@safe unittest { import std.meta; import std.meta; alias TL = AliasSeq!(int, double); int foo(TL td) // same as int foo(int, double); { return td[0] + cast(int) td[1]; } } @safe unittest { import std.meta; alias TL = AliasSeq!(int, double); alias Types = AliasSeq!(TL, char); static assert(is(Types == AliasSeq!(int, double, char))); } @safe unittest { import std.meta; // Creates a compile-time sequence of function call expressions // that each call `func` with the next variadic template argument template Map(alias func, args...) { auto ref lazyItem() {return func(args[0]);} static if (args.length == 1) { alias Map = lazyItem; } else { // recurse alias Map = AliasSeq!(lazyItem, Map!(func, args[1 .. $])); } } static void test(int a, int b) { assert(a == 4); assert(b == 16); } static int a = 2; static int b = 4; test(Map!(i => i ^^ 2, a, b)); assert(a == 2); assert(b == 4); test(Map!((ref i) => i *= i, a, b)); assert(a == 4); assert(b == 16); static void testRef(ref int a, ref int b) { assert(a++ == 16); assert(b++ == 256); } testRef(Map!(function ref(ref i) => i *= i, a, b)); assert(a == 17); assert(b == 257); } @safe unittest { import std.meta; // Without Alias this would fail if Args[0] was e.g. a value and // some logic would be needed to detect when to use enum instead alias Head(Args...) = Alias!(Args[0]); alias Tail(Args...) = Args[1 .. $]; alias Blah = AliasSeq!(3, int, "hello"); static assert(Head!Blah == 3); static assert(is(Head!(Tail!Blah) == int)); static assert((Tail!Blah)[1] == "hello"); } @safe unittest { import std.meta; alias a = Alias!(123); static assert(a == 123); enum abc = 1; alias b = Alias!(abc); static assert(b == 1); alias c = Alias!(3 + 4); static assert(c == 7); alias concat = (s0, s1) => s0 ~ s1; alias d = Alias!(concat("Hello", " World!")); static assert(d == "Hello World!"); alias e = Alias!(int); static assert(is(e == int)); alias f = Alias!(AliasSeq!(int)); static assert(!is(typeof(f[0]))); //not an AliasSeq static assert(is(f == int)); auto g = 6; alias h = Alias!g; ++h; assert(g == 7); } @safe unittest { import std.meta; import std.stdio; void foo() { writefln("The index of long is %s", staticIndexOf!(long, AliasSeq!(int, long, double))); // prints: The index of long is 1 } } @safe unittest { import std.meta; alias Types = AliasSeq!(int, long, double, char); alias TL = Erase!(long, Types); static assert(is(TL == AliasSeq!(int, double, char))); } @safe unittest { import std.meta; alias Types = AliasSeq!(int, long, long, int); static assert(is(EraseAll!(long, Types) == AliasSeq!(int, int))); } @safe unittest { import std.meta; alias Types = AliasSeq!(int, long, long, int, float); alias TL = NoDuplicates!(Types); static assert(is(TL == AliasSeq!(int, long, float))); } @safe unittest { import std.meta; alias Types = AliasSeq!(int, long, long, int, float); alias TL = Replace!(long, char, Types); static assert(is(TL == AliasSeq!(int, char, long, int, float))); } @safe unittest { import std.meta; alias Types = AliasSeq!(int, long, long, int, float); alias TL = ReplaceAll!(long, char, Types); static assert(is(TL == AliasSeq!(int, char, char, int, float))); } @safe unittest { import std.meta; alias Types = AliasSeq!(int, long, long, int, float, byte, ubyte, short, ushort, uint); alias TL = Reverse!(Types); static assert(is(TL == AliasSeq!(uint, ushort, short, ubyte, byte, float, int, long, long, int))); } @safe unittest { import std.meta; class A { } class B : A { } class C : B { } alias Types = AliasSeq!(A, C, B); MostDerived!(Object, Types) x; // x is declared as type C static assert(is(typeof(x) == C)); } @safe unittest { import std.meta; class A { } class B : A { } class C : B { } alias Types = AliasSeq!(A, C, B); alias TL = DerivedToFront!(Types); static assert(is(TL == AliasSeq!(C, B, A))); alias TL2 = DerivedToFront!(A, A, A, B, B, B, C, C, C); static assert(is(TL2 == AliasSeq!(C, C, C, B, B, B, A, A, A))); } @safe unittest { import std.meta; import std.traits : Unqual; alias TL = staticMap!(Unqual, int, const int, immutable int, uint, ubyte, byte, short, ushort); static assert(is(TL == AliasSeq!(int, int, int, uint, ubyte, byte, short, ushort))); } @safe unittest { import std.meta; import std.traits : isIntegral; static assert(!allSatisfy!(isIntegral, int, double)); static assert( allSatisfy!(isIntegral, int, long)); } @safe unittest { import std.meta; import std.traits : isIntegral; static assert(!anySatisfy!(isIntegral, string, double)); static assert( anySatisfy!(isIntegral, int, double)); } @safe unittest { import std.meta; import std.traits : isNarrowString, isUnsigned; alias Types1 = AliasSeq!(string, wstring, dchar[], char[], dstring, int); alias TL1 = Filter!(isNarrowString, Types1); static assert(is(TL1 == AliasSeq!(string, wstring, char[]))); alias Types2 = AliasSeq!(int, byte, ubyte, dstring, dchar, uint, ulong); alias TL2 = Filter!(isUnsigned, Types2); static assert(is(TL2 == AliasSeq!(ubyte, uint, ulong))); } @safe unittest { import std.meta; import std.traits : isPointer; alias isNoPointer = templateNot!isPointer; static assert(!isNoPointer!(int*)); static assert(allSatisfy!(isNoPointer, string, char, float)); } @safe unittest { import std.meta; import std.traits : isNumeric, isUnsigned; alias storesNegativeNumbers = templateAnd!(isNumeric, templateNot!isUnsigned); static assert(storesNegativeNumbers!int); static assert(!storesNegativeNumbers!string && !storesNegativeNumbers!uint); // An empty sequence of predicates always yields true. alias alwaysTrue = templateAnd!(); static assert(alwaysTrue!int); } @safe unittest { import std.meta; import std.traits : isPointer, isUnsigned; alias isPtrOrUnsigned = templateOr!(isPointer, isUnsigned); static assert( isPtrOrUnsigned!uint && isPtrOrUnsigned!(short*)); static assert(!isPtrOrUnsigned!int && !isPtrOrUnsigned!(string)); // An empty sequence of predicates never yields true. alias alwaysFalse = templateOr!(); static assert(!alwaysFalse!int); } @safe unittest { import std.meta; import std.algorithm.iteration : map; import std.algorithm.sorting : sort; import std.string : capitalize; struct S { int a; int c; int b; } alias capMembers = aliasSeqOf!([__traits(allMembers, S)].sort().map!capitalize()); static assert(capMembers[0] == "A"); static assert(capMembers[1] == "B"); static assert(capMembers[2] == "C"); } @safe unittest { import std.meta; static immutable REF = [0, 1, 2, 3]; foreach (I, V; aliasSeqOf!([0, 1, 2, 3])) { static assert(V == I); static assert(V == REF[I]); } } @safe unittest { import std.meta; // enum bool isImplicitlyConvertible(From, To) import std.traits : isImplicitlyConvertible; static assert(allSatisfy!( ApplyLeft!(isImplicitlyConvertible, ubyte), short, ushort, int, uint, long, ulong)); static assert(is(Filter!(ApplyRight!(isImplicitlyConvertible, short), ubyte, string, short, float, int) == AliasSeq!(ubyte, short))); } @safe unittest { import std.meta; import std.traits : hasMember, ifTestable; struct T1 { bool foo; } struct T2 { struct Test { bool opCast(T : bool)() { return true; } } Test foo; } static assert(allSatisfy!(ApplyRight!(hasMember, "foo"), T1, T2)); static assert(allSatisfy!(ApplyRight!(ifTestable, a => a.foo), T1, T2)); } @safe unittest { import std.meta; import std.traits : Largest; alias Types = AliasSeq!(byte, short, int, long); static assert(is(staticMap!(ApplyLeft!(Largest, short), Types) == AliasSeq!(short, short, int, long))); static assert(is(staticMap!(ApplyLeft!(Largest, int), Types) == AliasSeq!(int, int, int, long))); } @safe unittest { import std.meta; import std.traits : FunctionAttribute, SetFunctionAttributes; static void foo() @system; static int bar(int) @system; alias SafeFunctions = AliasSeq!( void function() @safe, int function(int) @safe); static assert(is(staticMap!(ApplyRight!( SetFunctionAttributes, "D", FunctionAttribute.safe), typeof(&foo), typeof(&bar)) == SafeFunctions)); } @safe unittest { import std.meta; alias ImInt0 = Repeat!(0, int); static assert(is(ImInt0 == AliasSeq!())); alias ImInt1 = Repeat!(1, immutable(int)); static assert(is(ImInt1 == AliasSeq!(immutable(int)))); alias Real3 = Repeat!(3, real); static assert(is(Real3 == AliasSeq!(real, real, real))); alias Real12 = Repeat!(4, Real3); static assert(is(Real12 == AliasSeq!(real, real, real, real, real, real, real, real, real, real, real, real))); alias Composite = AliasSeq!(uint, int); alias Composite2 = Repeat!(2, Composite); static assert(is(Composite2 == AliasSeq!(uint, int, uint, int))); alias ImInt10 = Repeat!(10, int); static assert(is(ImInt10 == AliasSeq!(int, int, int, int, int, int, int, int, int, int))); alias Big = Repeat!(1_000_000, int); } @safe unittest { import std.meta; auto staticArray(T, size_t n)(Repeat!(n, T) elems) { T[n] a = [elems]; return a; } auto a = staticArray!(long, 3)(3, 1, 4); assert(is(typeof(a) == long[3])); assert(a == [3, 1, 4]); } @safe unittest { import std.meta; alias Nums = AliasSeq!(7, 2, 3, 23); enum Comp(int N1, int N2) = N1 < N2; static assert(AliasSeq!(2, 3, 7, 23) == staticSort!(Comp, Nums)); } @safe unittest { import std.meta; alias Types = AliasSeq!(uint, short, ubyte, long, ulong); enum Comp(T1, T2) = __traits(isUnsigned, T2) - __traits(isUnsigned, T1); static assert(is(AliasSeq!(uint, ubyte, ulong, short, long) == staticSort!(Comp, Types))); } @safe unittest { import std.meta; enum Comp(int N1, int N2) = N1 < N2; static assert( staticIsSorted!(Comp, 2, 2)); static assert( staticIsSorted!(Comp, 2, 3, 7, 23)); static assert(!staticIsSorted!(Comp, 7, 2, 3, 23)); } @safe unittest { import std.meta; enum Comp(T1, T2) = __traits(isUnsigned, T2) - __traits(isUnsigned, T1); static assert( staticIsSorted!(Comp, uint, ubyte, ulong, short, long)); static assert(!staticIsSorted!(Comp, uint, short, ubyte, long, ulong)); } @safe unittest { import std.meta; static assert(is(Stride!(1, short, int, long) == AliasSeq!(short, int, long))); static assert(is(Stride!(2, short, int, long) == AliasSeq!(short, long))); static assert(is(Stride!(-1, short, int, long) == AliasSeq!(long, int, short))); static assert(is(Stride!(-2, short, int, long) == AliasSeq!(long, short))); alias attribs = AliasSeq!(short, int, long, ushort, uint, ulong); static assert(is(Stride!(3, attribs) == AliasSeq!(short, ushort))); static assert(is(Stride!(3, attribs[1 .. $]) == AliasSeq!(int, uint))); static assert(is(Stride!(-3, attribs) == AliasSeq!(ulong, long))); } @safe unittest { import std.meta; // ApplyRight combined with Instantiate can be used to apply various // templates to the same parameters. import std.string : leftJustify, center, rightJustify; alias functions = staticMap!(ApplyRight!(Instantiate, string), leftJustify, center, rightJustify); string result = ""; static foreach (f; functions) { { auto x = &f; // not a template, but a function instantiation result ~= x("hello", 7); result ~= ";"; } } assert(result == "hello ; hello ; hello;"); }