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- block: # issue #4228
- template seqType(t: typedesc): typedesc =
- when t is int:
- seq[int]
- else:
- seq[string]
- proc mkSeq[T: int|string](v: T): seqType(T) =
- result = newSeq[T](1)
- result[0] = v
- doAssert mkSeq("a") == @["a"]
- doAssert mkSeq(1) == @[1]
- block: # expanded version of t8545
- template bar(a: static[bool]): untyped =
- when a:
- int
- else:
- float
- proc main() =
- proc foo1(a: static[bool]): auto = 1
- doAssert foo1(true) == 1
- proc foo2(a: static[bool]): bar(a) = 1
- doAssert foo2(true) == 1
- doAssert foo2(true) is int
- doAssert foo2(false) == 1.0
- doAssert foo2(false) is float
- proc foo3(a: static[bool]): bar(cast[bool](a)) = 1
- doAssert foo3(true) == 1
- doAssert foo3(true) is int
- doAssert foo3(false) == 1.0
- doAssert foo3(false) is float
- proc foo4(a: static[bool]): bar(static(a)) = 1
- doAssert foo4(true) == 1
- doAssert foo4(true) is int
- doAssert foo4(false) == 1.0
- doAssert foo4(false) is float
- static: main()
- main()
- block: # issue #8406
- macro f(x: static[int]): untyped = discard
- proc g[X: static[int]](v: f(X)) = discard
- import macros
- block: # issue #8551
- macro distinctBase2(T: typedesc): untyped =
- let typeNode = getTypeImpl(T)
- expectKind(typeNode, nnkBracketExpr)
- if typeNode[0].typeKind != ntyTypeDesc:
- error "expected typeDesc, got " & $typeNode[0]
- var typeSym = typeNode[1]
- typeSym = getTypeImpl(typeSym)
- if typeSym.typeKind != ntyDistinct:
- error "type is not distinct: " & $typeSym.typeKind
- typeSym = typeSym[0]
- typeSym
- func distinctBase[T](a: T): distinctBase2(T) = distinctBase2(T)(a)
- type T = distinct int
- doAssert distinctBase(T(0)) is int
- block:
- type Foo[T] = object
- x: T
- proc foo(x: Foo): Foo[x.T] =
- doAssert typeof(result) is typeof(x)
- var a: Foo[int]
- let b: Foo[int] = foo(a)
- doAssert b.x is int
- block:
- type Foo[T: static int] = object
- x: array[T, int]
-
- proc double(x: int): int = x * 2
- proc foo[T: static int](x: Foo[T]): Foo[T.double] =
- doAssert typeof(result).T == double(typeof(x).T)
- var a: Foo[3]
- let b: Foo[6] = foo(a)
- doAssert $typeof(foo(a)) == "Foo[6]"
- block:
- type Foo[T: static int] = object
- x: array[T, int]
- proc foo(x: Foo): Foo[x.T] =
- doAssert typeof(result).T == typeof(x).T
- doAssert typeof(result) is typeof(x)
- var a: Foo[3]
- let b: Foo[3] = foo(a)
- doAssert $typeof(foo(a)) == "Foo[3]"
- block: # issue #7006
- type
- Node[T] = object
- val: T
- next: ref Node[T]
- HHSet[T, Key] = object
- data: seq[Node[T]]
- proc rawGet(hhs:HHSet; key: hhs.Key): ptr Node[hhs.T] =
- return nil # body doesn't matter
- var hhs: HHSet[string, cstring]
- discard hhs.rawGet("hello".cstring)
- block: # issue #7008
- type Node[T] = object
- val: T
- # Compiles fine
- proc concreteProc(s: Node[cstring]; key: s.T) = discard
- # Also fine
- proc implicitGenericProc1(s: Node; key: s.T) = discard
- # still fine
- proc explicitGenericProc1[T](s: Node[T]; key: T) = discard
- # Internal Compiler Error!
- proc explicitGenericProc2[T](s: Node[T]; key: s.T) = discard
- let n = Node[int](val: 5)
- implicitGenericProc1(n, 5) # works
- explicitGenericProc1(n, 5) # works
- explicitGenericProc2(n, 5) # doesn't
- block: # issue #7009
- type Node[T] = object
- val: T
- proc genericProc(s: Node; key: s.T) =
- discard # body doesn't matter
- proc explicitGenericProc[T](s: Node[T]; key: T) =
- discard # body doesn't matter
- proc concreteProc(s: Node[cstring]; key: s.T) =
- discard # body doesn't matter
-
- var strs: Node[cstring]
- concreteProc(strs, "string") # string converts to cstring
- explicitGenericProc(strs, "string") # still converts
- genericProc(strs, "string") # doesn't convert: COMPILE ERROR
- block: # issue #20027
- block:
- type Test[T] = object
- proc run(self: Test): self.T = discard
- discard run(Test[int]())
- block:
- type Test[T] = object
- proc run[T](self: Test[T]): self.T = discard
- discard run(Test[int]())
- block:
- type Test[T] = object
- proc run(self: Test[auto]): self.T = discard
- discard run(Test[int]())
- block: # issue #11112
- proc foo[A, B]: type(A.default + B.default) =
- discard
- doAssert foo[int, int]() is int
- block: # tyStatic and tyFromExpr instantiation mid-match
- proc bar(x: int): int = x * 3
- proc bar2(x: static int): int = x * 4
- type Foo[T: static int] = distinct array[T, int]
- proc foo[T: static int](x: Foo[T], y: Foo[bar(T)]) = discard
- proc foo2[T: static int](x: Foo[T], y: Foo[bar2(T)]) = discard
- foo(Foo[1]([1]), Foo[3]([1, 2, 3]))
- foo2(Foo[1]([1]), Foo[4]([1, 2, 3, 4]))
- block: # issue #4990
- type Foo[I: static[int], A: static[array[I, int]]] = object
- curIndex: int
- proc next[I: static[int], A: static[array[I, int]]](f: Foo[I, A]): string =
- discard
- const arr = [1, 2, 3]
- var f: Foo[arr.len, arr]
- discard next(f)
- block: # issue #4990 comment
- type
- Foo[A: static[int], B: static[int], TokenType: enum, EofToken: static[TokenType]] = object
- curIndex: int
- MyEnum = enum
- meA, meB
- Bar = Foo[2, 3, MyEnum, meA]
- proc next[A: static[int], B: static[int], TokenType: enum,
- EofToken: static[TokenType]](f: Foo[A, B, TokenType, EofToken],
- a: static[(array[A, int], array[B, int])]): TokenType =
- TokenType(a[0][f.curIndex])
- const
- a = [1, 2]
- b = [3, 4, 5]
- template next(bar: Bar): MyEnum =
- next(Foo[2, 3, MyEnum, meA](bar), (a, b))
- let bar = Bar(curIndex: 0)
- doAssert bar.next() == meB
- block: # issue #14053
- template returnType(value: static[int]): typedesc =
- when value == 1:
- int
- else:
- float
- proc fun(value: static[int]): returnType(value) = discard
- doAssert fun(1) is int
- template returnType2(value: static[int]): typedesc =
- int
- proc fun2(value: static[int]): returnType2(value) = discard
- doAssert fun2(1) is int
- block: # issue #7547
- macro foo(N: static[int]): untyped =
- result = getType(int)
- type
- Foo[N: static[int]] = foo(N)
- ContainsFoo[N: static[int]] = object
- Ffoo: Foo[N]
- proc initFoo(N: static[int]): Foo[N] = discard
- proc initContainsFoo(size: static[int]): ContainsFoo[size] = discard
- var a: Foo[10] # Works
- doAssert a is int
- let b = initFoo(10) # Works
- doAssert b is int
- let c = ContainsFoo[5]() # Works
- doAssert c.Ffoo is int
- let z = initContainsFoo(5) # Error: undeclared identifier: 'N'
- doAssert z.Ffoo is int
- block: # issue #22607, needs nkWhenStmt to be handled like nkRecWhen
- proc test[x: static bool](
- t: (
- when x:
- int
- else:
- float
- )
- ) = discard
- test[true](1.int)
- test[false](1.0)
- doAssert not compiles(test[])
- block: # `when` in static signature
- template ctAnd(a, b): bool =
- when a:
- when b: true
- else: false
- else: false
- template test(): untyped =
- when ctAnd(declared(SharedTable), typeof(result) is SharedTable):
- result = SharedTable()
- else:
- result = 123
- proc foo[T](): T = test()
- proc bar[T](x = foo[T]()): T = x
- doAssert bar[int]() == 123
- block: # issue #22276
- type Foo = enum A, B
- macro test(y: static[Foo]): untyped =
- if y == A:
- result = parseExpr("proc (x: int)")
- else:
- result = parseExpr("proc (x: float)")
- proc foo(y: static[Foo], x: test(y)) = # We want to make the type of `x` depend on what `y` is
- x(9)
- foo(A, proc (x: int) = doAssert x == 9)
- var a: int
- foo(A, proc (x: int) =
- a = x * 2)
- doAssert a == 18
- foo(B, proc (x: float) = doAssert x == 9)
- block: # issue #9190
- func foo[T, U]: type(T.low + U.low) =
- T.low + U.low
-
- doAssert foo[uint8, uint8]() == uint8.low
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