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swift-mirror/test/SILGen/implicit_property_initializers.swift
Erik Eckstein 7cceaff5f3 SIL: don't print operand types in textual SIL 
Type annotations for instruction operands are omitted, e.g.

```
  %3 = struct $S(%1, %2)
```

Operand types are redundant anyway and were only used for sanity checking in the SIL parser.

But: operand types _are_ printed if the definition of the operand value was not printed yet.
This happens:

* if the block with the definition appears after the block where the operand's instruction is located

* if a block or instruction is printed in isolation, e.g. in a debugger

The old behavior can be restored with `-Xllvm -sil-print-types`.
This option is added to many existing test files which check for operand types in their check-lines.
2024-11-21 18:49:52 +01:00

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// RUN: %target-swift-emit-silgen -Xllvm -sil-print-types -module-name implicit_property_initializers -Xllvm -sil-full-demangle -enable-testing %s | %FileCheck %s
// CHECK: struct HasDefaultTupleOfNils {
// CHECK: @_hasStorage @_hasInitialValue var x: (Int?, Int?)
// CHECK: @_hasStorage @_hasInitialValue var y: Int?
// CHECK: @_hasStorage var z: Int
// CHECK: @_hasStorage @_hasInitialValue var w: ((Int?, (), Int?), (Int?, Int?))
// CHECK: init(x: (Int?, Int?) = (nil, nil),
// CHECK-SAME: y: Int? = nil,
// CHECK-SAME: z: Int,
// CHECK-SAME: w: ((Int?, (), Int?), (Int?, Int?)) = ((nil, (), nil), (nil, nil)))
// CHECK: }
struct HasDefaultTupleOfNils {
var x: (Int?, Int?)
var y: Int?
var z: Int
var w: ((Int?, (), Int?), (Int?, Int?))
}
// The default value initializer for 'x' should have type (Optional<Int>, Optional<Int>)
// CHECK: sil [transparent] [ossa] @$[[X_VALUE_INIT:s30implicit_property_initializers21HasDefaultTupleOfNilsV1xSiSg_AEtvpfi]] : $@convention(thin) () -> (Optional<Int>, Optional<Int>) {
// CHECK: bb0:
// CHECK: %0 = enum $Optional<Int>, #Optional.none!enumelt
// CHECK: %1 = enum $Optional<Int>, #Optional.none!enumelt
// CHECK: %2 = tuple (%0 : $Optional<Int>, %1 : $Optional<Int>)
// CHECK: return %2 : $(Optional<Int>, Optional<Int>)
// CHECK: }
// The default value initializer for 'y' should have type Optional<Int>
//CHECK: sil [transparent] [ossa] @$s30implicit_property_initializers21HasDefaultTupleOfNilsV1ySiSgvpfi : $@convention(thin) () -> Optional<Int> {
//CHECK: bb0:
//CHECK: %0 = enum $Optional<Int>, #Optional.none!enumelt // user: %1
//CHECK: return %0 : $Optional<Int> // id: %1
//CHECK: }
// There should not be a default value initializer for 'z'.
// CHECK-NOT: @$s30implicit_property_initializers21HasDefaultTupleOfNilsV1zSivpfi
// The default value initializer for 'w' should flatten to type (Optional<Int>, Optional<Int>, Optional<Int>, Optional<Int>)
//CHECK: sil [transparent] [ossa] @$[[W_VALUE_INIT:s30implicit_property_initializers21HasDefaultTupleOfNilsV1wSiSg_ytAEt_AE_AEttvpfi]] : $@convention(thin) () -> (Optional<Int>, Optional<Int>, Optional<Int>, Optional<Int>) {
//CHECK: bb0:
//CHECK: %0 = enum $Optional<Int>, #Optional.none!enumelt // user: %4
//CHECK: %1 = enum $Optional<Int>, #Optional.none!enumelt // user: %4
//CHECK: %2 = enum $Optional<Int>, #Optional.none!enumelt // user: %4
//CHECK: %3 = enum $Optional<Int>, #Optional.none!enumelt // user: %4
//CHECK: %4 = tuple (%0 : $Optional<Int>, %1 : $Optional<Int>, %2 : $Optional<Int>, %3 : $Optional<Int>) // user: %5
//CHECK: return %4 : $(Optional<Int>, Optional<Int>, Optional<Int>, Optional<Int>) // id: %5
//CHECK: }
// The default arg generator for 'x' inside the memberwise init should have type (Optional<Int>, Optional<Int>)
// CHECK: sil [ossa] @$s30implicit_property_initializers21HasDefaultTupleOfNilsV1x1y1z1wACSiSg_AHt_AHSiAH_ytAHt_AH_AHtttcfcfA_ : $@convention(thin) () -> (Optional<Int>, Optional<Int>) {
// CHECK: bb0:
// CHECK: %0 = function_ref @$[[X_VALUE_INIT]] : $@convention(thin) () -> (Optional<Int>, Optional<Int>) // user: %1
// CHECK: %1 = apply %0() : $@convention(thin) () -> (Optional<Int>, Optional<Int>)
// CHECK: (%2, %3) = destructure_tuple %1 : $(Optional<Int>, Optional<Int>)
// CHECK: %4 = tuple (%2 : $Optional<Int>, %3 : $Optional<Int>)
// CHECK: return %4 : $(Optional<Int>, Optional<Int>)
// CHECK: }
// There should not be a default arg generator for 'y' because it's just a nil literal and clients construct it directly.
// CHECK-NOT: @$s30implicit_property_initializers21HasDefaultTupleOfNilsV1x1y1z1wACSiSg_AHt_AHSiAH_ytAHt_AH_AHtttcfcfA0_
// There should not be a default arg generator for 'z'
// CHECK-NOT: @$s30implicit_property_initializers21HasDefaultTupleOfNilsV1x1y1z1wACSiSg_AHt_AHSiAH_ytAHt_AH_AHtttcfcfA1_
// The default arg generator for 'w' should flatten to type (Optional<Int>, Optional<Int>, Optional<Int>, Optional<Int>)
// CHECK: sil [ossa] @$s30implicit_property_initializers21HasDefaultTupleOfNilsV1x1y1z1wACSiSg_AHt_AHSiAH_ytAHt_AH_AHtttcfcfA2_ : $@convention(thin) () -> (Optional<Int>, Optional<Int>, Optional<Int>, Optional<Int>) {
// CHECK: bb0:
// CHECK: %0 = function_ref @$[[W_VALUE_INIT]] : $@convention(thin) () -> (Optional<Int>, Optional<Int>, Optional<Int>, Optional<Int>)
// CHECK: %1 = apply %0() : $@convention(thin) () -> (Optional<Int>, Optional<Int>, Optional<Int>, Optional<Int>)
// CHECK: (%2, %3, %4, %5) = destructure_tuple %1 : $(Optional<Int>, Optional<Int>, Optional<Int>, Optional<Int>)
// CHECK: %6 = tuple (%2 : $Optional<Int>, %3 : $Optional<Int>, %4 : $Optional<Int>, %5 : $Optional<Int>)
// CHECK: return %6 : $(Optional<Int>, Optional<Int>, Optional<Int>, Optional<Int>)
// CHECK: }
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