123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163164165166167168169170171172173174175176177178179180181182183184185186187188189190191192193194195196197198199200201202203204205206207208209210211212213214215216217218219220221222223224225226227228229230231232233234235236237238239240241242243244245246247248249250251252253254255256257258259260261262263264265266267268269270271272273274275276277278279280281282283284285286287288289290291292293294295296297298299300301302303304305306307308309310311312313314315316317318319320321322323324325326327328329330331332333334335336337338339340341342343344345346347348349350351352353354355356357358359360361362363364365366367368369370371372373374375376377378379380381382383384385386387388389390391392393394395396397398399400401402403404405406407408409410411412413414415416417418419420421422423424425426427428429430431432433434435436437438439440441442443444445446447448449450451452453454455456457458459460461462463464465466467468469470471472473474475476477478479480481482483484485486487488489490491492493494495496497498499500501502503504505506507508509510511512513514515516517518519520521522523524525526527528529530531532533534535536537538539540541542543544545546547548549550551552553554555556557558559560561562563564565566567568569570571572573574575576577578579580581582583584585586587588589590591592593594595596597598599600601602603604605606607608609610611612613614615616617618619620621622623624625626627628629630631632633634635636637638639640641642643644645646647648649650651652653654655656657658659660661662663664665666667668669670671672673674675676677678679680681682683684685686687688689690691692693694695696697698699700701702703704705706707708709710711712713714715716717718719720721722723724725726727728729730731732733734735736737738739740741742743744745746747748749750751752753754755756757758759760761762763764765766767768769770771772773774775776777778779780781782783784785786787788789790791792793794795796797798799800801802803804805806807808809810811812813814815816817818819820821822823824825826827828829830831832833834835836837838839840841842843844845846847848849850851852853854855856857858859860861862863864865866867868869870871872873874875876877878879880881882883884885886887888889890891892893894895 |
- discard """
- output: '''
- 4
- 3
- (weight: 17.0, color: 100)
- perm: 22 det: 22
- TMatrix[3, 3, system.int]
- 3
- @[0.9, 0.1]
- U[3]
- U[(f: 3)]
- U[[3]]
- b()
- @[1, 2]
- @[3, 4]
- 1
- concrete 88
- 123
- 1
- 2
- 3
- !!Hi!!
- G:0,1:0.1
- G:0,1:0.1
- H:1:0.1
- 0
- (foo: none(seq[Foo]), s: "")
- (foo: some(@[(a: "world", bar: none(Bar))]), s: "hello,")
- @[(a: "hey", bar: none(Bar))]
- '''
- joinable: false
- """
- import macros, sequtils, sets, sugar, tables, typetraits
- block t88:
- type
- BaseClass[V] = object of RootObj
- b: V
- proc new[V](t: typedesc[BaseClass], v: V): BaseClass[V] =
- BaseClass[V](b: v)
- proc baseMethod[V](v: BaseClass[V]): V = v.b
- proc overriddenMethod[V](v: BaseClass[V]): V = v.baseMethod
- type
- ChildClass[V] = object of BaseClass[V]
- c: V
- proc new[V](t: typedesc[ChildClass], v1, v2: V): ChildClass[V] =
- ChildClass[V](b: v1, c: v2)
- proc overriddenMethod[V](v: ChildClass[V]): V = v.c
- let c = ChildClass[string].new("Base", "Child")
- doAssert c.baseMethod == "Base"
- doAssert c.overriddenMethod == "Child"
- block t4528:
- type GenericBase[T] = ref object of RootObj
- type GenericSubclass[T] = ref object of GenericBase[T]
- proc foo[T](g: GenericBase[T]) = discard
- var bar: GenericSubclass[int]
- foo(bar)
- block t1050_5597:
- type ArrayType[T] = distinct T
- proc arrayItem(a: ArrayType): auto =
- static: echo(name(type(a).T))
- result = (type(a).T)(4)
- var arr: ArrayType[int]
- echo arrayItem(arr)
- # bug #5597
- template fail() = "what"
- proc g[T](x: var T) =
- x.fail = 3
- type
- Obj = object
- fail: int
- var y: Obj
- g y
- block t1789:
- type
- Foo[N: static[int]] = object
- proc bindStaticN[N](foo: Foo[N]) =
- var ar0: array[3, int]
- var ar1: array[N, int]
- var ar2: array[1..N, int]
- var ar3: array[0..(N+10), float]
- echo N
- var f: Foo[3]
- f.bindStaticN
- # case 2
- type
- ObjectWithStatic[X, Y: static[int], T] = object
- bar: array[X * Y, T] # this one works
- AliasWithStatic[X, Y: static[int], T] = array[X * Y, T]
- var
- x: ObjectWithStatic[1, 2, int]
- y: AliasWithStatic[2, 3, int]
- # case 3
- type
- Bar[N: static[int], T] = object
- bar: array[N, T]
- proc `[]`[N, T](f: Bar[N, T], n: range[0..(N - 1)]): T =
- doAssert high(n) == N-1
- result = f.bar[n]
- var b: Bar[3, int]
- doAssert b[2] == 0
- block t3977:
- type Foo[N: static[int]] = object
- proc foo[N](x: Foo[N]) =
- let n = N
- doAssert N == n
- var f1: Foo[42]
- f1.foo
- block t5570:
- type
- BaseFruit[T] = object of RootObj
- color: T
- Banana[T] = object of BaseFruit[uint32]
- weight: T
- macro printTypeName(typ: typed): untyped =
- echo "type ", getType(typ).repr
- proc setColor[K](self: var BaseFruit[K], c: int) =
- printTypeName(self.color)
- self.color = uint32(c)
- var x: Banana[float64]
- x.weight = 17
- printTypeName(x.color)
- x.setColor(100)
- echo x
- block t5643:
- type
- Matrix[M, N: static[int], T: SomeFloat] = object
- data: ref array[N * M, T]
- Matrix64[M, N: static[int]] = Matrix[M, N, float64]
- proc zeros64(M,N: static[int]): Matrix64[M,N] =
- new result.data
- for i in 0 ..< (M * N):
- result.data[i] = 0'f64
- proc bar[M,N: static[int], T](a: Matrix[M,N,T], b: Matrix[M,N,T]) =
- discard
- let a = zeros64(2,2)
- bar(a,a)
- # https://github.com/nim-lang/Nim/issues/5643
- #
- # The test case was failing here, because the compiler failed to
- # detect the two matrix instantiations as the same type.
- #
- # The root cause was that the `T` type variable is a different
- # type after the first Matrix type has been matched.
- #
- # Sigmatch was failing to match the second version of `T`, but
- # due to some complex interplay between tyOr, tyTypeDesc and
- # tyGenericParam this was allowed to went through. The generic
- # instantiation of the second matrix was incomplete and the
- # generic cache lookup failed, producing two separate types.
- block t5683:
- type Matrix[M,N: static[int]] = array[M, array[N, float]]
- proc det[M,N](a: Matrix[M,N]): int = N*10 + M
- proc perm[M,N](a: Matrix[M,N]): int = M*10 + N
- const
- a = [ [1.0, 2.0]
- , [3.0, 4.0]
- ]
- echo "perm: ", a.perm, " det: ", a.det
- # This tests multiple instantiations of a generic
- # proc involving static params:
- type
- Vector64[N: static[int]] = ref array[N, float64]
- Array64[N: static[int]] = array[N, float64]
- proc vector[N: static[int]](xs: Array64[N]): Vector64[N] =
- new result
- for i in 0 ..< N:
- result[i] = xs[i]
- let v1 = vector([1.0, 2.0, 3.0, 4.0, 5.0])
- let v2 = vector([1.0, 2.0, 3.0, 4.0, 5.0])
- let v3 = vector([1.0, 2.0, 3.0, 4.0])
- block t7794:
- type
- Data[T:SomeNumber, U:SomeFloat] = ref object
- x: T
- value*: U
- var d = Data[int, float64](x:10.int, value:2'f64)
- doAssert d.x == 10
- doAssert d.value == 2.0
- block t8403:
- proc sum[T](s: seq[T], R: typedesc): R =
- var sum: R = 0
- for x in s:
- sum += R(x)
- return sum
- doAssert @[1, 2, 3].sum(float) == 6.0
- block t8439:
- type
- Cardinal = enum
- north, east, south, west
- proc foo[cardinal: static[Cardinal]](): int = 1
- doAssert foo[north]() == 1
- block t8694:
- when true:
- # Error: undeclared identifier: '|'
- proc bar[T](t:T): bool =
- runnableExamples:
- type Foo = int | float
- true
- doAssert bar(0)
- when true:
- # ok
- proc bar(t:int): bool =
- runnableExamples:
- type Foo = int | float
- true
- doAssert bar(0)
- when true:
- # Error: undeclared identifier: '|'
- proc bar(t:typedesc): bool =
- runnableExamples:
- type Foo = int | float
- true
- doAssert bar(int)
- block t9130:
- when true:
- # stack overflow
- template baz1(iter: untyped): untyped =
- runnableExamples:
- import sugar
- proc fun(a: proc(x:int): int) = discard
- baz1(fun(x:int => x))
- discard
- proc foo1[A](ts: A) =
- baz1(ts)
- when true:
- # ok
- template baz2(iter: untyped): untyped =
- runnableExamples:
- import sugar
- proc fun(a: proc(x:int): int) = discard
- baz2(fun(x:int => x))
- discard
- proc foo2(ts: int) =
- baz2(ts)
- when true:
- # stack overflow
- template baz3(iter: untyped): untyped =
- runnableExamples:
- baz3(fun(x:int => x))
- discard
- proc foo3[A](ts: A) =
- baz3(ts)
- block t1056:
- type
- TMatrix[N,M: static[int], T] = object
- data: array[0..N*M-1, T]
- TMat2[T] = TMatrix[2,2,T]
- proc echoMatrix(a: TMatrix) =
- echo a.type.name
- echo TMatrix.N
- proc echoMat2(a: TMat2) =
- echo TMat2.M
- var m = TMatrix[3,3,int](data: [1,2,3,4,5,6,7,8,9])
- echoMatrix m
- block t4884:
- type
- Vec[N: static[int], T] = object
- arr*: array[N, T]
- Mat[N,M: static[int], T] = object
- arr: array[N, Vec[M,T]]
- var m : Mat[3,3,float]
- var strMat : Mat[m.N, m.M, string]
- var lenMat : Mat[m.N, m.M, int]
- block t2221:
- var tblo: TableRef[string, int]
- doAssert tblo == nil
- block t2304:
- type TV2[T:SomeNumber] = array[0..1, T]
- proc newV2T[T](x, y: T=0): TV2[T] = [x, y]
- let x = newV2T[float](0.9, 0.1)
- echo(@x)
- block t2752:
- proc myFilter[T](it: (iterator(): T), f: (proc(anything: T):bool)): (iterator(): T) =
- iterator aNameWhichWillConflict(): T {.closure.}=
- for x in it():
- if f(x):
- yield x
- result = aNameWhichWillConflict
- iterator testIt():int {.closure.}=
- yield -1
- yield 2
- #let unusedVariable = myFilter(testIt, (x: int) => x > 0)
- proc onlyPos(it: (iterator(): int)): (iterator(): int)=
- iterator aNameWhichWillConflict(): int {.closure.}=
- var filtered = onlyPos(myFilter(it, (x:int) => x > 0))
- for x in filtered():
- yield x
- result = aNameWhichWillConflict
- let x = onlyPos(testIt)
- block t5106:
- block:
- type T = distinct int
- proc `+`(a, b: T): T =
- T(int(a) + int(b))
- type U[F: static[T]] = distinct int
- proc `+`[P1, P2: static[T]](a: U[P1], b: U[P2]): U[P1 + P2] =
- U[P1 + P2](int(a) + int(b))
- var a = U[T(1)](1)
- var b = U[T(2)](2)
- var c = a + b
- echo c.type.name
- block:
- type T = object
- f: int
- proc `+`(a, b: T): T =
- T(f: a.f + b.f)
- type U[F: static[T]] = distinct int
- proc `+`[P1, P2: static[T]](a: U[P1], b: U[P2]): U[P1 + P2] =
- U[P1 + P2](int(a) + int(b))
- var a = U[T(f: 1)](1)
- var b = U[T(f: 2)](2)
- var c = a + b
- echo c.type.name
- block:
- type T = distinct array[0..0, int]
- proc `+`(a, b: T): T =
- T([array[0..0, int](a)[0] + array[0..0, int](b)[0]])
- type U[F: static[T]] = distinct int
- proc `+`[P1, P2: static[T]](a: U[P1], b: U[P2]): U[P1 + P2] =
- U[P1 + P2](int(a) + int(b))
- var a = U[T([1])](1)
- var b = U[T([2])](2)
- var c = a + b
- echo c.type.name
- block t3055:
- proc b(t: int | string)
- proc a(t: int) = b(t)
- proc b(t: int | string) = echo "b()"
- a(1)
- # test recursive generics still work:
- proc fac[T](x: T): T =
- if x == 0: return 1
- else: return fac(x-1)*x
- doAssert fac(6) == 720
- doAssert fac(5.0) == 120.0
- # test recursive generic with forwarding:
- proc fac2[T](x: T): T
- doAssert fac2(6) == 720
- doAssert fac2(5.0) == 120.0
- proc fac2[T](x: T): T =
- if x == 0: return 1
- else: return fac2(x-1)*x
- block t1187:
- type
- TEventArgs = object
- skip: bool
- TEventHandler[T] = proc (e: var TEventArgs, data: T) {.closure.}
- TEvent[T] = object
- #handlers: seq[TEventHandler[T]] # Does not work
- handlers: seq[proc (e: var TEventArgs, d: T) {.closure.}] # works
- TData = object
- x: int
- TSomething = object
- s: TEvent[TData]
- proc init[T](e: var TEvent[T]) =
- e.handlers.newSeq(0)
- #proc add*[T](e: var TEvent[T], h: proc (e: var TEventArgs, data: T) {.closure.}) =
- # this line works
- proc add[T](e: var TEvent[T], h: TEventHandler[T]) =
- # this line does not work
- e.handlers.add(h)
- proc main () =
- var something: TSomething
- something.s.init()
- var fromOutside = 4711
- something.s.add() do (e: var TEventArgs, data: TData):
- var x = data.x
- x = fromOutside
- main()
- block t1919:
- type
- Base[M] = object of RootObj
- a : M
- Sub1[M] = object of Base[M]
- b : int
- Sub2[M] = object of Sub1[M]
- c : int
- var x: Sub2[float]
- doAssert x.a == 0.0
- block t5756:
- type
- Vec[N : static[int]] = object
- x: int
- arr: array[N, int32]
- Mat[M,N: static[int]] = object
- x: int
- arr: array[M, Vec[N]]
- proc vec2(x,y:int32) : Vec[2] =
- result.arr = [x,y]
- result.x = 10
- proc mat2(a,b: Vec[2]): Mat[2,2] =
- result.arr = [a,b]
- result.x = 20
- const M = mat2(vec2(1, 2), vec2(3, 4))
- let m1 = M
- echo @(m1.arr[0].arr)
- echo @(m1.arr[1].arr)
- proc foo =
- let m2 = M
- echo m1.arr[0].arr[0]
- foo()
- block t7854:
- type
- Stream = ref StreamObj
- StreamObj = object of RootObj
- InhStream = ref InhStreamObj
- InhStreamObj = object of Stream
- f: string
- proc newInhStream(f: string): InhStream =
- new(result)
- result.f = f
- var val: int
- let str = newInhStream("input_file.json")
- block:
- # works:
- proc load[T](data: var T, s: Stream) =
- discard
- load(val, str)
- block:
- # works
- proc load[T](s: Stream, data: T) =
- discard
- load(str, val)
- block:
- # broken
- proc load[T](s: Stream, data: var T) =
- discard
- load(str, val)
- block t5864:
- proc defaultStatic(s: openArray, N: static[int] = 1): int = N
- proc defaultGeneric[T](a: T = 2): int = a
- let a = [1, 2, 3, 4].defaultStatic()
- let b = defaultGeneric()
- doAssert a == 1
- doAssert b == 2
- block t3498:
- template defaultOf[T](t: T): untyped = (var d: T; d)
- doAssert defaultOf(1) == 0
- # assignment using template
- template tassign[T](x: var seq[T]) =
- x = @[1, 2, 3]
- var y: seq[int]
- tassign(y) #<- x is expected = @[1, 2, 3]
- tassign(y)
- doAssert y[0] == 1
- doAssert y[1] == 2
- doAssert y[2] == 3
- block t3499:
- proc foo[T](x: proc(): T) =
- echo "generic ", x()
- proc foo(x: proc(): int) =
- echo "concrete ", x()
- # note the following 'proc' is not .closure!
- foo(proc (): auto {.nimcall.} = 88)
- # bug #3499 last snippet fixed
- # bug 705 last snippet fixed
- block t797:
- proc foo[T](s:T):string = $s
- type IntStringProc = proc(x: int): string
- var f1 = IntStringProc(foo)
- var f2: proc(x: int): string = foo
- var f3: IntStringProc = foo
- echo f1(1), f2(2), f3(3)
- for x in map([1,2,3], foo): echo x
- block t4658:
- var x = 123
- proc twice[T](f: T -> T): T -> T = (x: T) => f(f(x))
- proc quote(s: string): string = "!" & s & "!"
- echo twice(quote)("Hi")
- block t4589:
- type SimpleTable[TKey, TVal] = TableRef[TKey, TVal]
- template newSimpleTable(TKey, TVal: typedesc): SimpleTable[TKey, TVal] = newTable[TKey, TVal]()
- var fontCache : SimpleTable[string, SimpleTable[int32, int]]
- fontCache = newSimpleTable(string, SimpleTable[int32, int])
- block t4600:
- template foo(x: untyped): untyped = echo 1
- template foo(x,y: untyped): untyped = echo 2
- proc bar1[T](x: T) = foo(x)
- proc bar2(x: float) = foo(x,x)
- proc bar3[T](x: T) = foo(x,x)
- block t4672:
- type
- EnumContainer[T: enum] = object
- v: T
- SomeEnum {.pure.} = enum
- A,B,C
- proc value[T: enum](this: EnumContainer[T]): T =
- this.v
- var enumContainer: EnumContainer[SomeEnum]
- discard enumContainer.value()
- block t4863:
- type
- G[i,j: static[int]] = object
- v:float
- H[j: static[int]] = G[0,j]
- proc p[i,j: static[int]](x:G[i,j]) = echo "G:", i, ",", j, ":", x.v
- proc q[j: static[int]](x:H[j]) = echo "H:", j, ":", x.v
- var
- g0 = G[0,1](v: 0.1)
- h0:H[1] = g0
- p(g0)
- p(h0)
- q(h0)
- block t1684:
- type
- BaseType {.inheritable pure.} = object
- idx: int
- DerivedType {.final pure.} = object of BaseType
- proc index[Toohoo: BaseType](h: Toohoo): int {.inline.} = h.idx
- proc newDerived(idx: int): DerivedType {.inline.} = DerivedType(idx: idx)
- let d = newDerived(2)
- doAssert(d.index == 2)
- block t5632:
- type Option[T] = object
- proc point[A](v: A, t: typedesc[Option[A]]): Option[A] =
- discard
- discard point(1, Option)
- block t7247:
- type n8 = range[0'i8..127'i8]
- var tab = initHashSet[n8]()
- doAssert tab.contains(8) == false
- block t3717:
- type
- Foo[T] = object
- a: T
- Foo1[T] = Foo[T] | int
- proc foo[T](s: Foo1[Foo[T]]): T =
- 5
- var f: Foo[Foo[int]]
- discard foo(f)
- block: # issue #9458
- type
- Option[T] = object
- val: T
- has: bool
- Bar = object
- proc none(T: typedesc): Option[T] =
- discard
- proc foo[T](self: T; x: Option[Bar] = Bar.none) =
- discard
- foo(1)
- # bug #8426
- type
- MyBool[T: uint] = range[T(0)..T(1)] # Works
- var x: MyBool[uint]
- echo x
- # x = 2 # correctly prevented
- type
- MyBool2 = range[uint(0)..uint(1)] # Error ordinal or float type expected
- # bug #10396
- import options, strutils
- type
- Foo {.acyclic.} = object
- a: string
- bar: Option[Bar]
- Bar {.acyclic.} = object
- foo: Option[seq[Foo]] # if this was just Option[Foo], everything works fine
- s: string
- proc getBar(x: string): Bar
- proc intoFoos(ss: seq[string]): seq[Foo] =
- result = @[]
- for s in ss:
- let spl = s.split(',')
- if spl.len > 1:
- result.add Foo(a: spl[0],
- bar: some(getBar(spl[1])))
- else:
- result.add Foo(a: s,
- bar: none[Bar]())
- proc getBar(x: string): Bar =
- let spl = x.split(' ')
- result =
- if spl.len > 1:
- Bar(foo: some(spl[1..high(spl)].intoFoos),
- s: spl[0])
- else:
- Bar(foo: none[seq[Foo]](),
- s: "")
- proc fakeReadLine(): string = "hey"
- echo getBar(fakeReadLine()) # causes error
- echo getBar("hello, world") # causes error
- discard $getBar(fakeReadLine()) # causes error
- discard $getBar("hello, world") # causes error
- discard getBar(fakeReadLine()) # no error
- discard getBar("hello, world") # no error
- echo intoFoos(fakeReadLine().split(' ')) # no error, works as expected
- # bug #14990
- type
- Tile3 = Tile2
- Tile2 = Tile
- Tile[n] = object
- a: n
- var a: Tile3[int]
- block: # Ensure no segfault from constraint
- type
- Regex[A: SomeOrdinal] = ref object
- val: Regex[A]
- MyConstraint = (seq or enum or set)
- MyOtherType[A: MyConstraint] = ref object
- val: MyOtherType[A]
- var
- a = Regex[int]()
- b = Regex[bool]()
- c = MyOtherType[seq[int]]()
- block: # https://github.com/nim-lang/Nim/issues/20416
- type
- Item[T] = object
- link:ptr Item[T]
- data:T
- KVSeq[A,B] = seq[(A,B)]
- MyTable[A,B] = object
- data: KVSeq[A,B]
- Container[T] = object
- a: MyTable[int,ref Item[T]]
- proc p1(sg:Container) = discard # Make sure that a non parameterized 'Container' argument still compiles
- proc p2[T](sg:Container[T]) = discard
- var v : Container[int]
- p2(v)
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