/** Extensions to `std.traits` module of Phobos. Some may eventually make it into Phobos, some are dirty hacks that work only for vibe.d Copyright: © 2012 Sönke Ludwig License: Subject to the terms of the MIT license, as written in the included LICENSE.txt file. Authors: Sönke Ludwig, Михаил Страшун */ module vibe.internal.traits; import vibe.internal.typetuple; /** Checks if given type is a getter function type Returns: `true` if argument is a getter */ template isPropertyGetter(T...) if (T.length == 1) { import std.traits : functionAttributes, FunctionAttribute, ReturnType, isSomeFunction; static if (isSomeFunction!(T[0])) { enum isPropertyGetter = (functionAttributes!(T[0]) & FunctionAttribute.property) != 0 && !is(ReturnType!T == void); } else enum isPropertyGetter = false; } /// unittest { interface Test { @property int getter(); @property void setter(int); int simple(); } static assert(isPropertyGetter!(typeof(&Test.getter))); static assert(!isPropertyGetter!(typeof(&Test.setter))); static assert(!isPropertyGetter!(typeof(&Test.simple))); static assert(!isPropertyGetter!int); } /** Checks if given type is a setter function type Returns: `true` if argument is a setter */ template isPropertySetter(T...) if (T.length == 1) { import std.traits : functionAttributes, FunctionAttribute, ReturnType, isSomeFunction; static if (isSomeFunction!(T[0])) { enum isPropertySetter = (functionAttributes!(T) & FunctionAttribute.property) != 0 && is(ReturnType!(T[0]) == void); } else enum isPropertySetter = false; } /// unittest { interface Test { @property int getter(); @property void setter(int); int simple(); } static assert(isPropertySetter!(typeof(&Test.setter))); static assert(!isPropertySetter!(typeof(&Test.getter))); static assert(!isPropertySetter!(typeof(&Test.simple))); static assert(!isPropertySetter!int); } /** Deduces single base interface for a type. Multiple interfaces will result in compile-time error. Params: T = interface or class type Returns: T if it is an interface. If T is a class, interface it implements. */ template baseInterface(T) if (is(T == interface) || is(T == class)) { import std.traits : InterfacesTuple; static if (is(T == interface)) { alias baseInterface = T; } else { alias Ifaces = InterfacesTuple!T; static assert ( Ifaces.length == 1, "Type must be either provided as an interface or implement only one interface" ); alias baseInterface = Ifaces[0]; } } /// unittest { interface I1 { } class A : I1 { } interface I2 { } class B : I1, I2 { } static assert (is(baseInterface!I1 == I1)); static assert (is(baseInterface!A == I1)); static assert (!is(typeof(baseInterface!B))); } /** Determins if a member is a public, non-static data field. */ template isRWPlainField(T, string M) { static if (!isRWField!(T, M)) enum isRWPlainField = false; else { //pragma(msg, T.stringof~"."~M~":"~typeof(__traits(getMember, T, M)).stringof); enum isRWPlainField = __traits(compiles, *(&__traits(getMember, Tgen!T(), M)) = *(&__traits(getMember, Tgen!T(), M))); } } /** Determines if a member is a public, non-static, de-facto data field. In addition to plain data fields, R/W properties are also accepted. */ template isRWField(T, string M) { import std.traits; import std.typetuple; static void testAssign()() { T t = void; __traits(getMember, t, M) = __traits(getMember, t, M); } // reject type aliases static if (is(TypeTuple!(__traits(getMember, T, M)))) enum isRWField = false; // reject non-public members else static if (!isPublicMember!(T, M)) enum isRWField = false; // reject static members else static if (!isNonStaticMember!(T, M)) enum isRWField = false; // reject non-typed members else static if (!is(typeof(__traits(getMember, T, M)))) enum isRWField = false; // reject void typed members (includes templates) else static if (is(typeof(__traits(getMember, T, M)) == void)) enum isRWField = false; // reject non-assignable members else static if (!__traits(compiles, testAssign!()())) enum isRWField = false; else static if (anySatisfy!(isSomeFunction, __traits(getMember, T, M))) { // If M is a function, reject if not @property or returns by ref private enum FA = functionAttributes!(__traits(getMember, T, M)); enum isRWField = (FA & FunctionAttribute.property) != 0; } else { enum isRWField = true; } } unittest { import std.algorithm; struct S { alias a = int; // alias int i; // plain RW field enum j = 42; // manifest constant static int k = 42; // static field private int privateJ; // private RW field this(Args...)(Args args) {} // read-write property (OK) @property int p1() { return privateJ; } @property void p1(int j) { privateJ = j; } // read-only property (NO) @property int p2() { return privateJ; } // write-only property (NO) @property void p3(int value) { privateJ = value; } // ref returning property (OK) @property ref int p4() { return i; } // parameter-less template property (OK) @property ref int p5()() { return i; } // not treated as a property by DMD, so not a field @property int p6()() { return privateJ; } @property void p6(int j)() { privateJ = j; } static @property int p7() { return k; } static @property void p7(int value) { k = value; } ref int f1() { return i; } // ref returning function (no field) int f2(Args...)(Args args) { return i; } ref int f3(Args...)(Args args) { return i; } void someMethod() {} ref int someTempl()() { return i; } } enum plainFields = ["i"]; enum fields = ["i", "p1", "p4", "p5"]; foreach (mem; __traits(allMembers, S)) { static if (isRWField!(S, mem)) static assert(fields.canFind(mem), mem~" detected as field."); else static assert(!fields.canFind(mem), mem~" not detected as field."); static if (isRWPlainField!(S, mem)) static assert(plainFields.canFind(mem), mem~" not detected as plain field."); else static assert(!plainFields.canFind(mem), mem~" not detected as plain field."); } } package T Tgen(T)(){ return T.init; } /** Tests if the protection of a member is public. */ template isPublicMember(T, string M) { import std.algorithm, std.typetuple : TypeTuple; static if (!__traits(compiles, TypeTuple!(__traits(getMember, T, M)))) enum isPublicMember = false; else { alias MEM = TypeTuple!(__traits(getMember, T, M)); enum isPublicMember = __traits(getProtection, MEM).among("public", "export"); } } unittest { class C { int a; export int b; protected int c; private int d; package int e; void f() {} static void g() {} private void h() {} private static void i() {} } static assert (isPublicMember!(C, "a")); static assert (isPublicMember!(C, "b")); static assert (!isPublicMember!(C, "c")); static assert (!isPublicMember!(C, "d")); static assert (!isPublicMember!(C, "e")); static assert (isPublicMember!(C, "f")); static assert (isPublicMember!(C, "g")); static assert (!isPublicMember!(C, "h")); static assert (!isPublicMember!(C, "i")); struct S { int a; export int b; private int d; package int e; } static assert (isPublicMember!(S, "a")); static assert (isPublicMember!(S, "b")); static assert (!isPublicMember!(S, "d")); static assert (!isPublicMember!(S, "e")); S s; s.a = 21; assert(s.a == 21); } /** Tests if a member requires $(D this) to be used. */ template isNonStaticMember(T, string M) { import std.typetuple; import std.traits; alias MF = TypeTuple!(__traits(getMember, T, M)); static if (M.length == 0) { enum isNonStaticMember = false; } else static if (anySatisfy!(isSomeFunction, MF)) { enum isNonStaticMember = !__traits(isStaticFunction, MF); } else { enum isNonStaticMember = !__traits(compiles, (){ auto x = __traits(getMember, T, M); }()); } } unittest { // normal fields struct S { int a; static int b; enum c = 42; void f(); static void g(); ref int h() { return a; } static ref int i() { return b; } } static assert(isNonStaticMember!(S, "a")); static assert(!isNonStaticMember!(S, "b")); static assert(!isNonStaticMember!(S, "c")); static assert(isNonStaticMember!(S, "f")); static assert(!isNonStaticMember!(S, "g")); static assert(isNonStaticMember!(S, "h")); static assert(!isNonStaticMember!(S, "i")); } unittest { // tuple fields struct S(T...) { T a; static T b; } alias T = S!(int, float); auto p = T.b; static assert(isNonStaticMember!(T, "a")); static assert(!isNonStaticMember!(T, "b")); alias U = S!(); static assert(!isNonStaticMember!(U, "a")); static assert(!isNonStaticMember!(U, "b")); } /** Tests if a Group of types is implicitly convertible to a Group of target types. */ bool areConvertibleTo(alias TYPES, alias TARGET_TYPES)() if (isGroup!TYPES && isGroup!TARGET_TYPES) { static assert(TYPES.expand.length == TARGET_TYPES.expand.length); foreach (i, V; TYPES.expand) if (!is(V : TARGET_TYPES.expand[i])) return false; return true; } /// Test if the type $(D DG) is a correct delegate for an opApply where the /// key/index is of type $(D TKEY) and the value of type $(D TVALUE). template isOpApplyDg(DG, TKEY, TVALUE) { import std.traits; static if (is(DG == delegate) && is(ReturnType!DG : int)) { private alias PTT = ParameterTypeTuple!(DG); private alias PSCT = ParameterStorageClassTuple!(DG); private alias STC = ParameterStorageClass; // Just a value static if (PTT.length == 1) { enum isOpApplyDg = (is(PTT[0] == TVALUE)); } else static if (PTT.length == 2) { enum isOpApplyDg = (is(PTT[0] == TKEY)) && (is(PTT[1] == TVALUE)); } else enum isOpApplyDg = false; } else { enum isOpApplyDg = false; } } unittest { static assert(isOpApplyDg!(int delegate(int, string), int, string)); static assert(isOpApplyDg!(int delegate(ref int, ref string), int, string)); static assert(isOpApplyDg!(int delegate(int, ref string), int, string)); static assert(isOpApplyDg!(int delegate(ref int, string), int, string)); } // Synchronized statements are logically nothrow but dmd still marks them as throwing. // DMD#4115, Druntime#1013, Druntime#1021, Phobos#2704 import core.sync.mutex : Mutex; enum synchronizedIsNothrow = __traits(compiles, (Mutex m) nothrow { synchronized(m) {} }); /// Mixin template that checks a particular aggregate type for conformance with a specific interface. template validateInterfaceConformance(T, I) { import vibe.internal.traits : checkInterfaceConformance; static assert(checkInterfaceConformance!(T, I) is null, checkInterfaceConformance!(T, I)); } /** Checks an aggregate type for conformance with a specific interface. The value of this template is either `null`, or an error message indicating the first method of the interface that is not properly implemented by `T`. */ template checkInterfaceConformance(T, I) { import std.meta : AliasSeq; import std.traits : FunctionAttribute, FunctionTypeOf, MemberFunctionsTuple, ParameterTypeTuple, ReturnType, functionAttributes; alias Members = AliasSeq!(__traits(allMembers, I)); template checkMemberConformance(string mem) { alias Overloads = AliasSeq!(__traits(getOverloads, I, mem)); template impl(size_t i) { static if (i < Overloads.length) { alias F = Overloads[i]; alias FT = FunctionTypeOf!F; alias PT = ParameterTypeTuple!F; alias RT = ReturnType!F; enum attribs = functionAttributeString!F(true); static if (functionAttributes!F & FunctionAttribute.property) { static if (PT.length > 0) { static if (!is(typeof(mixin("function RT (ref T t)"~attribs~"{ return t."~mem~" = PT.init; }")))) enum impl = T.stringof ~ " does not implement property setter \"" ~ mem ~ "\" of type " ~ FT.stringof; else enum string impl = impl!(i+1); } else { static if (!is(typeof(mixin("function RT(ref T t)"~attribs~"{ return t."~mem~"; }")))) enum impl = T.stringof ~ " does not implement property getter \"" ~ mem ~ "\" of type " ~ FT.stringof; else enum string impl = impl!(i+1); } } else { static if (is(RT == void)) { static if (!is(typeof(mixin("function void(ref T t, ref PT p)"~attribs~"{ t."~mem~"(p); }")))) { static if (mem == "write" && PT.length == 2) { auto f = mixin("function void(ref T t, ref PT p)"~attribs~"{ t."~mem~"(p); }"); } enum impl = T.stringof ~ " does not implement method \"" ~ mem ~ "\" of type " ~ FT.stringof; } else enum string impl = impl!(i+1); } else { static if (!is(typeof(mixin("function RT(ref T t, ref PT p)"~attribs~"{ return t."~mem~"(p); }")))) enum impl = T.stringof ~ " does not implement method \"" ~ mem ~ "\" of type " ~ FT.stringof; else enum string impl = impl!(i+1); } } } else enum string impl = null; } alias checkMemberConformance = impl!0; } template impl(size_t i) { static if (i < Members.length) { static if (__traits(compiles, __traits(getMember, I, Members[i]))) enum mc = checkMemberConformance!(Members[i]); else enum mc = null; static if (mc is null) enum impl = impl!(i+1); else enum impl = mc; } else enum string impl = null; } static if (is(T : I)) enum checkInterfaceConformance = null; else static if (is(T == struct) || is(T == class) || is(T == interface)) enum checkInterfaceConformance = impl!0; else enum checkInterfaceConformance = "Aggregate type expected, not " ~ T.stringof; } unittest { interface InputStream { @safe: @property bool empty() nothrow; void read(ubyte[] dst); } interface OutputStream { @safe: void write(in ubyte[] bytes); void flush(); void finalize(); void write(InputStream stream, ulong nbytes = 0); } static class OSClass : OutputStream { override void write(in ubyte[] bytes) {} override void flush() {} override void finalize() {} override void write(InputStream stream, ulong nbytes) {} } mixin validateInterfaceConformance!(OSClass, OutputStream); static struct OSStruct { @safe: void write(in ubyte[] bytes) {} void flush() {} void finalize() {} void write(IS)(IS stream, ulong nbytes) {} } mixin validateInterfaceConformance!(OSStruct, OutputStream); static struct NonOSStruct { @safe: void write(in ubyte[] bytes) {} void flush(bool) {} void finalize() {} void write(InputStream stream, ulong nbytes) {} } static assert(checkInterfaceConformance!(NonOSStruct, OutputStream) == "NonOSStruct does not implement method \"flush\" of type @safe void()"); static struct NonOSStruct2 { void write(in ubyte[] bytes) {} // not @safe void flush(bool) {} void finalize() {} void write(InputStream stream, ulong nbytes) {} } static assert(checkInterfaceConformance!(NonOSStruct2, OutputStream) == "NonOSStruct2 does not implement method \"write\" of type @safe void(const(ubyte[]) bytes)"); } string functionAttributeString(alias F)(bool restrictions_only) { import std.traits : FunctionAttribute, functionAttributes; auto attribs = functionAttributes!F; string ret; with (FunctionAttribute) { if (attribs & nogc) ret ~= " @nogc"; if (attribs & nothrow_) ret ~= " nothrow"; if (attribs & pure_) ret ~= " pure"; if (attribs & safe) ret ~= " @safe"; if (!restrictions_only) { if (attribs & property) ret ~= " @property"; if (attribs & ref_) ret ~= " ref"; if (attribs & shared_) ret ~= " shared"; if (attribs & const_) ret ~= " const"; } } return ret; } string functionAttributeThisType(alias F)(string tname) { import std.traits : FunctionAttribute, functionAttributes; auto attribs = functionAttributes!F; string ret = tname; with (FunctionAttribute) { if (attribs & shared_) ret = "shared("~ret~")"; if (attribs & const_) ret = "const("~ret~")"; } return ret; }