6e8283a6fe
The reason #1 for this feature is that we want to test IdSignatures generated for declarations. Currently, there is no (easy) way to ensure that a change in the signature building logic doesn't cause any breaking changes wrt klibs. Now, most IdSignatures include hashed mangled names in them, so even if we catch a regression where the included hash changes, there would be no way of knowing immediately what caused it, unless we'd also have mangled names in the expectations. The reason #2 is to test the manglers themselves. Currently, there are no tests for them. They heavily duplicate each other, this is already causing issues (see KT-57427) that would be very hard to catch without these tests. ^KT-58238 Fixed
36 lines
893 B
Kotlin
Vendored
36 lines
893 B
Kotlin
Vendored
// CHECK:
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// Mangled name: C
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// Public signature: /C|null[0]
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class C {
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// CHECK:
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// Mangled name: C{}c
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// Public signature: /C.c|-4416962153448040627[0]
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val c: Int
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field
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// CHECK JVM_IR:
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// Mangled name: C#<get-c>(){}kotlin.Int
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// Public signature: /C.c.<get-c>|-2440337234483931882[0]
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get
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// CHECK:
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// Mangled name: C#<init>(){}
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// Public signature: /C.<init>|-5645683436151566731[0]
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constructor() /* primary */
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}
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// CHECK:
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// Mangled name: #bar(C){}
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// Public signature: /bar|-380723744805794672[0]
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fun bar(c: C): Unit
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// CHECK:
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// Mangled name: #bar(C){}#<anonymous>#static@C(){}
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local fun C.<anonymous>(): Unit
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// CHECK:
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// Mangled name computed from Ir: #foo(C){}
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// Mangled name computed from Descriptor: #foo!C(){}
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// Public signature: /foo|-1491377105373055541[0]
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fun foo($context_receiver_0: C): Unit
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