f0720c1d12
The compiler should only report diagnostics for
comparisons over builtins and identity-less types,
other incompatibilities should be reported
via inspections.
It's ok that in `equalityChecksOnIntegerTypes`
instead of `EQUALITY_NOT_APPLICABLE_WARNING` we get
`EQUALITY_NOT_APPLICABLE`, because
`ProperEqualityChecksInBuilderInferenceCalls`
is already active by default.
This change also replaces the notion of a representative superclass
with the least upper bound.
This makes complex types like
intersection/flexible transparent to
RULES1-based compatibility checks.
One way to look at it is to think
that this is an automatic way of handling
type parameters: automatic picking of
"interesting" bounds, and checking them against one another.
Note that `TypeIntersector.intersectTypes`
for `Int` and `T` where `T` is a type parameter
may return both `{Int & T}` or `null`
depending on `T`-s bounds. At the same time,
for type parameters `T` and `K` it will
always return `{T & K}`.
`ConeTypeIntersector.intersectTypes`, on the
other hand, will always return `{Int & T}`
irrespectively of the bounds. Meaning, the two
intersectors differ in corner cases.
`lowerBoundIfFlexible` call in `isLiterallyTypeParameter` is backed by
the `equalityOfFlexibleTypeParameters` test.
^KT-35134 #fixed-in-k2
^KT-22499 #fixed-in-k2
^KT-46383 #fixed-in-k2
47 lines
1.8 KiB
Kotlin
Vendored
47 lines
1.8 KiB
Kotlin
Vendored
// !LANGUAGE: +IntrinsicConstEvaluation
|
|
|
|
const val equalsBoolean1 = true.equals(true)
|
|
const val equalsBoolean2 = false != true
|
|
const val equalsBoolean3 = false.equals(1)
|
|
const val equalsBoolean4 = <!EQUALITY_NOT_APPLICABLE!>false == 1<!>
|
|
|
|
const val equalsChar1 = '1'.equals('2')
|
|
const val equalsChar2 = '2' == '2'
|
|
const val equalsChar3 = '1'.equals(1)
|
|
const val equalsChar4 = <!EQUALITY_NOT_APPLICABLE!>'1' == 1<!>
|
|
|
|
const val equalsByte1 = 1.toByte().equals(2.toByte())
|
|
const val equalsByte2 = 2.toByte() == 2.toByte()
|
|
const val equalsByte3 = 1.toByte().equals("1")
|
|
const val equalsByte4 = <!EQUALITY_NOT_APPLICABLE!>1.toByte() == "1"<!>
|
|
|
|
const val equalsShort1 = 1.toShort().equals(2.toShort())
|
|
const val equalsShort2 = 2.toShort() == 2.toShort()
|
|
const val equalsShort3 = 1.toShort().equals("1")
|
|
const val equalsShort4 = <!EQUALITY_NOT_APPLICABLE!>1.toShort() == "1"<!>
|
|
|
|
const val equalsInt1 = 1.equals(2)
|
|
const val equalsInt2 = 2 == 2
|
|
const val equalsInt3 = 1.equals("1")
|
|
const val equalsInt4 = <!EQUALITY_NOT_APPLICABLE!>1 == "1"<!>
|
|
|
|
const val equalsLong1 = 1L.equals(2L)
|
|
const val equalsLong2 = 2L == 2L
|
|
const val equalsLong3 = 1L.equals("1")
|
|
const val equalsLong4 = <!EQUALITY_NOT_APPLICABLE!>1L == "1"<!>
|
|
|
|
const val equalsFloat1 = 1.0f.equals(2.0f)
|
|
const val equalsFloat2 = 2.0f == 2.0f
|
|
const val equalsFloat3 = 1.0f.equals("1")
|
|
const val equalsFloat4 = <!EQUALITY_NOT_APPLICABLE!>1.0f == "1"<!>
|
|
|
|
const val equalsDoable1 = 1.0.equals(2.0)
|
|
const val equalsDoable2 = 2.0 == 2.0
|
|
const val equalsDoable3 = 1.0.equals("1")
|
|
const val equalsDoable4 = <!EQUALITY_NOT_APPLICABLE!>1.0 == "1"<!>
|
|
|
|
const val equalsString1 = "someStr".equals("123")
|
|
const val equalsString2 = "someStr" == "otherStr"
|
|
const val equalsString3 = "someStr".equals(1)
|
|
const val equalsString4 = <!EQUALITY_NOT_APPLICABLE!>"someStr" == 1<!>
|