CSY/reowolf Files · src/protocol/tests/eval_casting.rs · Centrum Wiskunde & Informatica (CWI)

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Location: CSY/reowolf/src/protocol/tests/eval_casting.rs - annotation

031c9d14adaa 3.1 KiB application/rls-services+xml Show Source Show as Raw Download as Raw

Merge branch 'feat-bytecode'

Adds size/alignment/offset computations to the type system and detects
potentially infinite types. If the type is potentially infinite but
contains a union that can break that type loop, then all other variants
of that union are supposed to be allocated on the heap. If the type
is potentially infinite but cannot be broken up, then we throw the
appropriate error.

The size/alignment/offset computations are not yet employed in the
runtime. But prepares Reowolf for a proper bytecode/IR implementation.

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use super::*;

#[test]
fn test_valid_unsigned_casting() {
    Tester::new_single_source_expect_ok("cast u8", "
        func foo() -> bool {
            u64 large_width = 255;
            u8 small_width = 255;

            // Explicit casting
            auto large_exp_to_08 = cast<u8> (large_width);
            auto large_exp_to_16 = cast<u16>(large_width);
            auto large_exp_to_32 = cast<u32>(large_width);
            auto large_exp_to_64 = cast<u64>(large_width);

            auto small_exp_to_08 = cast<u8> (small_width);
            auto small_exp_to_16 = cast<u16>(small_width);
            auto small_exp_to_32 = cast<u32>(small_width);
            auto small_exp_to_64 = cast<u64>(small_width);

            // Implicit casting
            u8  large_imp_to_08 = cast(large_width);
            u16 large_imp_to_16 = cast(large_width);
            u32 large_imp_to_32 = cast(large_width);
            u64 large_imp_to_64 = cast(large_width);

            u8  small_imp_to_08 = cast(small_width);
            u16 small_imp_to_16 = cast(small_width);
            u32 small_imp_to_32 = cast(small_width);
            u64 small_imp_to_64 = cast(small_width);

            return
                large_exp_to_08 == 255 && large_exp_to_16 == 255 && large_exp_to_32 == 255 && large_exp_to_64 == 255 &&
                small_exp_to_08 == 255 && small_exp_to_16 == 255 && small_exp_to_32 == 255 && small_exp_to_64 == 255 &&
                large_imp_to_08 == 255 && large_imp_to_16 == 255 && large_imp_to_32 == 255 && large_imp_to_64 == 255 &&
                small_imp_to_08 == 255 && small_imp_to_16 == 255 && small_imp_to_32 == 255 && small_imp_to_64 == 255;
        }
    ").for_function("foo", |f| { f
        .call_ok(Some(Value::Bool(true)));
    });
}

#[test]
fn test_invalid_casting() {
    fn generate_source(input_type: &str, input_value: &str, output_type: &str) -> String {
        return format!("
        func foo() -> u32 {{
            {} value = {};
            {} result = cast(value);
            return 0;
        }}
        ", input_type, input_value, output_type);
    }

    fn perform_test(input_type: &str, input_value: &str, output_type: &str) {
        Tester::new_single_source_expect_ok(
            format!("invalid cast {} to {}", input_type, output_type),
            generate_source(input_type, input_value, output_type)
        ).for_function("foo", |f| {
            f.call_err(&format!("'{}' which doesn't fit in a type '{}'", input_value, output_type));
        });
    }

    // Not exhaustive, good enough
    let tests = [
        // Unsigned large to small width
        ("u16", "256", "u8"),
        ("u32", "256", "u8"),
        ("u64", "256", "u8"),
        ("u32", "65536", "u16"),
        ("u64", "65536", "u16"),
        // Signed to unsigned
        ("s8", "-1", "u8"),
        ("s32", "-1", "u16"),
        ("s32", "65536", "u16"),
        // Signed to signed of smaller width
        ("s16", "-129", "s8"),
        ("s16", "128", "s8"),
        // Unsigned to signed
        ("u8", "128", "s8"),
        ("u16", "32768", "s16")
    ];

    for (input_type, input_value, output_type) in &tests {
        perform_test(input_type, input_value, output_type);
    }
}