91ef86f9d1
This adds a typeswitch statement typeswitch (e) case (x1 : Type1) { ... } case (x2 : Type2) { } ... ... case (xn : TypeN) { ... } This checks to which of the given types the result of evaluating e can be cast, in the order in which they are listed. So if an earlier type matches, a value of this type won't reach a later case. The type-checks are performed by calling the cast<T>() macro. The type of the argument passed to the cast macro is dependent on the case and excludes all types checked earlier. For example, in const x : Object = ... typeswitch (x) case (x : Smi) { ... } case (x : HeapNumber) { ... } case (x : HeapObject) { ... } there will be calls to cast<Smi>(Object) and cast<HeapNumber>(HeapObject), because after the Smi check we know that x has to be a HeapObject. With the refactored base.tq definition of cast, this will generate efficient code and avoid repeating the Smi check in the second case. The type system ensures that all cases are reachable and that the type given to the last case is safe without a runtime check (in other words, the union of all checked types covers the type of e). The cases can also be written as case (Type) { ... } , in which case the switched value is not re-bound with the checked type. Bug: v8:7793 Change-Id: Iea4aed7465d62b445e3ae0d33f52921912e095e3 Reviewed-on: https://chromium-review.googlesource.com/1156506 Commit-Queue: Tobias Tebbi <tebbi@chromium.org> Reviewed-by: Daniel Clifford <danno@chromium.org> Cr-Commit-Position: refs/heads/master@{#54958} |
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test-torque.cc |