unwrap();
output_one(program);
}
#[test]
fn test_input_pass() {
let mut program = compile_program(DIRECTORY_NAME, "input.leo").unwrap();
program.set_inputs(vec![Some(InputValue::Field("1".into()))]);
let cs = TestConstraintSystem::<Fq>::new();
let expected = FqGadget::one(cs).unwrap();
output_expected_allocated(program, expected)
}
#[test]
fn test_input_fail_bool() {
let mut program = compile_program(DIRECTORY_NAME, "input.leo").unwrap();
program.set_inputs(vec![Some(InputValue::Boolean(true))]);
fail_field(program);
}
#[test]
fn test_input_fail_none() {
let mut program = compile_program(DIRECTORY_NAME, "input.leo").unwrap();
program.set_inputs(vec![None]);
fail_synthesis(program);
}
#[test]
fn test_add() {
use std::ops::Add;
for _ in 0..10 {
let r1: u64 = rand::random();
let r2: u64 = rand::random();
let b1 = BigInteger256::from(r1);
let b2 = BigInteger256::from(r2);
let f1: Fq = Fq::from_repr(b1);
let f2: Fq = Fq::from_repr(b2);
let sum = f1.add(&f2);
let cs = TestConstraintSystem::<Fq>::new();
let sum_allocated = FqGadget::from(cs, &sum);
let mut program = compile_program(DIRECTORY_NAME, "add.leo").unwrap();
program.set_inputs(vec![
Some(InputValue::Field(r1.to_string())),
Some(InputValue::Field(r2.to_string())),
]);
output_expected_allocated(program, sum_allocated);
}
}
#[test]
fn test_sub() {
use std::ops::Sub;
for _ in 0..10 {
let r1: u64 = rand::random();
let r2: u64 = rand::random();
let b1 = BigInteger256::from(r1);
let b2 = BigInteger256::from(r2);
let f1: Fq = Fq::from_repr(b1);
let f2: Fq = Fq::from_repr(b2);
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let difference = f1.sub(&f2);
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let cs = TestConstraintSystem::<Fq>::new();
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let difference_allocated = FqGadget::from(cs, &difference);
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let mut program = compile_program(DIRECTORY_NAME, "sub.leo").unwrap();
program.set_inputs(vec![
Some(InputValue::Field(r1.to_string())),
Some(InputValue::Field(r2.to_string())),
]);
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output_expected_allocated(program, difference_allocated);
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}
}
#[test]
fn test_mul() {
use std::ops::Mul;
for _ in 0..10 {
let r1: u64 = rand::random();
let r2: u64 = rand::random();
let b1 = BigInteger256::from(r1);
let b2 = BigInteger256::from(r2);
let f1: Fq = Fq::from_repr(b1);
let f2: Fq = Fq::from_repr(b2);
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let product = f1.mul(&f2);
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let cs = TestConstraintSystem::<Fq>::new();
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let product_allocated = FqGadget::from(cs, &product);
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let mut program = compile_program(DIRECTORY_NAME, "mul.leo").unwrap();
program.set_inputs(vec![
Some(InputValue::Field(r1.to_string())),
Some(InputValue::Field(r2.to_string())),
]);
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output_expected_allocated(program, product_allocated);
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}
}
#[test]
fn test_div() {
use std::ops::Div;
for _ in 0..10 {
let r1: u64 = rand::random();
let r2: u64 = rand::random();
let b1 = BigInteger256::from(r1);
let b2 = BigInteger256::from(r2);
let f1: Fq = Fq::from_repr(b1);
let f2: Fq = Fq::from_repr(b2);
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let quotient = f1.div(&f2);
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let cs = TestConstraintSystem::<Fq>::new();
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let quotient_allocated = FqGadget::from(cs, &quotient);
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let mut program = compile_program(DIRECTORY_NAME, "div.leo").unwrap();
program.set_inputs(vec![
Some(InputValue::Field(r1.to_string())),
Some(InputValue::Field(r2.to_string())),
]);
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output_expected_allocated(program, quotient_allocated);
}
}
#[test]
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fn test_eq() {
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for _ in 0..10 {
let r1: u64 = rand::random();
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// test equal
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let mut program = compile_program(DIRECTORY_NAME, "eq.leo").unwrap();
program.set_inputs(vec![
Some(InputValue::Field(r1.to_string())),
Some(InputValue::Field(r1.to_string())),
]);
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output_true(program);
// test not equal
let r2: u64 = rand::random();
let result = r1.eq(&r2);
let mut program = compile_program(DIRECTORY_NAME, "eq.leo").unwrap();
program.set_inputs(vec![
Some(InputValue::Field(r1.to_string())),
Some(InputValue::Field(r2.to_string())),
]);
output_expected_boolean(program, result)
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}
}
#[test]
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fn test_ge() {
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for _ in 0..10 {
let r1: u64 = rand::random();
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// test equal
let mut program = compile_program(DIRECTORY_NAME, "ge.leo").unwrap();
program.set_inputs(vec![
Some(InputValue::Field(r1.to_string())),
Some(InputValue::Field(r1.to_string())),
]);
output_true(program);
// test greater than
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let r2: u64 = rand::random();
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let result = r1.ge(&r2);
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let mut program = compile_program(DIRECTORY_NAME, "ge.leo").unwrap();
program.set_inputs(vec![
Some(InputValue::Field(r1.to_string())),
Some(InputValue::Field(r2.to_string())),
]);
output_expected_boolean(program, result)
}
}
#[test]
fn test_gt() {
for _ in 0..10 {
let r1: u64 = rand::random();
// test equal
let mut program = compile_program(DIRECTORY_NAME, "gt.leo").unwrap();
program.set_inputs(vec![
Some(InputValue::Field(r1.to_string())),
Some(InputValue::Field(r1.to_string())),
]);
output_false(program);
// test greater than
let r2: u64 = rand::random();
let result = r1.gt(&r2);
let mut program = compile_program(DIRECTORY_NAME, "gt.leo").unwrap();
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program.set_inputs(vec![
Some(InputValue::Field(r1.to_string())),
Some(InputValue::Field(r2.to_string())),
]);
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output_expected_boolean(program, result)
}
}
#[test]
fn test_le() {
for _ in 0..10 {
let r1: u64 = rand::random();
// test equal
let mut program = compile_program(DIRECTORY_NAME, "le.leo").unwrap();
program.set_inputs(vec![
Some(InputValue::Field(r1.to_string())),
Some(InputValue::Field(r1.to_string())),
]);
output_true(program);
// test greater than
let r2: u64 = rand::random();
let result = r1.le(&r2);
let mut program = compile_program(DIRECTORY_NAME, "le.leo").unwrap();
program.set_inputs(vec![
Some(InputValue::Field(r1.to_string())),
Some(InputValue::Field(r2.to_string())),
]);
output_expected_boolean(program, result)
}
}
#[test]
fn test_lt() {
for _ in 0..10 {
let r1: u64 = rand::random();
// test equal
let mut program = compile_program(DIRECTORY_NAME, "lt.leo").unwrap();
program.set_inputs(vec![
Some(InputValue::Field(r1.to_string())),
Some(InputValue::Field(r1.to_string())),
]);
output_false(program);
// test greater than
let r2: u64 = rand::random();
let result = r1.lt(&r2);
let mut program = compile_program(DIRECTORY_NAME, "lt.leo").unwrap();
program.set_inputs(vec![
Some(InputValue::Field(r1.to_string())),
Some(InputValue::Field(r2.to_string())),
]);
output_expected_boolean(program, result)
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}
}
#[test]
fn test_assert_eq_pass() {
for _ in 0..10 {
let r1: u64 = rand::random();
let mut program = compile_program(DIRECTORY_NAME, "assert_eq.leo").unwrap();
program.set_inputs(vec![
Some(InputValue::Field(r1.to_string())),
Some(InputValue::Field(r1.to_string())),
]);
let _ = get_output(program);
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}
}
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#[test]
fn test_assert_eq_fail() {
for _ in 0..10 {
let r1: u64 = rand::random();
let r2: u64 = rand::random();
if r1 == r2 {
continue;
}
let mut program = compile_program(DIRECTORY_NAME, "assert_eq.leo").unwrap();
program.set_inputs(vec![
Some(InputValue::Field(r1.to_string())),
Some(InputValue::Field(r2.to_string())),
]);
let mut cs = TestConstraintSystem::<Fq>::new();
let _ = program.compile_constraints(&mut cs).unwrap();
assert!(!cs.is_satisfied());
}
}
#[test]
fn test_ternary() {
let r1: u64 = rand::random();
let r2: u64 = rand::random();
let b1 = BigInteger256::from(r1);
let b2 = BigInteger256::from(r2);
let f1: Fq = Fq::from_repr(b1);
let f2: Fq = Fq::from_repr(b2);
let mut cs = TestConstraintSystem::<Fq>::new();
let g1 = FqGadget::from(cs.ns(|| "g1"), &f1);
let g2 = FqGadget::from(cs.ns(|| "g2"), &f2);
let mut program_1 = compile_program(DIRECTORY_NAME, "ternary.leo").unwrap();
let mut program_2 = program_1.clone();
// true -> field 1
program_1.set_inputs(vec![
Some(InputValue::Boolean(true)),
Some(InputValue::Field(r1.to_string())),
Some(InputValue::Field(r2.to_string())),
]);
output_expected_allocated(program_1, g1);
// false -> field 2
program_2.set_inputs(vec![
Some(InputValue::Boolean(false)),
Some(InputValue::Field(r1.to_string())),
Some(InputValue::Field(r2.to_string())),
]);
output_expected_allocated(program_2, g2);
}