1 /* 2 Permission is hereby granted, free of charge, to any person obtaining a copy of 3 this software and associated documentation files (the "Software"), to deal in 4 the Software without restriction, including without limitation the rights to 5 use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies 6 of the Software, and to permit persons to whom the Software is furnished to do 7 so, subject to the following conditions: 8 9 The above copyright notice and this permission notice shall be included in all 10 copies or substantial portions of the Software. 11 12 THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR 13 IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, 14 FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE 15 AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER 16 LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, 17 OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE 18 SOFTWARE. 19 */ 20 module pyd.util.typeinfo; 21 22 import std.traits; 23 import std.compiler; 24 25 enum Constness { 26 Mutable, 27 Const, 28 Immutable, 29 Wildcard 30 } 31 32 string constness_ToString(Constness c) { 33 switch(c){ 34 case Constness.Mutable: 35 return "mutable"; 36 case Constness.Const: 37 return "const"; 38 case Constness.Immutable: 39 return "immutable"; 40 case Constness.Wildcard: 41 return "inout"; 42 default: 43 assert(0); 44 } 45 } 46 47 template constness(T) { 48 static if(is(T == immutable)) { 49 enum constness = Constness.Immutable; 50 }else static if(is(T == const)) { 51 enum constness = Constness.Const; 52 }else static if(is(T == inout)) { 53 enum constness = Constness.Wildcard; 54 }else { 55 enum constness = Constness.Mutable; 56 } 57 } 58 59 bool constCompatible(Constness c1, Constness c2) { 60 return c1 == c2 || 61 c1 == Constness.Const && c2 != Constness.Wildcard || 62 c2 == Constness.Const && c1 != Constness.Wildcard; 63 } 64 65 template ApplyConstness(T, Constness constness) { 66 alias Unqual!T Tu; 67 static if(constness == Constness.Mutable) { 68 alias Tu ApplyConstness; 69 }else static if(constness == Constness.Const) { 70 alias const(Tu) ApplyConstness; 71 }else static if(constness == Constness.Wildcard) { 72 alias inout(Tu) ApplyConstness; 73 }else static if(constness == Constness.Immutable) { 74 alias immutable(Tu) ApplyConstness; 75 }else { 76 static assert(0); 77 } 78 } 79 80 template ApplyConstness2(T, Constness constness) { 81 alias Unqual!T Tu; 82 static if(constness == Constness.Mutable) { 83 alias Tu ApplyConstness2; 84 }else static if(constness == Constness.Const) { 85 alias const(Tu) ApplyConstness2; 86 }else static if(constness == Constness.Wildcard) { 87 alias Tu ApplyConstness2; 88 }else static if(constness == Constness.Immutable) { 89 alias immutable(Tu) ApplyConstness2; 90 }else { 91 static assert(0); 92 } 93 } 94 95 string attrs_to_string(uint attrs) { 96 string s = ""; 97 with(FunctionAttribute) { 98 if(attrs & pure_) s ~= " pure"; 99 if(attrs & nothrow_) s ~= " nothrow"; 100 if(attrs & ref_) s ~= " ref"; 101 if(attrs & property) s ~= " @property"; 102 if(attrs & trusted) s ~= " @trusted"; 103 if(attrs & safe) s ~= " @safe"; 104 if(attrs & nogc) s ~= " @nogc"; 105 static if(version_major == 2 && version_minor >= 67) { 106 if(attrs & return_) s ~= " return"; 107 } 108 } 109 return s; 110 } 111 112 // what U should be so 'new U' returns a T 113 template NewParamT(T) { 114 static if(isPointer!T && is(PointerTarget!T == struct)) 115 alias PointerTarget!T NewParamT; 116 else alias T NewParamT; 117 } 118 119 template StripSafeTrusted(F) { 120 enum attrs = functionAttributes!F ; 121 enum desired_attrs = attrs & ~FunctionAttribute.safe & ~FunctionAttribute.trusted; 122 enum linkage = functionLinkage!F; 123 alias SetFunctionAttributes!(F, linkage, desired_attrs) unqual_F; 124 static if(isFunctionPointer!F) { 125 enum constn = constness!(PointerTarget!F); 126 alias ApplyConstness!(PointerTarget!unqual_F, constn)* StripSafeTrusted; 127 }else static if(isDelegate!F) { 128 enum constn = constness!(F); 129 alias ApplyConstness!(unqual_F, constn) StripSafeTrusted; 130 }else{ 131 enum constn = constness!(F); 132 alias ApplyConstness!(unqual_F, constn) StripSafeTrusted; 133 } 134 135 136 } 137 138 class Z { 139 void a() immutable 140 { 141 } 142 } 143 //static assert(is(StripSafeTrusted!(typeof(&Z.a)) == typeof(&Z.a) )); 144 //static assert(is(StripSafeTrusted!(typeof(&Z.init.a)) == typeof(&Z.init.a) )); 145 import std.traits : isCallable; 146 import std.typetuple : TypeTuple; 147 template WorkaroundParameterDefaults(func...) 148 if (func.length == 1 && isCallable!func) 149 { 150 static if (is(FunctionTypeOf!(func[0]) PT == __parameters)) 151 { 152 template Get(size_t i) 153 { 154 // workaround scope escape check, see 155 // https://issues.dlang.org/show_bug.cgi?id=16582 156 // should use return scope once available 157 enum get = (PT[i .. i + 1] __args) @trusted 158 { 159 // If __args[0] is lazy, we force it to be evaluated like this. 160 auto __pd_value = __args[0]; 161 auto __pd_val = &__pd_value; // workaround Bugzilla 16582 162 return *__pd_val; 163 }; 164 static if (is(typeof(get()))) 165 enum Get = get(); 166 else 167 alias Get = void; 168 // If default arg doesn't exist, returns void instead. 169 } 170 } 171 else 172 { 173 static assert(0, func[0].stringof ~ "is not a function"); 174 175 // Define dummy entities to avoid pointless errors 176 template Get(size_t i) { enum Get = ""; } 177 alias PT = TypeTuple!(); 178 } 179 180 template Impl(size_t i = 0) 181 { 182 static if (i == PT.length) 183 alias Impl = TypeTuple!(); 184 else 185 alias Impl = TypeTuple!(Get!i, Impl!(i + 1)); 186 } 187 188 alias WorkaroundParameterDefaults = Impl!(); 189 } 190 191 @safe unittest 192 { 193 int foo(int num, string name = "hello", int[] = [1,2,3], lazy int x = 0); 194 static assert(is(WorkaroundParameterDefaults!foo[0] == void)); 195 static assert( WorkaroundParameterDefaults!foo[1] == "hello"); 196 static assert( WorkaroundParameterDefaults!foo[2] == [1,2,3]); 197 static assert( WorkaroundParameterDefaults!foo[3] == 0); 198 } 199 200 @safe unittest 201 { 202 alias PDVT = WorkaroundParameterDefaults; 203 204 void bar(int n = 1, string s = "hello"){} 205 static assert(PDVT!bar.length == 2); 206 static assert(PDVT!bar[0] == 1); 207 static assert(PDVT!bar[1] == "hello"); 208 static assert(is(typeof(PDVT!bar) == typeof(TypeTuple!(1, "hello")))); 209 210 void baz(int x, int n = 1, string s = "hello"){} 211 static assert(PDVT!baz.length == 3); 212 static assert(is(PDVT!baz[0] == void)); 213 static assert( PDVT!baz[1] == 1); 214 static assert( PDVT!baz[2] == "hello"); 215 static assert(is(typeof(PDVT!baz) == typeof(TypeTuple!(void, 1, "hello")))); 216 217 // bug 10800 - property functions return empty string 218 @property void foo(int x = 3) { } 219 static assert(PDVT!foo.length == 1); 220 static assert(PDVT!foo[0] == 3); 221 static assert(is(typeof(PDVT!foo) == typeof(TypeTuple!(3)))); 222 223 struct Colour 224 { 225 ubyte a,r,g,b; 226 227 static immutable Colour white = Colour(255,255,255,255); 228 } 229 void bug8106(Colour c = Colour.white) {} 230 //pragma(msg, PDVT!bug8106); 231 static assert(PDVT!bug8106[0] == Colour.white); 232 void bug16582(scope int* val = null) {} 233 static assert(PDVT!bug16582[0] is null); 234 }