//: Introduce a new transform to perform various checks in instructions before //: we start running them. It'll be extensible, so that we can add checks for //: new recipes as we extend 'run' to support them. :(after "int main") Transform.push_back(check_instruction); :(code) void check_instruction(const recipe_ordinal r) { map > metadata; for (long long int i = 0; i < SIZE(Recipe[r].steps); ++i) { instruction& inst = Recipe[r].steps.at(i); switch (inst.operation) { // Primitive Recipe Checks case COPY: { if (SIZE(inst.products) != SIZE(inst.ingredients)) { raise << "ingredients and products should match in '" << inst.to_string() << "'\n" << end(); break; } for (long long int i = 0; i < SIZE(inst.ingredients); ++i) { if (!types_match(inst.products.at(i), inst.ingredients.at(i))) { raise << maybe(Recipe[r].name) << "can't copy " << inst.ingredients.at(i).original_string << " to " << inst.products.at(i).original_string << "; types don't match\n" << end(); goto finish_checking_instruction; } } break; } // End Primitive Recipe Checks default: { // Defined Recipe Checks // End Defined Recipe Checks } } finish_checking_instruction:; } } :(scenario copy_checks_reagent_count) % Hide_warnings = true; recipe main [ 1:number <- copy 34, 35 ] +warn: ingredients and products should match in '1:number <- copy 34, 35' :(scenario write_scalar_to_array_disallowed) % Hide_warnings = true; recipe main [ 1:array:number <- copy 34 ] +warn: main: can't copy 34 to 1:array:number; types don't match :(scenario write_scalar_to_array_disallowed_2) % Hide_warnings = true; recipe main [ 1:number, 2:array:number <- copy 34, 35 ] +warn: main: can't copy 35 to 2:array:number; types don't match :(scenario write_scalar_to_address_disallowed) % Hide_warnings = true; recipe main [ 1:address:number <- copy 34 ] +warn: main: can't copy 34 to 1:address:number; types don't match :(code) bool types_match(reagent lhs, reagent rhs) { // '_' never raises type error if (is_dummy(lhs)) return true; // to sidestep type-checking, use /raw in the source. // this is unsafe, and will be highlighted in red inside vim. just for some tests. if (is_raw(rhs)) return true; // allow writing 0 to any address if (rhs.name == "0" && is_mu_address(lhs)) return true; if (is_literal(rhs)) return !is_mu_array(lhs) && !is_mu_address(lhs) && size_of(rhs) == size_of(lhs); // more refined types can always be copied to less refined ones if (SIZE(lhs.types) > SIZE(rhs.types)) return false; if (SIZE(lhs.types) == SIZE(rhs.types)) return lhs.types == rhs.types; rhs.types.resize(SIZE(lhs.types)); return lhs.types == rhs.types; } bool is_raw(const reagent& r) { for (long long int i = /*skip value+type*/1; i < SIZE(r.properties); ++i) { if (r.properties.at(i).first == "raw") return true; } return false; } bool is_mu_array(reagent r) { if (is_literal(r)) return false; return !r.types.empty() && r.types.at(0) == Type_ordinal["array"]; } bool is_mu_address(reagent r) { if (is_literal(r)) return false; return !r.types.empty() && r.types.at(0) == Type_ordinal["address"]; } bool is_mu_number(reagent r) { if (is_literal(r)) return r.properties.at(0).second.at(0) == "literal-number" || r.properties.at(0).second.at(0) == "literal"; if (r.types.empty()) return false; if (r.types.at(0) == Type_ordinal["character"]) return true; // permit arithmetic on unicode code points return r.types.at(0) == Type_ordinal["number"]; } bool is_mu_scalar(reagent r) { if (is_literal(r)) return r.properties.at(0).second.empty() || r.properties.at(0).second.at(0) != "literal-string"; if (is_mu_array(r)) return false; return size_of(r) == 1; }