use enumset::*; macro_rules! read_slice { ($set:expr, $size:expr) => {{ let mut arr = [0; $size]; $set.copy_into_slice(&mut arr); arr }}; } macro_rules! try_read_slice { ($set:expr, $size:expr) => {{ let mut arr = [0; $size]; match $set.try_copy_into_slice(&mut arr) { Some(()) => Some(arr), None => None, } }}; } macro_rules! read_slice_truncated { ($set:expr, $size:expr) => {{ let mut arr = [0; $size]; $set.copy_into_slice_truncated(&mut arr); arr }}; } #[derive(EnumSetType, Debug)] pub enum Enum8 { A, B, C, D, E, F, G, // H omitted for non-existent bit test } #[derive(EnumSetType, Debug)] pub enum Enum16 { A, B, C, D, E=8, F, G, H, } #[derive(EnumSetType, Debug)] pub enum Enum32 { A, B, C, D, E=16, F, G, H, } #[derive(EnumSetType, Debug)] pub enum Enum64 { A, B, C, D, E=32, F, G, H, } #[derive(EnumSetType, Debug)] pub enum Enum128 { A, B, C, D, E=64, F, G, H, } #[derive(EnumSetType, Debug)] pub enum Enum192 { A, B, C, D, E=128, F, G, H, } #[derive(EnumSetType, Debug)] pub enum Enum256 { A, B, C, D, E=192, F, G, H, } macro_rules! check_simple_conversion { ($mod:ident, $e:ident) => { mod $mod { use super::*; #[test] fn to_integer() { assert_eq!(7, ($e::A | $e::B | $e::C).as_u8()); assert_eq!(7, ($e::A | $e::B | $e::C).as_u16()); assert_eq!(7, ($e::A | $e::B | $e::C).as_u32()); assert_eq!(7, ($e::A | $e::B | $e::C).as_u64()); assert_eq!(7, ($e::A | $e::B | $e::C).as_u128()); assert_eq!(7, ($e::A | $e::B | $e::C).as_usize()); } #[test] fn try_from_integer() { assert_eq!(Some($e::A | $e::B | $e::C), EnumSet::try_from_u8(7)); assert_eq!(None, EnumSet::<$e>::try_from_u8(7 | (1 << 7))); assert_eq!(None, EnumSet::<$e>::try_from_u16(7 | (1 << 15))); assert_eq!(None, EnumSet::<$e>::try_from_u32(7 | (1 << 31))); assert_eq!(None, EnumSet::<$e>::try_from_usize(7 | (1 << 31))); assert_eq!(None, EnumSet::<$e>::try_from_u64(7 | (1 << 63))); assert_eq!(None, EnumSet::<$e>::try_from_u128(7 | (1 << 127))); } #[test] fn from_integer_truncated() { assert_eq!($e::A | $e::B | $e::C, EnumSet::from_u8_truncated(7)); assert_eq!($e::A | $e::B | $e::C, EnumSet::from_u8_truncated(7 | (1 << 7))); assert_eq!($e::A | $e::B | $e::C, EnumSet::from_u16_truncated(7 | (1 << 15))); assert_eq!($e::A | $e::B | $e::C, EnumSet::from_u32_truncated(7 | (1 << 31))); assert_eq!($e::A | $e::B | $e::C, EnumSet::from_usize_truncated(7 | (1 << 31))); assert_eq!($e::A | $e::B | $e::C, EnumSet::from_u64_truncated(7 | (1 << 63))); assert_eq!($e::A | $e::B | $e::C, EnumSet::from_u128_truncated(7 | (1 << 127))); } #[test] fn basic_to_array() { // array tests assert_eq!(($e::A | $e::B | $e::C).as_array_truncated(), []); assert_eq!(EnumSet::<$e>::EMPTY.as_array_truncated(), []); assert_eq!(($e::A | $e::B | $e::C).as_array(), [7]); assert_eq!(($e::A | $e::B | $e::C).as_array(), [7, 0]); assert_eq!(($e::A | $e::B | $e::C).as_array(), [7, 0, 0]); assert_eq!(($e::A | $e::B | $e::C).as_array(), [7, 0, 0, 0]); assert_eq!(($e::A | $e::B | $e::C).as_array(), [7, 0, 0, 0, 0]); // slice tests assert_eq!(read_slice!($e::A | $e::B | $e::C, 1), [7]); assert_eq!(read_slice!($e::A | $e::B | $e::C, 2), [7, 0]); assert_eq!(read_slice!($e::A | $e::B | $e::C, 3), [7, 0, 0]); assert_eq!(read_slice!($e::A | $e::B | $e::C, 4), [7, 0, 0, 0]); assert_eq!(read_slice!($e::A | $e::B | $e::C, 5), [7, 0, 0, 0, 0]); // slice tests truncated assert_eq!(read_slice_truncated!($e::A | $e::B | $e::C, 1), [7]); assert_eq!(read_slice_truncated!($e::A | $e::B | $e::C, 2), [7, 0]); assert_eq!(read_slice_truncated!($e::A | $e::B | $e::C, 3), [7, 0, 0]); assert_eq!(read_slice_truncated!($e::A | $e::B | $e::C, 4), [7, 0, 0, 0]); assert_eq!(read_slice_truncated!($e::A | $e::B | $e::C, 5), [7, 0, 0, 0, 0]); } #[test] fn basic_from_array() { // array tests assert_eq!(EnumSet::<$e>::EMPTY, EnumSet::<$e>::from_array([])); assert_eq!($e::A | $e::B | $e::C, EnumSet::<$e>::from_array([7])); assert_eq!($e::A | $e::B | $e::C, EnumSet::<$e>::from_array([7, 0, 0])); assert_eq!($e::A | $e::B | $e::C, EnumSet::<$e>::from_array([7, 0, 0, 0])); assert_eq!($e::A | $e::B | $e::C, EnumSet::<$e>::from_array([7, 0, 0, 0, 0])); // array tests assert_eq!(EnumSet::<$e>::EMPTY, EnumSet::<$e>::from_slice(&[])); assert_eq!($e::A | $e::B | $e::C, EnumSet::<$e>::from_slice(&[7])); assert_eq!($e::A | $e::B | $e::C, EnumSet::<$e>::from_slice(&[7, 0, 0])); assert_eq!($e::A | $e::B | $e::C, EnumSet::<$e>::from_slice(&[7, 0, 0, 0])); assert_eq!($e::A | $e::B | $e::C, EnumSet::<$e>::from_slice(&[7, 0, 0, 0, 0])); } #[test] fn basic_from_array_truncated() { // array tests assert_eq!(EnumSet::<$e>::EMPTY, EnumSet::<$e>::from_array_truncated([])); assert_eq!($e::A | $e::B | $e::C, EnumSet::<$e>::from_array_truncated([7 | (1 << 31)])); assert_eq!($e::A | $e::B | $e::C, EnumSet::<$e>::from_array_truncated([7, 0, 16])); assert_eq!($e::A | $e::B | $e::C, EnumSet::<$e>::from_array_truncated([7, 0, 0, 16])); assert_eq!($e::A | $e::B | $e::C, EnumSet::<$e>::from_array_truncated([7, 0, 0, 0, 16])); // array tests assert_eq!(EnumSet::<$e>::EMPTY, EnumSet::<$e>::from_slice_truncated(&[])); assert_eq!($e::A | $e::B | $e::C, EnumSet::<$e>::from_slice_truncated(&[7 | (1 << 31)])); assert_eq!($e::A | $e::B | $e::C, EnumSet::<$e>::from_slice_truncated(&[7, 0, 16])); assert_eq!($e::A | $e::B | $e::C, EnumSet::<$e>::from_slice_truncated(&[7, 0, 0, 16])); assert_eq!($e::A | $e::B | $e::C, EnumSet::<$e>::from_slice_truncated(&[7, 0, 0, 0, 16])); } #[test] #[should_panic] fn fail_from_u8() { EnumSet::<$e>::from_u8(7 | (1 << 7)); } #[test] #[should_panic] fn fail_from_u16() { EnumSet::<$e>::from_u16(7 | (1 << 15)); } #[test] #[should_panic] fn fail_from_u32() { EnumSet::<$e>::from_u32(7 | (1 << 31)); } #[test] #[should_panic] fn fail_from_usize() { EnumSet::<$e>::from_usize(7 | (1 << 31)); } #[test] #[should_panic] fn fail_from_u64() { EnumSet::<$e>::from_u64(7 | (1 << 63)); } #[test] #[should_panic] fn fail_from_u128() { EnumSet::<$e>::from_u128(7 | (1 << 127)); } #[test] #[should_panic] fn fail_to_array() { ($e::A | $e::B | $e::C).as_array::<0>(); } #[test] #[should_panic] fn fail_to_slice() { read_slice!($e::A | $e::B | $e::C, 0); } #[test] #[should_panic] fn fail_from_array_1() { EnumSet::<$e>::from_array([7 | (1 << 63), 0, 0, 0]); } #[test] #[should_panic] fn fail_from_slice_1() { EnumSet::<$e>::from_slice(&[7 | (1 << 63), 0, 0, 0]); } #[test] #[should_panic] fn fail_from_array_2() { EnumSet::<$e>::from_array([7, 0, 0, 0, 1]); } #[test] #[should_panic] fn fail_from_slice_2() { EnumSet::<$e>::from_slice(&[7, 0, 0, 0, 1]); } } }; } check_simple_conversion!(enum_8_simple, Enum8); check_simple_conversion!(enum_16_simple, Enum16); check_simple_conversion!(enum_32_simple, Enum32); check_simple_conversion!(enum_64_simple, Enum64); check_simple_conversion!(enum_128_simple, Enum128); check_simple_conversion!(enum_192_simple, Enum192); check_simple_conversion!(enum_256_simple, Enum256); macro_rules! check_oversized_64 { ($mod:ident, $e:ident) => { mod $mod { use super::*; #[test] fn downcast_to_u64() { assert_eq!(Some(7), ($e::A | $e::B | $e::C).try_as_u64()); assert_eq!(Some([7]), ($e::A | $e::B | $e::C).try_as_array()); assert_eq!(Some([7]), try_read_slice!($e::A | $e::B | $e::C, 1)); assert_eq!(None, ($e::E | $e::F | $e::G).try_as_u64()); assert_eq!(None, ($e::E | $e::F | $e::G).try_as_array::<1>()); assert_eq!(None, try_read_slice!($e::E | $e::F | $e::G, 1)); } #[test] fn downcast_to_u64_truncated() { assert_eq!(0, ($e::E | $e::F | $e::G).as_u64_truncated()); assert_eq!([0], ($e::E | $e::F | $e::G).as_array_truncated()); assert_eq!([0], read_slice_truncated!($e::E | $e::F | $e::G, 1)); } #[test] #[should_panic] fn fail_to_u64() { ($e::E | $e::F | $e::G).as_u64(); } } }; } check_oversized_64!(enum_128_oversized_64, Enum128); check_oversized_64!(enum_192_oversized_64, Enum192); check_oversized_64!(enum_256_oversized_64, Enum256); macro_rules! check_oversized_128 { ($mod:ident, $e:ident) => { mod $mod { use super::*; #[test] fn downcast_to_u128() { assert_eq!(Some(7), ($e::A | $e::B | $e::C).try_as_u128()); assert_eq!(None, ($e::E | $e::F | $e::G).try_as_u128()); assert_eq!(0, ($e::E | $e::F | $e::G).as_u128_truncated()); } #[test] #[should_panic] fn fail_to_u128() { ($e::E | $e::F | $e::G).as_u128(); } } }; } check_oversized_128!(enum_192_oversized_128, Enum192); check_oversized_128!(enum_256_oversized_128, Enum256);