//: A simple memory allocator to create space for new variables at runtime. :(scenarios run) :(scenario "new") # call new two times with identical arguments; you should get back different results recipe main [ 1:address:integer/raw <- new integer:type 2:address:integer/raw <- new integer:type 3:boolean/raw <- equal 1:address:integer/raw, 2:address:integer/raw ] +mem: storing 0 in location 3 :(before "End Globals") const size_t Alloc_init = 1000; :(before "End routine Fields") size_t alloc; :(replace{} "routine::routine(recipe_number r)") routine::routine(recipe_number r) :alloc(Alloc_init) { calls.push(call(r)); } //: first handle 'type' operands :(before "End Mu Types Initialization") Type_number["type"] = 0; :(after "Per-recipe Transforms") // replace type names with type_numbers if (inst.operation == Recipe_number["new"]) { // first arg must be of type 'type' assert(inst.ingredients.size() >= 1); //? cout << inst.ingredients[0].to_string() << '\n'; //? 1 assert(isa_literal(inst.ingredients[0])); if (inst.ingredients[0].properties[0].second[0] == "type") { inst.ingredients[0].set_value(Type_number[inst.ingredients[0].name]); } trace("new") << inst.ingredients[0].name << " -> " << inst.ingredients[0].value; } :(before "End Primitive Recipe Declarations") NEW, :(before "End Primitive Recipe Numbers") Recipe_number["new"] = NEW; :(before "End Primitive Recipe Implementations") case NEW: { vector result; trace("mem") << "new alloc: " << Current_routine->alloc; result.push_back(Current_routine->alloc); write_memory(instructions[pc].products[0], result); vector types; types.push_back(instructions[pc].ingredients[0].value); if (instructions[pc].ingredients.size() > 1) { // array vector capacity = read_memory(instructions[pc].ingredients[1]); trace("mem") << "array size is " << capacity[0]; Memory[Current_routine->alloc] = capacity[0]; Current_routine->alloc += capacity[0]*size_of(types); } else { // scalar Current_routine->alloc += size_of(types); } break; } :(scenario "new_array") recipe main [ 1:address:array:integer/raw <- new integer:type, 5:literal 2:address:integer/raw <- new integer:type 3:integer/raw <- subtract 2:address:integer/raw, 1:address:array:integer/raw ] +run: instruction main/0 +mem: array size is 5 +run: instruction main/1 +run: instruction main/2 +mem: storing 5 in location 3 //: vim: ft=cpp