//: Exclusive containers contain exactly one of a fixed number of 'variants' //: of different types. //: //: They also implicitly contain a tag describing precisely which variant is //: currently stored in them. :(before "End Mu Types Initialization") //: We'll use this container as a running example, with two integer elements. { int tmp = Type_number["integer-or-point"] = Next_type_number++; Type[tmp].size = 2; Type[tmp].kind = exclusive_container; Type[tmp].name = "integer-or-point"; //? cout << tmp << ": " << Type[tmp].elements.size() << '\n'; //? 1 vector t1; t1.push_back(integer); Type[tmp].elements.push_back(t1); //? cout << Type[tmp].elements.size() << '\n'; //? 1 vector t2; t2.push_back(point); Type[tmp].elements.push_back(t2); //? cout << Type[tmp].elements.size() << '\n'; //? 1 //? cout << "point: " << point << '\n'; //? 1 Type[tmp].element_names.push_back("i"); Type[tmp].element_names.push_back("p"); } :(scenario "copy_exclusive_container") # Copying exclusive containers copies all their contents and an extra location for the tag. recipe main [ 1:integer <- copy 1:literal # 'point' variant 2:integer <- copy 34:literal 3:integer <- copy 35:literal 4:integer-or-point <- copy 1:integer-or-point ] +mem: storing 1 in location 4 +mem: storing 34 in location 5 +mem: storing 35 in location 6 :(before "End size_of(types) Cases") if (t.kind == exclusive_container) { // size of an exclusive container is the size of its largest variant //? cout << "--- " << types[0] << ' ' << t.size << '\n'; //? 1 //? cout << "point: " << Type_number["point"] << " " << Type[Type_number["point"]].name << " " << Type[Type_number["point"]].size << '\n'; //? 1 //? cout << t.name << ' ' << t.size << ' ' << t.elements.size() << '\n'; //? 1 size_t result = 0; for (size_t i = 0; i < t.size; ++i) { size_t tmp = size_of(t.elements[i]); //? cout << i << ": " << t.elements[i][0] << ' ' << tmp << ' ' << result << '\n'; //? 1 if (tmp > result) result = tmp; } // ...+1 for its tag. return result+1; } //: To access variants of an exclusive container, use 'maybe-convert'. //: It always returns an address (so that you can modify it) or null (to //: signal that the conversion failed (because the container contains a //: different variant). //: 'maybe-convert' requires a literal in ingredient 1. We'll use a synonym //: called 'variant'. :(before "End Mu Types Initialization") Type_number["variant"] = 0; :(scenario "maybe_convert") recipe main [ 12:integer <- copy 1:literal 13:integer <- copy 35:literal 14:integer <- copy 36:literal 20:address:point <- maybe-convert 12:integer-or-point, 1:variant ] +mem: storing 13 in location 20 :(scenario "maybe_convert_fail") recipe main [ 12:integer <- copy 1:literal 13:integer <- copy 35:literal 14:integer <- copy 36:literal 20:address:point <- maybe-convert 12:integer-or-point, 0:variant ] +mem: storing 0 in location 20 :(before "End Primitive Recipe Declarations") MAYBE_CONVERT, :(before "End Primitive Recipe Numbers") Recipe_number["maybe-convert"] = MAYBE_CONVERT; :(before "End Primitive Recipe Implementations") case MAYBE_CONVERT: { trace("run") << "ingredient 0 is " << instructions[pc].ingredients[0].name; reagent base = canonize(instructions[pc].ingredients[0]); int base_address = base.value; int base_type = base.types[0]; assert(Type[base_type].kind == exclusive_container); trace("run") << "ingredient 1 is " << instructions[pc].ingredients[1].name; assert(isa_literal(instructions[pc].ingredients[1])); size_t tag = instructions[pc].ingredients[1].value; vector result; if (tag == static_cast(Memory[base_address])) { result.push_back(base_address+1); } else { result.push_back(0); } write_memory(instructions[pc].products[0], result); break; }