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Diffstat (limited to 'rust-tests/src/main.rs')
| -rw-r--r-- | rust-tests/src/main.rs | 150 |
1 files changed, 0 insertions, 150 deletions
diff --git a/rust-tests/src/main.rs b/rust-tests/src/main.rs deleted file mode 100644 index 125b0d76..00000000 --- a/rust-tests/src/main.rs +++ /dev/null @@ -1,150 +0,0 @@ -/// The following code generates the limits for the scalar types - -fn test_modulo(x: i32, y: i32) { - println!("{} % {} = {}", x, y, x % y); -} - -fn main() { - let ints_lower = [ - "isize", "i8", "i16", "i32", "i64", "i128", "usize", "u8", "u16", "u32", "u64", "u128", - ]; - - let ints_upper = [ - "Isize", "I8", "I16", "I32", "I64", "I128", "Usize", "U8", "U16", "U32", "U64", "U128", - ]; - - let can_fail_binops_lower = ["div", "rem", "add", "sub", "mul"]; - - let mut ints_pairs = vec![]; - for i in 0..ints_lower.len() { - ints_pairs.push((&ints_lower[i], &ints_upper[i])); - } - - // Generate the code to print the scalar ranges - for s in &ints_lower { - println!( - "println!(\"let {}_min = Z.of_string \\\"{{}}\\\"\", {}::MIN);", - s, s - ); - println!( - "println!(\"let {}_max = Z.of_string \\\"{{}}\\\"\", {}::MAX);", - s, s - ); - } - println!("\n"); - - // Generate the OCaml definitions for the ranges - this code is - // generated (comes from the above) - println!("let isize_min = Z.of_string \"{}\"", isize::MIN); - println!("let isize_max = Z.of_string \"{}\"", isize::MAX); - println!("let i8_min = Z.of_string \"{}\"", i8::MIN); - println!("let i8_max = Z.of_string \"{}\"", i8::MAX); - println!("let i16_min = Z.of_string \"{}\"", i16::MIN); - println!("let i16_max = Z.of_string \"{}\"", i16::MAX); - println!("let i32_min = Z.of_string \"{}\"", i32::MIN); - println!("let i32_max = Z.of_string \"{}\"", i32::MAX); - println!("let i64_min = Z.of_string \"{}\"", i64::MIN); - println!("let i64_max = Z.of_string \"{}\"", i64::MAX); - println!("let i128_min = Z.of_string \"{}\"", i128::MIN); - println!("let i128_max = Z.of_string \"{}\"", i128::MAX); - println!("let usize_min = Z.of_string \"{}\"", usize::MIN); - println!("let usize_max = Z.of_string \"{}\"", usize::MAX); - println!("let u8_min = Z.of_string \"{}\"", u8::MIN); - println!("let u8_max = Z.of_string \"{}\"", u8::MAX); - println!("let u16_min = Z.of_string \"{}\"", u16::MIN); - println!("let u16_max = Z.of_string \"{}\"", u16::MAX); - println!("let u32_min = Z.of_string \"{}\"", u32::MIN); - println!("let u32_max = Z.of_string \"{}\"", u32::MAX); - println!("let u64_min = Z.of_string \"{}\"", u64::MIN); - println!("let u64_max = Z.of_string \"{}\"", u64::MAX); - println!("let u128_min = Z.of_string \"{}\"", u128::MIN); - println!("let u128_max = Z.of_string \"{}\"", u128::MAX); - println!("\n"); - - // Generate the check_int_in_range body - for (lo, up) in &ints_pairs { - println!("| {} -> Z.leq {}_min i && Z.leq i {}_max", up, lo, lo); - } - println!("\n"); - - // Generate the scalar_value_get_value_range body - for s in &ints_upper { - println!("| {} i -> i", s); - } - println!("\n"); - - // Generate the mk_scalar body - for s in &ints_upper { - println!("| Types.{} -> Ok ({} i)", s, s); - } - println!("\n"); - - // Generate the code to print the scalar ranges in F* - for s in &ints_lower { - println!("println!(\"let {}_min : int = {{}}\", {}::MIN);", s, s); - println!("println!(\"let {}_max : int = {{}}\", {}::MAX);", s, s); - } - println!("\n"); - - // Generate the F* definitions for the ranges - this code is - // generated (comes from the above) - println!("let isize_min : int = {}", isize::MIN); - println!("let isize_max : int = {}", isize::MAX); - println!("let i8_min : int = {}", i8::MIN); - println!("let i8_max : int = {}", i8::MAX); - println!("let i16_min : int = {}", i16::MIN); - println!("let i16_max : int = {}", i16::MAX); - println!("let i32_min : int = {}", i32::MIN); - println!("let i32_max : int = {}", i32::MAX); - println!("let i64_min : int = {}", i64::MIN); - println!("let i64_max : int = {}", i64::MAX); - println!("let i128_min : int = {}", i128::MIN); - println!("let i128_max : int = {}", i128::MAX); - println!("let usize_min : int = {}", usize::MIN); - println!("let usize_max : int = {}", usize::MAX); - println!("let u8_min : int = {}", u8::MIN); - println!("let u8_max : int = {}", u8::MAX); - println!("let u16_min : int = {}", u16::MIN); - println!("let u16_max : int = {}", u16::MAX); - println!("let u32_min : int = {}", u32::MIN); - println!("let u32_max : int = {}", u32::MAX); - println!("let u64_min : int = {}", u64::MIN); - println!("let u64_max : int = {}", u64::MAX); - println!("let u128_min : int = {}", u128::MIN); - println!("let u128_max : int = {}", u128::MAX); - println!("\n"); - - // Generate the body for the ScalarTy definition - for (_lo, up) in &ints_pairs { - println!("| {}", up); - } - println!("\n"); - - // Generate the body for the max/min F* functions - for (lo, up) in &ints_pairs { - println!("| {} -> {}_min", up, lo); - } - println!("\n"); - - // Generate the scalar types for F* - for (lo, up) in &ints_pairs { - println!("type {} = scalar {}", lo, up); - } - println!("\n"); - - // Generate the unops (rk.: we need to manually filter `-` applied on - // unisgned numbers) - for binop in &can_fail_binops_lower { - for (lo, up) in &ints_pairs { - println!("let {}_{} = scalar_{} #{}", lo, binop, binop, up); - } - println!(""); - } - println!("\n"); - - // Modulo tests - test_modulo(1, 2); - test_modulo(-1, 2); - test_modulo(1, -2); - test_modulo(-1, -2); -} |