leo/compiler/tests/circuits/mod.rs

use crate::{
    get_error,
    get_output,
    integers::u32::{output_number, output_one},
    parse_program,
    EdwardsConstrainedValue,
    EdwardsTestCompiler,
};
use leo_compiler::{
    errors::{CompilerError, ExpressionError, FunctionError, StatementError},
    ConstrainedCircuitMember,
    ConstrainedValue,
    Integer,
};
use leo_types::{Expression, Function, Identifier, Span, Statement, Type};

use snarkos_models::gadgets::utilities::uint::UInt32;

// Circ { x: 1u32 }
fn output_circuit(program: EdwardsTestCompiler) {
    let output = get_output(program);
    assert_eq!(
        EdwardsConstrainedValue::Return(vec![ConstrainedValue::CircuitExpression(
            Identifier {
                name: "Circ".to_string(),
                span: Span {
                    text: "".to_string(),
                    line: 0,
                    start: 0,
                    end: 0
                }
            },
            vec![ConstrainedCircuitMember(
                Identifier {
                    name: "x".to_string(),
                    span: Span {
                        text: "".to_string(),
                        line: 0,
                        start: 0,
                        end: 0
                    }
                },
                ConstrainedValue::Integer(Integer::U32(UInt32::constant(1u32)))
            )]
        )])
        .to_string(),
        output.to_string()
    );
}

fn expect_fail(program: EdwardsTestCompiler) {
    match get_error(program) {
        CompilerError::FunctionError(FunctionError::StatementError(StatementError::ExpressionError(
            ExpressionError::Error(_string),
        ))) => {}
        error => panic!("Expected invalid circuit member error, got {}", error),
    }
}

// Expressions

#[test]
fn test_inline() {
    let bytes = include_bytes!("inline.leo");
    let program = parse_program(bytes).unwrap();

    output_circuit(program);
}

#[test]
fn test_inline_fail() {
    let bytes = include_bytes!("inline_fail.leo");
    let program = parse_program(bytes).unwrap();

    expect_fail(program)
}

#[test]
fn test_inline_undefined() {
    let bytes = include_bytes!("inline_undefined.leo");
    let program = parse_program(bytes).unwrap();

    match get_error(program) {
        CompilerError::FunctionError(FunctionError::StatementError(StatementError::ExpressionError(
            ExpressionError::Error(_),
        ))) => {}
        error => panic!("Expected undefined circuit error, got {}", error),
    }
}

// Members

#[test]
fn test_member_field() {
    let bytes = include_bytes!("member_field.leo");
    let program = parse_program(bytes).unwrap();

    output_one(program);
}

#[test]
fn test_member_field_fail() {
    let bytes = include_bytes!("member_field_fail.leo");
    let program = parse_program(bytes).unwrap();

    expect_fail(program);
}

#[test]
fn test_member_field_and_function() {
    let bytes = include_bytes!("member_field_and_function.leo");
    let program = parse_program(bytes).unwrap();

    output_one(program);
}

#[test]
fn test_member_function() {
    let bytes = include_bytes!("member_function.leo");
    let program = parse_program(bytes).unwrap();

    output_one(program);
}

#[test]
fn test_member_function_fail() {
    let bytes = include_bytes!("member_function_fail.leo");
    let program = parse_program(bytes).unwrap();

    expect_fail(program);
}

#[test]
fn test_member_function_invalid() {
    let bytes = include_bytes!("member_function_invalid.leo");
    let program = parse_program(bytes).unwrap();

    expect_fail(program);
}

#[test]
fn test_member_function_nested() {
    let bytes = include_bytes!("member_function_nested.leo");
    let program = parse_program(bytes).unwrap();

    output_number(program, 2u32);
}

#[test]
fn test_member_static_function() {
    let bytes = include_bytes!("member_static_function.leo");
    let program = parse_program(bytes).unwrap();

    output_one(program);
}

#[test]
fn test_member_static_function_undefined() {
    let bytes = include_bytes!("member_static_function_undefined.leo");
    let program = parse_program(bytes).unwrap();

    expect_fail(program)
}

#[test]
fn test_member_static_function_invalid() {
    let bytes = include_bytes!("member_static_function_invalid.leo");
    let program = parse_program(bytes).unwrap();

    expect_fail(program)
}

// Self
#[test]
fn test_self_member() {
    let bytes = include_bytes!("self_member.leo");
    let program = parse_program(bytes).unwrap();

    output_one(program);
}

#[test]
fn test_self_no_member_fail() {
    let bytes = include_bytes!("self_no_member_fail.leo");
    let program = parse_program(bytes).unwrap();

    let _err = get_error(program);
}

#[test]
fn test_self_member_fail() {
    let bytes = include_bytes!("self_member_fail.leo");
    let program = parse_program(bytes).unwrap();

    let _err = get_error(program);
}

#[test]
fn test_self_circuit() {
    let bytes = include_bytes!("self_circuit.leo");
    let program = parse_program(bytes).unwrap();

    let output = get_output(program);

    // circuit Circ {
    //   static function new() -> Self {
    //     return Self { }
    //   }
    // }
    assert_eq!(
        EdwardsConstrainedValue::Return(vec![ConstrainedValue::CircuitExpression(
            Identifier {
                name: "Circ".to_string(),
                span: Span {
                    text: "".to_string(),
                    line: 0,
                    start: 0,
                    end: 0
                }
            },
            vec![ConstrainedCircuitMember(
                Identifier {
                    name: "new".to_string(),
                    span: Span {
                        text: "".to_string(),
                        line: 0,
                        start: 0,
                        end: 0
                    }
                },
                ConstrainedValue::Static(Box::new(ConstrainedValue::Function(
                    Some(Identifier {
                        name: "new".to_string(),
                        span: Span {
                            text: "".to_string(),
                            line: 0,
                            start: 0,
                            end: 0
                        }
                    }),
                    Function {
                        function_name: Identifier {
                            name: "new".to_string(),
                            span: Span {
                                text: "".to_string(),
                                line: 0,
                                start: 0,
                                end: 0
                            }
                        },
                        inputs: vec![],
                        returns: vec![Type::SelfType],
                        statements: vec![Statement::Return(
                            vec![Expression::Circuit(
                                Identifier {
                                    name: "Self".to_string(),
                                    span: Span {
                                        text: "".to_string(),
                                        line: 0,
                                        start: 0,
                                        end: 0
                                    }
                                },
                                vec![],
                                Span {
                                    text: "".to_string(),
                                    line: 0,
                                    start: 0,
                                    end: 0
                                }
                            )],
                            Span {
                                text: "".to_string(),
                                line: 0,
                                start: 0,
                                end: 0
                            }
                        )],
                        span: Span {
                            text: "".to_string(),
                            line: 0,
                            start: 0,
                            end: 0
                        }
                    }
                )))
            )]
        )])
        .to_string(),
        output.to_string()
    );
}

// All

#[test]
fn test_pedersen_mock() {
    use crate::integers::u32::output_zero;

    let bytes = include_bytes!("pedersen_mock.leo");
    let program = parse_program(bytes).unwrap();

    output_zero(program);
}
impl circuit static, self, and failure tests 2020-05-20 22:45:40 +03:00			`use crate::{`
cargo fmt 2020-06-08 09:30:39 +03:00			`get_error,`
			`get_output,`
fix recursive circuit member function namespace bug 2020-07-04 08:44:09 +03:00			`integers::u32::{output_number, output_one},`
include_bytes circuit tests 2020-06-09 04:12:40 +03:00			`parse_program,`
cargo fmt 2020-06-08 09:30:39 +03:00			`EdwardsConstrainedValue,`
update tests and leo cli 2020-05-30 03:34:31 +03:00			`EdwardsTestCompiler,`
impl circuit static, self, and failure tests 2020-05-20 22:45:40 +03:00			`};`
impl basic circuit tests 2020-05-20 07:59:00 +03:00			`use leo_compiler::{`
			`errors::{CompilerError, ExpressionError, FunctionError, StatementError},`
cargo fmt 2020-06-08 09:30:39 +03:00			`ConstrainedCircuitMember,`
			`ConstrainedValue,`
move integer enum and errors into compiler 2020-06-26 00:27:19 +03:00			`Integer,`
impl basic circuit tests 2020-05-20 07:59:00 +03:00			`};`
move integer enum and errors into compiler 2020-06-26 00:27:19 +03:00			`use leo_types::{Expression, Function, Identifier, Span, Statement, Type};`
fix dependency 2020-06-02 04:35:43 +03:00
use new integers path 2020-06-04 23:35:12 +03:00			`use snarkos_models::gadgets::utilities::uint::UInt32;`
impl basic circuit tests 2020-05-20 07:59:00 +03:00
			`// Circ { x: 1u32 }`
update tests and leo cli 2020-05-30 03:34:31 +03:00			`fn output_circuit(program: EdwardsTestCompiler) {`
impl basic circuit tests 2020-05-20 07:59:00 +03:00			`let output = get_output(program);`
			`assert_eq!(`
update tests and leo cli 2020-05-30 03:34:31 +03:00			`EdwardsConstrainedValue::Return(vec![ConstrainedValue::CircuitExpression(`
convert leo-inputs to span with errors. fix tests 2020-06-20 09:02:58 +03:00			`Identifier {`
			`name: "Circ".to_string(),`
			`span: Span {`
			`text: "".to_string(),`
			`line: 0,`
			`start: 0,`
			`end: 0`
			`}`
			`},`
remove snarkos group trait from compiler 2020-05-30 01:55:57 +03:00			`vec![ConstrainedCircuitMember(`
convert leo-inputs to span with errors. fix tests 2020-06-20 09:02:58 +03:00			`Identifier {`
			`name: "x".to_string(),`
			`span: Span {`
			`text: "".to_string(),`
			`line: 0,`
			`start: 0,`
			`end: 0`
			`}`
			`},`
remove snarkos group trait from compiler 2020-05-30 01:55:57 +03:00			`ConstrainedValue::Integer(Integer::U32(UInt32::constant(1u32)))`
			`)]`
update tests and leo cli 2020-05-30 03:34:31 +03:00			`)])`
			`.to_string(),`
			`output.to_string()`
impl basic circuit tests 2020-05-20 07:59:00 +03:00			`);`
			`}`

impl circuit member access with self.member 2020-07-03 23:35:46 +03:00			`fn expect_fail(program: EdwardsTestCompiler) {`
impl basic circuit tests 2020-05-20 07:59:00 +03:00			`match get_error(program) {`
cargo fmt 2020-06-08 09:30:39 +03:00			`CompilerError::FunctionError(FunctionError::StatementError(StatementError::ExpressionError(`
convert leo-inputs to span with errors. fix tests 2020-06-20 09:02:58 +03:00			`ExpressionError::Error(_string),`
cargo fmt 2020-06-08 09:30:39 +03:00			`))) => {}`
impl basic circuit tests 2020-05-20 07:59:00 +03:00			`error => panic!("Expected invalid circuit member error, got {}", error),`
			`}`
			`}`

			`// Expressions`

			`#[test]`
			`fn test_inline() {`
include_bytes circuit tests 2020-06-09 04:12:40 +03:00			`let bytes = include_bytes!("inline.leo");`
			`let program = parse_program(bytes).unwrap();`

impl basic circuit tests 2020-05-20 07:59:00 +03:00			`output_circuit(program);`
			`}`

			`#[test]`
			`fn test_inline_fail() {`
include_bytes circuit tests 2020-06-09 04:12:40 +03:00			`let bytes = include_bytes!("inline_fail.leo");`
			`let program = parse_program(bytes).unwrap();`

impl circuit member access with self.member 2020-07-03 23:35:46 +03:00			`expect_fail(program)`
impl basic circuit tests 2020-05-20 07:59:00 +03:00			`}`

impl circuit static, self, and failure tests 2020-05-20 22:45:40 +03:00			`#[test]`
			`fn test_inline_undefined() {`
include_bytes circuit tests 2020-06-09 04:12:40 +03:00			`let bytes = include_bytes!("inline_undefined.leo");`
			`let program = parse_program(bytes).unwrap();`

impl circuit static, self, and failure tests 2020-05-20 22:45:40 +03:00			`match get_error(program) {`
cargo fmt 2020-06-08 09:30:39 +03:00			`CompilerError::FunctionError(FunctionError::StatementError(StatementError::ExpressionError(`
convert leo-inputs to span with errors. fix tests 2020-06-20 09:02:58 +03:00			`ExpressionError::Error(_),`
cargo fmt 2020-06-08 09:30:39 +03:00			`))) => {}`
impl circuit static, self, and failure tests 2020-05-20 22:45:40 +03:00			`error => panic!("Expected undefined circuit error, got {}", error),`
			`}`
			`}`

impl basic circuit tests 2020-05-20 07:59:00 +03:00			`// Members`

impl circuit static, self, and failure tests 2020-05-20 22:45:40 +03:00			`#[test]`
			`fn test_member_field() {`
include_bytes circuit tests 2020-06-09 04:12:40 +03:00			`let bytes = include_bytes!("member_field.leo");`
			`let program = parse_program(bytes).unwrap();`

impl circuit static, self, and failure tests 2020-05-20 22:45:40 +03:00			`output_one(program);`
			`}`

			`#[test]`
			`fn test_member_field_fail() {`
include_bytes circuit tests 2020-06-09 04:12:40 +03:00			`let bytes = include_bytes!("member_field_fail.leo");`
			`let program = parse_program(bytes).unwrap();`

impl circuit member access with self.member 2020-07-03 23:35:46 +03:00			`expect_fail(program);`
impl circuit static, self, and failure tests 2020-05-20 22:45:40 +03:00			`}`

Add a member_field_and_function test 2020-06-20 11:40:56 +03:00			`#[test]`
			`fn test_member_field_and_function() {`
			`let bytes = include_bytes!("member_field_and_function.leo");`
			`let program = parse_program(bytes).unwrap();`

			`output_one(program);`
			`}`

impl basic circuit tests 2020-05-20 07:59:00 +03:00			`#[test]`
			`fn test_member_function() {`
include_bytes circuit tests 2020-06-09 04:12:40 +03:00			`let bytes = include_bytes!("member_function.leo");`
			`let program = parse_program(bytes).unwrap();`

impl basic circuit tests 2020-05-20 07:59:00 +03:00			`output_one(program);`
			`}`

impl circuit static, self, and failure tests 2020-05-20 22:45:40 +03:00			`#[test]`
			`fn test_member_function_fail() {`
include_bytes circuit tests 2020-06-09 04:12:40 +03:00			`let bytes = include_bytes!("member_function_fail.leo");`
			`let program = parse_program(bytes).unwrap();`

impl circuit member access with self.member 2020-07-03 23:35:46 +03:00			`expect_fail(program);`
impl circuit static, self, and failure tests 2020-05-20 22:45:40 +03:00			`}`

			`#[test]`
			`fn test_member_function_invalid() {`
include_bytes circuit tests 2020-06-09 04:12:40 +03:00			`let bytes = include_bytes!("member_function_invalid.leo");`
			`let program = parse_program(bytes).unwrap();`

impl circuit member access with self.member 2020-07-03 23:35:46 +03:00			`expect_fail(program);`
impl circuit static, self, and failure tests 2020-05-20 22:45:40 +03:00			`}`

fix recursive circuit member function namespace bug 2020-07-04 08:44:09 +03:00			`#[test]`
			`fn test_member_function_nested() {`
			`let bytes = include_bytes!("member_function_nested.leo");`
			`let program = parse_program(bytes).unwrap();`

			`output_number(program, 2u32);`
			`}`

impl basic circuit tests 2020-05-20 07:59:00 +03:00			`#[test]`
			`fn test_member_static_function() {`
include_bytes circuit tests 2020-06-09 04:12:40 +03:00			`let bytes = include_bytes!("member_static_function.leo");`
			`let program = parse_program(bytes).unwrap();`

impl basic circuit tests 2020-05-20 07:59:00 +03:00			`output_one(program);`
			`}`
impl circuit static, self, and failure tests 2020-05-20 22:45:40 +03:00
			`#[test]`
			`fn test_member_static_function_undefined() {`
include_bytes circuit tests 2020-06-09 04:12:40 +03:00			`let bytes = include_bytes!("member_static_function_undefined.leo");`
			`let program = parse_program(bytes).unwrap();`

impl circuit member access with self.member 2020-07-03 23:35:46 +03:00			`expect_fail(program)`
impl circuit static, self, and failure tests 2020-05-20 22:45:40 +03:00			`}`
include_bytes circuit tests 2020-06-09 04:12:40 +03:00
impl circuit static, self, and failure tests 2020-05-20 22:45:40 +03:00			`#[test]`
			`fn test_member_static_function_invalid() {`
include_bytes circuit tests 2020-06-09 04:12:40 +03:00			`let bytes = include_bytes!("member_static_function_invalid.leo");`
			`let program = parse_program(bytes).unwrap();`

impl circuit member access with self.member 2020-07-03 23:35:46 +03:00			`expect_fail(program)`
impl circuit static, self, and failure tests 2020-05-20 22:45:40 +03:00			`}`

			`// Self`
			`#[test]`
impl circuit member access with self.member 2020-07-03 23:35:46 +03:00			`fn test_self_member() {`
			`let bytes = include_bytes!("self_member.leo");`
			`let program = parse_program(bytes).unwrap();`

			`output_one(program);`
			`}`

			`#[test]`
			`fn test_self_no_member_fail() {`
			`let bytes = include_bytes!("self_no_member_fail.leo");`
			`let program = parse_program(bytes).unwrap();`

			`let _err = get_error(program);`
			`}`

			`#[test]`
			`fn test_self_member_fail() {`
			`let bytes = include_bytes!("self_member_fail.leo");`
			`let program = parse_program(bytes).unwrap();`

			`let _err = get_error(program);`
			`}`

			`#[test]`
			`fn test_self_circuit() {`
			`let bytes = include_bytes!("self_circuit.leo");`
include_bytes circuit tests 2020-06-09 04:12:40 +03:00			`let program = parse_program(bytes).unwrap();`

impl circuit static, self, and failure tests 2020-05-20 22:45:40 +03:00			`let output = get_output(program);`

			`// circuit Circ {`
			`// static function new() -> Self {`
			`// return Self { }`
			`// }`
			`// }`
			`assert_eq!(`
update tests and leo cli 2020-05-30 03:34:31 +03:00			`EdwardsConstrainedValue::Return(vec![ConstrainedValue::CircuitExpression(`
convert leo-inputs to span with errors. fix tests 2020-06-20 09:02:58 +03:00			`Identifier {`
			`name: "Circ".to_string(),`
			`span: Span {`
			`text: "".to_string(),`
			`line: 0,`
			`start: 0,`
			`end: 0`
			`}`
			`},`
remove snarkos group trait from compiler 2020-05-30 01:55:57 +03:00			`vec![ConstrainedCircuitMember(`
convert leo-inputs to span with errors. fix tests 2020-06-20 09:02:58 +03:00			`Identifier {`
			`name: "new".to_string(),`
			`span: Span {`
			`text: "".to_string(),`
			`line: 0,`
			`start: 0,`
			`end: 0`
			`}`
			`},`
remove snarkos group trait from compiler 2020-05-30 01:55:57 +03:00			`ConstrainedValue::Static(Box::new(ConstrainedValue::Function(`
convert leo-inputs to span with errors. fix tests 2020-06-20 09:02:58 +03:00			`Some(Identifier {`
			`name: "new".to_string(),`
			`span: Span {`
			`text: "".to_string(),`
			`line: 0,`
			`start: 0,`
			`end: 0`
			`}`
			`}),`
remove snarkos group trait from compiler 2020-05-30 01:55:57 +03:00			`Function {`
convert leo-inputs to span with errors. fix tests 2020-06-20 09:02:58 +03:00			`function_name: Identifier {`
			`name: "new".to_string(),`
			`span: Span {`
			`text: "".to_string(),`
			`line: 0,`
			`start: 0,`
			`end: 0`
			`}`
			`},`
remove snarkos group trait from compiler 2020-05-30 01:55:57 +03:00			`inputs: vec![],`
			`returns: vec![Type::SelfType],`
convert leo-inputs to span with errors. fix tests 2020-06-20 09:02:58 +03:00			`statements: vec![Statement::Return(`
			`vec![Expression::Circuit(`
			`Identifier {`
			`name: "Self".to_string(),`
			`span: Span {`
			`text: "".to_string(),`
			`line: 0,`
			`start: 0,`
			`end: 0`
			`}`
			`},`
			`vec![],`
			`Span {`
			`text: "".to_string(),`
			`line: 0,`
			`start: 0,`
			`end: 0`
			`}`
			`)],`
			`Span {`
			`text: "".to_string(),`
			`line: 0,`
			`start: 0,`
			`end: 0`
			`}`
			`)],`
			`span: Span {`
			`text: "".to_string(),`
			`line: 0,`
			`start: 0,`
			`end: 0`
			`}`
remove snarkos group trait from compiler 2020-05-30 01:55:57 +03:00			`}`
			`)))`
			`)]`
update tests and leo cli 2020-05-30 03:34:31 +03:00			`)])`
			`.to_string(),`
			`output.to_string()`
impl circuit static, self, and failure tests 2020-05-20 22:45:40 +03:00			`);`
			`}`

			`// All`

fix index evaluation 2020-06-23 04:28:30 +03:00			`#[test]`
			`fn test_pedersen_mock() {`
			`use crate::integers::u32::output_zero;`

			`let bytes = include_bytes!("pedersen_mock.leo");`
			`let program = parse_program(bytes).unwrap();`

			`output_zero(program);`
			`}`