Adding upstream version 1:115.7.0.upstream/1%115.7.0upstream

Signed-off-by: Daniel Baumann <daniel.baumann@progress-linux.org>

1 files changed, 462 insertions, 0 deletions

diff --git a/third_party/rust/enumset/tests/ops.rs b/third_party/rust/enumset/tests/ops.rs
new file mode 100644
index 0000000000..0e71378431
--- /dev/null
+++ b/third_party/rust/enumset/tests/ops.rs
@@ -0,0 +1,462 @@
+#![allow(dead_code)]
+
+use enumset::*;
+use std::collections::{HashSet, BTreeSet};
+
+#[derive(EnumSetType, Debug)]
+pub enum EmptyEnum { }
+
+#[derive(EnumSetType, Debug)]
+pub enum Enum1 {
+    A,
+}
+
+#[derive(EnumSetType, Debug)]
+pub enum SmallEnum {
+    A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U, V, W, X, Y, Z,
+}
+#[derive(Clone, Copy, Debug, EnumSetType, Eq, PartialEq)]
+#[enumset(no_super_impls)]
+pub enum SmallEnumExplicitDerive {
+    A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U, V, W, X, Y, Z,
+}
+#[derive(EnumSetType, Debug)]
+pub enum LargeEnum {
+    _00,  _01,  _02,  _03,  _04,  _05,  _06,  _07,
+    _10,  _11,  _12,  _13,  _14,  _15,  _16,  _17,
+    _20,  _21,  _22,  _23,  _24,  _25,  _26,  _27,
+    _30,  _31,  _32,  _33,  _34,  _35,  _36,  _37,
+    _40,  _41,  _42,  _43,  _44,  _45,  _46,  _47,
+    _50,  _51,  _52,  _53,  _54,  _55,  _56,  _57,
+    _60,  _61,  _62,  _63,  _64,  _65,  _66,  _67,
+    _70,  _71,  _72,  _73,  _74,  _75,  _76,  _77,
+    A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U, V, W, X, Y, Z,
+}
+#[derive(EnumSetType, Debug)]
+pub enum Enum8 {
+    A, B, C, D, E, F, G, H,
+}
+#[derive(EnumSetType, Debug)]
+pub enum Enum128 {
+    A, B, C, D, E, F, G, H, _8, _9, _10, _11, _12, _13, _14, _15,
+    _16, _17, _18, _19, _20, _21, _22, _23, _24, _25, _26, _27, _28, _29, _30, _31,
+    _32, _33, _34, _35, _36, _37, _38, _39, _40, _41, _42, _43, _44, _45, _46, _47,
+    _48, _49, _50, _51, _52, _53, _54, _55, _56, _57, _58, _59, _60, _61, _62, _63,
+    _64, _65, _66, _67, _68, _69, _70, _71, _72, _73, _74, _75, _76, _77, _78, _79,
+    _80, _81, _82, _83, _84, _85, _86, _87, _88, _89, _90, _91, _92, _93, _94, _95,
+    _96, _97, _98, _99, _100, _101, _102, _103, _104, _105, _106, _107, _108, _109,
+    _110, _111, _112, _113, _114, _115, _116, _117, _118, _119, _120, _121, _122,
+    _123, _124,  _125, _126, _127,
+}
+#[derive(EnumSetType, Debug)]
+pub enum SparseEnum {
+    A = 0xA, B = 20, C = 30, D = 40, E = 50, F = 60, G = 70, H = 80,
+}
+
+#[repr(u32)]
+#[derive(EnumSetType, Debug)]
+pub enum ReprEnum {
+    A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U, V, W, X, Y, Z,
+}
+#[repr(u64)]
+#[derive(EnumSetType, Debug)]
+pub enum ReprEnum2 {
+    A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U, V, W, X, Y, Z,
+}
+#[repr(isize)]
+#[derive(EnumSetType, Debug)]
+pub enum ReprEnum3 {
+    A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U, V, W, X, Y, Z,
+}
+#[repr(C)]
+#[derive(EnumSetType, Debug)]
+pub enum ReprEnum4 {
+    A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U, V, W, X, Y, Z,
+}
+
+macro_rules! test_variants {
+    ($enum_name:ident $all_empty_test:ident $($variant:ident,)*) => {
+        #[test]
+        fn $all_empty_test() {
+            let all = EnumSet::<$enum_name>::all();
+            let empty = EnumSet::<$enum_name>::empty();
+
+            $(
+                assert!(!empty.contains($enum_name::$variant));
+                assert!(all.contains($enum_name::$variant));
+            )*
+        }
+    }
+}
+test_variants! { SmallEnum small_enum_all_empty
+    A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U, V, W, X, Y, Z,
+}
+test_variants! { SmallEnumExplicitDerive small_enum_explicit_derive_all_empty
+    A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U, V, W, X, Y, Z,
+}
+test_variants! { LargeEnum large_enum_all_empty
+    _00,  _01,  _02,  _03,  _04,  _05,  _06,  _07,
+    _10,  _11,  _12,  _13,  _14,  _15,  _16,  _17,
+    _20,  _21,  _22,  _23,  _24,  _25,  _26,  _27,
+    _30,  _31,  _32,  _33,  _34,  _35,  _36,  _37,
+    _40,  _41,  _42,  _43,  _44,  _45,  _46,  _47,
+    _50,  _51,  _52,  _53,  _54,  _55,  _56,  _57,
+    _60,  _61,  _62,  _63,  _64,  _65,  _66,  _67,
+    _70,  _71,  _72,  _73,  _74,  _75,  _76,  _77,
+    A, B, C, D, E, F, G, H, I, J, K, L, M, N, O, P, Q, R, S, T, U, V, W, X, Y, Z,
+}
+test_variants! { SparseEnum sparse_enum_all_empty
+    A, B, C, D, E, F, G,
+}
+
+macro_rules! test_enum {
+    ($e:ident, $mem_size:expr) => {
+        const CONST_SET: EnumSet<$e> = enum_set!($e::A | $e::C);
+        const CONST_1_SET: EnumSet<$e> = enum_set!($e::A);
+        const EMPTY_SET: EnumSet<$e> = enum_set!();
+        #[test]
+        fn const_set() {
+            assert_eq!(CONST_SET.len(), 2);
+            assert_eq!(CONST_1_SET.len(), 1);
+            assert!(CONST_SET.contains($e::A));
+            assert!(CONST_SET.contains($e::C));
+            assert!(EMPTY_SET.is_empty());
+        }
+
+        #[test]
+        fn basic_add_remove() {
+            let mut set = EnumSet::new();
+            set.insert($e::A);
+            set.insert($e::B);
+            set.insert($e::C);
+            assert_eq!(set, $e::A | $e::B | $e::C);
+            set.remove($e::B);
+            assert_eq!(set, $e::A | $e::C);
+            set.insert($e::D);
+            assert_eq!(set, $e::A | $e::C | $e::D);
+            set.insert_all($e::F | $e::E | $e::G);
+            assert_eq!(set, $e::A | $e::C | $e::D | $e::F | $e::E | $e::G);
+            set.remove_all($e::A | $e::D | $e::G);
+            assert_eq!(set, $e::C | $e::F | $e::E);
+            assert!(!set.is_empty());
+            set.clear();
+            assert!(set.is_empty());
+        }
+
+        #[test]
+        fn already_present_element() {
+            let mut set = EnumSet::new();
+            assert!(set.insert($e::A));
+            assert!(!set.insert($e::A));
+            set.remove($e::A);
+            assert!(set.insert($e::A));
+        }
+
+        #[test]
+        fn empty_is_empty() {
+            assert_eq!(EnumSet::<$e>::empty().len(), 0)
+        }
+
+        #[test]
+        fn all_len() {
+            assert_eq!(EnumSet::<$e>::all().len(), EnumSet::<$e>::variant_count() as usize)
+        }
+
+        #[test]
+        fn iter_test() {
+            let mut set = EnumSet::new();
+            set.insert($e::A);
+            set.insert($e::B);
+            set.extend($e::C | $e::E);
+
+            let mut set_2 = EnumSet::new();
+            let vec: Vec<_> = set.iter().collect();
+            for val in vec {
+                assert!(!set_2.contains(val));
+                set_2.insert(val);
+            }
+            assert_eq!(set, set_2);
+
+            let mut set_3 = EnumSet::new();
+            for val in set {
+                assert!(!set_3.contains(val));
+                set_3.insert(val);
+            }
+            assert_eq!(set, set_3);
+
+            let mut set_4 = EnumSet::new();
+            let vec: EnumSet<_> = set.into_iter().map(EnumSet::only).collect();
+            for val in vec {
+                assert!(!set_4.contains(val));
+                set_4.insert(val);
+            }
+            assert_eq!(set, set_4);
+
+            let mut set_5 = EnumSet::new();
+            let vec: EnumSet<_> = set.iter().collect();
+            for val in vec {
+                assert!(!set_5.contains(val));
+                set_5.insert(val);
+            }
+            assert_eq!(set, set_5);
+        }
+
+        #[test]
+        fn iter_ordering_test() {
+            let set_a = $e::A | $e::B | $e::E;
+            let vec_a: Vec<_> = set_a.iter().collect();
+            assert_eq!(vec_a, &[$e::A, $e::B, $e::E]);
+            let vec_a_rev: Vec<_> = set_a.iter().rev().collect();
+            assert_eq!(vec_a_rev, &[$e::E, $e::B, $e::A]);
+
+            let set_b = $e::B | $e::C | $e::D | $e::G;
+            let vec_b: Vec<_> = set_b.iter().collect();
+            assert_eq!(vec_b, &[$e::B, $e::C, $e::D, $e::G]);
+            let vec_b_rev: Vec<_> = set_b.iter().rev().collect();
+            assert_eq!(vec_b_rev, &[$e::G, $e::D, $e::C, $e::B]);
+        }
+
+        fn check_iter_size_hint(set: EnumSet<$e>) {
+            let count = set.len();
+            let mut itr = set.iter();
+            for idx in 0 .. count {
+                assert_eq!(itr.size_hint(), (count-idx, Some(count-idx)));
+                assert_eq!(itr.len(), count-idx);
+                assert!(itr.next().is_some());
+            }
+            assert_eq!(itr.size_hint(), (0, Some(0)));
+            assert_eq!(itr.len(), 0);
+        }
+        #[test]
+        fn test_iter_size_hint() {
+            check_iter_size_hint(EnumSet::<$e>::all());
+            let mut set = EnumSet::new();
+            set.insert($e::A);
+            set.insert($e::C);
+            set.insert($e::E);
+            check_iter_size_hint(set);
+        }
+
+        #[test]
+        fn iter_ops_test() {
+            let set = $e::A | $e::B | $e::C | $e::E;
+            let set2 = set.iter().filter(|&v| v != $e::B).collect::<EnumSet<_>>();
+            assert_eq!(set2, $e::A | $e::C | $e::E);
+        }
+
+        #[test]
+        fn basic_ops_test() {
+            assert_eq!(($e::A | $e::B) | ($e::B | $e::C), $e::A | $e::B | $e::C);
+            assert_eq!(($e::A | $e::B) & ($e::B | $e::C), $e::B);
+            assert_eq!(($e::A | $e::B) ^ ($e::B | $e::C), $e::A | $e::C);
+            assert_eq!(($e::A | $e::B) - ($e::B | $e::C), $e::A);
+            assert_eq!($e::A | !$e::A, EnumSet::<$e>::all());
+        }
+
+        #[test]
+        fn mutable_ops_test() {
+            let mut set = $e::A | $e::B;
+            assert_eq!(set, $e::A | $e::B);
+            set |= $e::C | $e::D;
+            assert_eq!(set, $e::A | $e::B | $e::C | $e::D);
+            set -= $e::C;
+            assert_eq!(set, $e::A | $e::B | $e::D);
+            set ^= $e::B | $e::E;
+            assert_eq!(set, $e::A | $e::D | $e::E);
+            set &= $e::A | $e::E | $e::F;
+            assert_eq!(set, $e::A | $e::E);
+        }
+
+        #[test]
+        fn basic_set_status() {
+            assert!(($e::A | $e::B | $e::C).is_disjoint($e::D | $e::E | $e::F));
+            assert!(!($e::A | $e::B | $e::C | $e::D).is_disjoint($e::D | $e::E | $e::F));
+            assert!(($e::A | $e::B).is_subset($e::A | $e::B | $e::C));
+            assert!(!($e::A | $e::D).is_subset($e::A | $e::B | $e::C));
+        }
+
+        #[test]
+        fn debug_impl() {
+            assert_eq!(format!("{:?}", $e::A | $e::B | $e::D), "EnumSet(A | B | D)");
+        }
+
+        #[test]
+        fn to_from_bits() {
+            let value = $e::A | $e::C | $e::D | $e::F | $e::E | $e::G;
+            assert_eq!(EnumSet::from_u128(value.as_u128()), value);
+        }
+
+        #[test]
+        #[should_panic]
+        fn too_many_bits() {
+            if EnumSet::<$e>::variant_count() == 128 {
+                panic!("(test skipped)")
+            }
+            EnumSet::<$e>::from_u128(!0);
+        }
+
+        #[test]
+        fn match_const_test() {
+            match CONST_SET {
+                CONST_SET => { /* ok */ }
+                _ => panic!("match fell through?"),
+            }
+        }
+
+        #[test]
+        fn set_test() {
+            const SET_TEST_A: EnumSet<$e> = enum_set!($e::A | $e::B | $e::C);
+            const SET_TEST_B: EnumSet<$e> = enum_set!($e::A | $e::B | $e::D);
+            const SET_TEST_C: EnumSet<$e> = enum_set!($e::A | $e::B | $e::E);
+            const SET_TEST_D: EnumSet<$e> = enum_set!($e::A | $e::B | $e::F);
+            const SET_TEST_E: EnumSet<$e> = enum_set!($e::A | $e::B | $e::G);
+            macro_rules! test_set {
+                ($set:ident) => {{
+                    assert!(!$set.contains(&SET_TEST_A));
+                    assert!(!$set.contains(&SET_TEST_B));
+                    assert!(!$set.contains(&SET_TEST_C));
+                    assert!(!$set.contains(&SET_TEST_D));
+                    assert!(!$set.contains(&SET_TEST_E));
+                    $set.insert(SET_TEST_A);
+                    $set.insert(SET_TEST_C);
+                    assert!($set.contains(&SET_TEST_A));
+                    assert!(!$set.contains(&SET_TEST_B));
+                    assert!($set.contains(&SET_TEST_C));
+                    assert!(!$set.contains(&SET_TEST_D));
+                    assert!(!$set.contains(&SET_TEST_E));
+                    $set.remove(&SET_TEST_C);
+                    $set.remove(&SET_TEST_D);
+                    assert!($set.contains(&SET_TEST_A));
+                    assert!(!$set.contains(&SET_TEST_B));
+                    assert!(!$set.contains(&SET_TEST_C));
+                    assert!(!$set.contains(&SET_TEST_D));
+                    assert!(!$set.contains(&SET_TEST_E));
+                    $set.insert(SET_TEST_A);
+                    $set.insert(SET_TEST_D);
+                    assert!($set.contains(&SET_TEST_A));
+                    assert!(!$set.contains(&SET_TEST_B));
+                    assert!(!$set.contains(&SET_TEST_C));
+                    assert!($set.contains(&SET_TEST_D));
+                    assert!(!$set.contains(&SET_TEST_E));
+                }}
+            }
+
+            let mut hash_set = HashSet::new();
+            test_set!(hash_set);
+
+            let mut tree_set = BTreeSet::new();
+            test_set!(tree_set);
+        }
+
+        #[test]
+        fn sum_test() {
+            let target = $e::A | $e::B | $e::D | $e::E | $e::G | $e::H;
+
+            let list_a = [$e::A | $e::B, $e::D | $e::E, $e::G | $e::H];
+            let sum_a: EnumSet<$e> = list_a.iter().map(|x| *x).sum();
+            assert_eq!(target, sum_a);
+            let sum_b: EnumSet<$e> = list_a.iter().sum();
+            assert_eq!(target, sum_b);
+
+            let list_b = [$e::A, $e::B, $e::D, $e::E, $e::G, $e::H];
+            let sum_c: EnumSet<$e> = list_b.iter().map(|x| *x).sum();
+            assert_eq!(target, sum_c);
+            let sum_d: EnumSet<$e> = list_b.iter().sum();
+            assert_eq!(target, sum_d);
+        }
+
+        #[test]
+        fn check_size() {
+            assert_eq!(::std::mem::size_of::<EnumSet<$e>>(), $mem_size);
+        }
+    }
+}
+macro_rules! tests {
+    ($m:ident, $($tt:tt)*) => { mod $m { use super::*; $($tt)*; } }
+}
+
+tests!(small_enum, test_enum!(SmallEnum, 4));
+tests!(small_enum_explicit_derive, test_enum!(SmallEnumExplicitDerive, 4));
+tests!(large_enum, test_enum!(LargeEnum, 16));
+tests!(enum8, test_enum!(Enum8, 1));
+tests!(enum128, test_enum!(Enum128, 16));
+tests!(sparse_enum, test_enum!(SparseEnum, 16));
+tests!(repr_enum_u32, test_enum!(ReprEnum, 4));
+tests!(repr_enum_u64, test_enum!(ReprEnum2, 4));
+tests!(repr_enum_isize, test_enum!(ReprEnum3, 4));
+tests!(repr_enum_c, test_enum!(ReprEnum4, 4));
+
+#[derive(EnumSetType, Debug)]
+pub enum ThresholdEnum {
+    A = 1, B, C, D,
+    U8 = 0, U16 = 8, U32 = 16, U64 = 32, U128 = 64,
+}
+macro_rules! bits_tests {
+    (
+        $mod_name:ident, $threshold_expr:expr, ($($too_big_expr:expr),*), $ty:ty,
+        $to:ident $try_to:ident $to_truncated:ident
+        $from:ident $try_from:ident $from_truncated:ident
+    ) => {
+        mod $mod_name {
+            use super::*;
+            use crate::ThresholdEnum::*;
+
+            #[test]
+            fn to_from_basic() {
+                for &mask in &[
+                    $threshold_expr | B | C | D,
+                    $threshold_expr | A | D,
+                    $threshold_expr | B | C,
+                ] {
+                    assert_eq!(mask, EnumSet::<ThresholdEnum>::$from(mask.$to()));
+                    assert_eq!(mask.$to_truncated(), mask.$to());
+                    assert_eq!(Some(mask.$to()), mask.$try_to())
+                }
+            }
+
+            #[test]
+            #[should_panic]
+            fn from_invalid() {
+                let invalid_mask: $ty = 0x80;
+                EnumSet::<ThresholdEnum>::$from(invalid_mask);
+            }
+
+            #[test]
+            fn try_from_invalid() {
+                assert!(EnumSet::<ThresholdEnum>::$try_from(0xFF).is_none());
+            }
+
+            $(
+                #[test]
+                fn try_to_overflow() {
+                        let set: EnumSet<ThresholdEnum> = $too_big_expr.into();
+                        assert!(set.$try_to().is_none());
+                }
+            )*
+
+            #[test]
+            fn truncated_overflow() {
+                let trunc_invalid = EnumSet::<ThresholdEnum>::$from_truncated(0xFE);
+                assert_eq!(A | B | C | D, trunc_invalid);
+                $(
+                    let set: EnumSet<ThresholdEnum> = $too_big_expr | A;
+                    assert_eq!(2, set.$to_truncated());
+                )*
+            }
+        }
+    }
+}
+
+bits_tests!(test_u8_bits, U8, (U16), u8,
+            as_u8 try_as_u8 as_u8_truncated from_u8 try_from_u8 from_u8_truncated);
+bits_tests!(test_u16_bits, U16, (U32), u16,
+            as_u16 try_as_u16 as_u16_truncated from_u16 try_from_u16 from_u16_truncated);
+bits_tests!(test_u32_bits, U32, (U64), u32,
+            as_u32 try_as_u32 as_u32_truncated from_u32 try_from_u32 from_u32_truncated);
+bits_tests!(test_u64_bits, U64, (U128), u64,
+            as_u64 try_as_u64 as_u64_truncated from_u64 try_from_u64 from_u64_truncated);
+bits_tests!(test_u128_bits, U128, (), u128,
+            as_u128 try_as_u128 as_u128_truncated from_u128 try_from_u128 from_u128_truncated);
+bits_tests!(test_uize_bits, U32, (U128), usize,
+            as_usize try_as_usize as_usize_truncated
+            from_usize try_from_usize from_usize_truncated);
\ No newline at end of file