//: So far you can have global variables by not setting default-space, and
//: local variables by setting default-space. You can isolate variables
//: between those extremes by creating 'surrounding' spaces.
//:
//: (Surrounding spaces are like lexical scopes in other languages.)

:(scenario surrounding_space)
# location 1 in space 1 refers to the space surrounding the default space, here 20.
recipe main [
  10:number <- copy 5  # pretend array
  20:number <- copy 5  # pretend array
  default-space:address:array:location <- copy 10/raw
  0:address:array:location/names:dummy <- copy 20/raw  # later layers will explain the /names: property
  1:number <- copy 32
  1:number/space:1 <- copy 33
]
recipe dummy [
]
# chain space
+mem: storing 20 in location 11
# store to default-space
+mem: storing 32 in location 12
# store to chained space
+mem: storing 33 in location 22

//: If you think of a space as a collection of variables with a common
//: lifetime, surrounding allows managing shorter lifetimes inside a longer
//: one.

:(replace{} "long long int space_base(const reagent& x)")
long long int space_base(const reagent& x) {
  return space_base(x, space_index(x), current_call().default_space);
}

long long int space_base(const reagent& x, long long int space_index, long long int base) {
  if (space_index == 0) {
    return base;
  }
  long long int result = space_base(x, space_index-1, get_or_insert(Memory, base+1));
  return result;
}

long long int space_index(const reagent& x) {
  for (long long int i = /*skip name:type*/1; i < SIZE(x.properties); ++i) {
    if (x.properties.at(i).first == "space") {
      if (!x.properties.at(i).second || x.properties.at(i).second->right)
        raise_error << maybe(current_recipe_name()) << "/space metadata should take exactly one value in " << x.original_string << '\n' << end();
      return to_integer(x.properties.at(i).second->value);
    }
  }
  return 0;
}

:(scenario permit_space_as_variable_name)
recipe main [
  space:number <- copy 0
]