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//: Support for arrays.
:(before "End Mu Types Initialization")
//: We'll use this array as a running example:
int integer_array = Type_number["integer-array"] = Next_type_number++;
Type[integer_array].is_array = true;
Type[integer_array].element.push_back(integer);
Type[integer_array].name = "integer-array";
//: update size mismatch check
:(replace "if (size_of(x) != data.size())" following "void write_memory(reagent x, vector<int> data)")
if (!Type[x.types[0]].is_array && size_of(x) != data.size())
//: Arrays can be copied around with a single instruction just like integers,
//: no matter how large they are.
:(scenario copy_array)
recipe main [
1:integer <- copy 3:literal
2:integer <- copy 14:literal
3:integer <- copy 15:literal
4:integer <- copy 16:literal
5:integer-array <- copy 1:integer-array
]
+run: instruction main/4
+run: ingredient 0 is 1
+mem: location 1 is 3
+mem: location 2 is 14
+mem: location 3 is 15
+mem: location 4 is 16
+mem: storing 3 in location 5
+mem: storing 14 in location 6
+mem: storing 15 in location 7
+mem: storing 16 in location 8
:(after "size_t size_of(const reagent& r)")
const type_info& t = Type[r.types[0]];
if (t.is_array) {
int base = r.value;
return 1 + Memory[base]*size_of(t.element);
}
:(before "End Globals")
// Operator to look at elements of arrays.
const int INDEX = 20;
:(before "End Primitive Recipe Numbers")
Recipe_number["index"] = INDEX;
assert(Next_recipe_number == INDEX);
Next_recipe_number++;
:(before "End Primitive Recipe Implementations")
case INDEX: {
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].is_array);
trace("run") << "ingredient 1 is " << instructions[pc].ingredients[1].name;
size_t offset = instructions[pc].ingredients[1].value;
int src = base_address + 1 + offset*size_of(Type[base_type].element);
trace("run") << "address to copy is " << src;
int src_type = Type[base_type].element[0];
trace("run") << "its type is " << src_type;
reagent tmp;
tmp.set_value(src);
tmp.types.push_back(src_type);
vector<int> result(read_memory(tmp));
trace("run") << "product 0 is " << result[0];
write_memory(instructions[pc].products[0], result);
break;
}
:(scenario "index")
recipe main [
1:integer <- copy 3:literal
2:integer <- copy 14:literal
3:integer <- copy 15:literal
4:integer <- copy 16:literal
5:integer <- index 1:integer-array, 0:literal
]
+run: instruction main/4
+run: ingredient 0 is 1
+run: ingredient 1 is 0
+run: address to copy is 2
+run: its type is 1
+mem: location 2 is 14
+run: product 0 is 14
+mem: storing 14 in location 5
:(before "End Globals")
// To write to fields of records, you need their address.
const int INDEX_ADDRESS = 21;
:(before "End Primitive Recipe Numbers")
Recipe_number["index-address"] = INDEX_ADDRESS;
assert(Next_recipe_number == INDEX_ADDRESS);
Next_recipe_number++;
:(before "End Primitive Recipe Implementations")
case INDEX_ADDRESS: {
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].is_array);
trace("run") << "ingredient 1 is " << instructions[pc].ingredients[1].name;
size_t offset = instructions[pc].ingredients[1].value;
int src = base_address + 1 + offset*size_of(Type[base_type].element);
trace("run") << "address to copy is " << src;
vector<int> result;
result.push_back(src);
trace("run") << "product 0 is " << result[0];
write_memory(instructions[pc].products[0], result);
break;
}
:(scenario "index_address")
recipe main [
1:integer <- copy 3:literal
2:integer <- copy 14:literal
3:integer <- copy 15:literal
4:integer <- copy 16:literal
5:integer <- index-address 1:integer-array, 0:literal
]
+run: instruction main/4
+run: ingredient 0 is 1
+run: ingredient 1 is 0
+run: address to copy is 2
+mem: storing 2 in location 5
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