//:: Container definitions can contain 'type ingredients'
:(scenario size_of_shape_shifting_container)
container foo:_t [
x:_t
y:number
]
def main [
1:foo:number <- merge 12, 13
3:foo:point <- merge 14, 15, 16
]
+mem: storing 12 in location 1
+mem: storing 13 in location 2
+mem: storing 14 in location 3
+mem: storing 15 in location 4
+mem: storing 16 in location 5
:(scenario size_of_shape_shifting_container_2)
# multiple type ingredients
container foo:_a:_b [
x:_a
y:_b
]
def main [
1:foo:number:boolean <- merge 34, 1/true
]
$error: 0
:(scenario size_of_shape_shifting_container_3)
container foo:_a:_b [
x:_a
y:_b
]
def main [
1:address:shared:array:character <- new [abc]
# compound types for type ingredients
{2: (foo number (address shared array character))} <- merge 34/x, 1:address:shared:array:character/y
]
$error: 0
:(scenario size_of_shape_shifting_container_4)
container foo:_a:_b [
x:_a
y:_b
]
container bar:_a:_b [
# dilated element
{data: (foo _a (address shared _b))}
]
def main [
1:address:shared:array:character <- new [abc]
2:bar:number:array:character <- merge 34/x, 1:address:shared:array:character/y
]
$error: 0
:(before "End Globals")
// We'll use large type ordinals to mean "the following type of the variable".
const int START_TYPE_INGREDIENTS = 2000;
:(before "End Test Run Initialization")
assert(Next_type_ordinal < START_TYPE_INGREDIENTS);
:(before "End type_info Fields")
map<string, type_ordinal> type_ingredient_names;
//: Suppress unknown type checks in shape-shifting containers.
:(before "Check Container Field Types(info)")
if (!info.type_ingredient_names.empty()) continue;
:(before "End container Name Refinements")
if (name.find(':') != string::npos) {
trace(9999, "parse") << "container has type ingredients; parsing" << end();
read_type_ingredients(name);
}
:(code)
void read_type_ingredients(string& name) {
string save_name = name;
istringstream in(save_name);
name = slurp_until(in, ':');
if (!contains_key(Type_ordinal, name) || get(Type_ordinal, name) == 0)
put(Type_ordinal, name, Next_type_ordinal++);
type_info& info = get_or_insert(Type, get(Type_ordinal, name));
long long int next_type_ordinal = START_TYPE_INGREDIENTS;
while (has_data(in)) {
string curr = slurp_until(in, ':');
if (info.type_ingredient_names.find(curr) != info.type_ingredient_names.end()) {
raise << "can't repeat type ingredient names in a single container definition\n" << end();
return;
}
put(info.type_ingredient_names, curr, next_type_ordinal++);
}
}
:(before "End insert_container Special-cases")
// check for use of type ingredients
else if (is_type_ingredient_name(type->name)) {
type->value = get(info.type_ingredient_names, type->name);
}
:(code)
bool is_type_ingredient_name(const string& type) {
return !type.empty() && type.at(0) == '_';
}
:(before "End Container Type Checks")
if (type->value >= START_TYPE_INGREDIENTS
&& (type->value - START_TYPE_INGREDIENTS) < SIZE(get(Type, type->value).type_ingredient_names))
return;
:(scenario size_of_shape_shifting_exclusive_container)
exclusive-container foo:_t [
x:_t
y:number
]
def main [
1:foo:number <- merge 0/x, 34
3:foo:point <- merge 0/x, 15, 16
6:foo:point <- merge 1/y, 23
]
+mem: storing 0 in location 1
+mem: storing 34 in location 2
+mem: storing 0 in location 3
+mem: storing 15 in location 4
+mem: storing 16 in location 5
+mem: storing 1 in location 6
+mem: storing 23 in location 7
$mem: 7
:(code)
// shape-shifting version of size_of
long long int size_of_type_ingredient(const type_tree* element_template, const type_tree* rest_of_use) {
type_tree* element_type = type_ingredient(element_template, rest_of_use);
if (!element_type) return 0;
long long int result = size_of(element_type);
delete element_type;
return result;
}
type_tree* type_ingredient(const type_tree* element_template, const type_tree* rest_of_use) {
long long int type_ingredient_index = element_template->value - START_TYPE_INGREDIENTS;
const type_tree* curr = rest_of_use;
if (!curr) return NULL;
while (type_ingredient_index > 0) {
--type_ingredient_index;
curr = curr->right;
if (!curr) return NULL;
}
assert(curr);
if (curr->left) curr = curr->left;
assert(curr->value > 0);
trace(9999, "type") << "type deduced to be " << get(Type, curr->value).name << "$" << end();
return new type_tree(*curr);
}
:(scenario get_on_shape_shifting_container)
container foo:_t [
x:_t
y:number
]
def main [
1:foo:point <- merge 14, 15, 16
2:number <- get 1:foo:point, y:offset
]
+mem: storing 16 in location 2
:(before "End GET field Cases")
const type_tree* type = get(Type, base_type).elements.at(i).type;
if (type->value >= START_TYPE_INGREDIENTS) {
long long int size = size_of_type_ingredient(type, base.type->right);
if (!size)
raise << "illegal field type '" << to_string(type) << "' seems to be missing a type ingredient or three\n" << end();
src += size;
continue;
}
:(scenario get_on_shape_shifting_container_2)
container foo:_t [
x:_t
y:number
]
def main [
1:foo:point <- merge 14, 15, 16
2:point <- get 1:foo:point, x:offset
]
+mem: storing 14 in location 2
+mem: storing 15 in location 3
:(scenario get_on_shape_shifting_container_3)
container foo:_t [
x:_t
y:number
]
def main [
1:foo:address:point <- merge 34/unsafe, 48
2:address:point <- get 1:foo:address:point, x:offset
]
+mem: storing 34 in location 2
:(scenario get_on_shape_shifting_container_inside_container)
container foo:_t [
x:_t
y:number
]
container bar [
x:foo:point
y:number
]
def main [
1:bar <- merge 14, 15, 16, 17
2:number <- get 1:bar, 1:offset
]
+mem: storing 17 in location 2
:(scenario get_on_complex_shape_shifting_container)
container foo:_a:_b [
x:_a
y:_b
]
def main [
1:address:shared:array:character <- new [abc]
{2: (foo number (address shared array character))} <- merge 34/x, 1:address:shared:array:character/y
3:address:shared:array:character <- get {2: (foo number (address shared array character))}, y:offset
4:boolean <- equal 1:address:shared:array:character, 3:address:shared:array:character
]
+mem: storing 1 in location 4
:(before "End element_type Special-cases")
if (contains_type_ingredient(element)) {
if (!canonized_base.type->right)
raise << "illegal type " << names_to_string(canonized_base.type) << " seems to be missing a type ingredient or three\n" << end();
replace_type_ingredients(element.type, canonized_base.type->right, info);
}
:(code)
bool contains_type_ingredient(const reagent& x) {
return contains_type_ingredient(x.type);
}
bool contains_type_ingredient(const type_tree* type) {
if (!type) return false;
if (type->value >= START_TYPE_INGREDIENTS) return true;
return contains_type_ingredient(type->left) || contains_type_ingredient(type->right);
}
// replace all type_ingredients in element_type with corresponding elements of callsite_type
// todo: too complicated and likely incomplete; maybe avoid replacing in place?
void replace_type_ingredients(type_tree* element_type, const type_tree* callsite_type, const type_info& container_info) {
if (!callsite_type) return; // error but it's already been raised above
if (!element_type) return;
// A. recurse first to avoid nested replaces (which I can't reason about yet)
replace_type_ingredients(element_type->left, callsite_type, container_info);
replace_type_ingredients(element_type->right, callsite_type, container_info);
if (element_type->value < START_TYPE_INGREDIENTS) return;
const long long int type_ingredient_index = element_type->value-START_TYPE_INGREDIENTS;
if (!has_nth_type(callsite_type, type_ingredient_index)) {
raise << "illegal type " << names_to_string(callsite_type) << " seems to be missing a type ingredient or three\n" << end();
return;
}
// B. replace the current location
const type_tree* replacement = NULL;
bool splice_right = true ;
bool zig_left = false;
{
const type_tree* curr = callsite_type;
for (long long int i = 0; i < type_ingredient_index; ++i)
curr = curr->right;
if (curr && curr->left) {
replacement = curr->left;
zig_left = true;
}
else {
// We want foo:_t to be used like foo:number, which expands to {foo: number}
// rather than {foo: (number)}
// We'd also like to use it with multiple types: foo:address:number.
replacement = curr;
if (!final_type_ingredient(type_ingredient_index, container_info))
splice_right = false;
}
}
if (element_type->right && replacement->right && zig_left) { // ZERO confidence that this condition is accurate
element_type->name = "";
element_type->value = 0;
element_type->left = new type_tree(*replacement);
}
else {
string old_name = element_type->name;
element_type->name = replacement->name;
element_type->value = replacement->value;
assert(!element_type->left); // since value is set
element_type->left = replacement->left ? new type_tree(*replacement->left) : NULL;
if (splice_right) {
type_tree* old_right = element_type->right;
element_type->right = replacement->right ? new type_tree(*replacement->right) : NULL;
append(element_type->right, old_right);
}
}
}
bool final_type_ingredient(long long int type_ingredient_index, const type_info& container_info) {
for (map<string, type_ordinal>::const_iterator p = container_info.type_ingredient_names.begin();
p != container_info.type_ingredient_names.end();
++p) {
if (p->second > START_TYPE_INGREDIENTS+type_ingredient_index) return false;
}
return true;
}
void append(type_tree*& base, type_tree* extra) {
if (!base) {
base = extra;
return;
}
type_tree* curr = base;
while (curr->right) curr = curr->right;
curr->right = extra;
}
void append(string_tree*& base, string_tree* extra) {
if (!base) {
base = extra;
return;
}
string_tree* curr = base;
while (curr->right) curr = curr->right;
curr->right = extra;
}
void test_replace_type_ingredients_entire() {
run("container foo:_elem [\n"
" x:_elem\n"
" y:number\n"
"]\n");
reagent callsite("x:foo:point");
reagent element = element_type(callsite, 0);
CHECK_EQ(element.name, "x");
CHECK_EQ(element.type->name, "point");
CHECK(!element.type->right);
}
void test_replace_type_ingredients_tail() {
run("container foo:_elem [\n"
" x:_elem\n"
"]\n"
"container bar:_elem [\n"
" x:foo:_elem\n"
"]\n");
reagent callsite("x:bar:point");
reagent element = element_type(callsite, 0);
CHECK_EQ(element.name, "x");
CHECK_EQ(element.type->name, "foo");
CHECK_EQ(element.type->right->name, "point");
CHECK(!element.type->right->right);
}
void test_replace_type_ingredients_head_tail_multiple() {
run("container foo:_elem [\n"
" x:_elem\n"
"]\n"
"container bar:_elem [\n"
" x:foo:_elem\n"
"]\n");
reagent callsite("x:bar:address:shared:array:character");
reagent element = element_type(callsite, 0);
CHECK_EQ(element.name, "x");
CHECK_EQ(element.type->name, "foo");
CHECK_EQ(element.type->right->name, "address");
CHECK_EQ(element.type->right->right->name, "shared");
CHECK_EQ(element.type->right->right->right->name, "array");
CHECK_EQ(element.type->right->right->right->right->name, "character");
CHECK(!element.type->right->right->right->right->right);
}
void test_replace_type_ingredients_head_middle() {
run("container foo:_elem [\n"
" x:_elem\n"
"]\n"
"container bar:_elem [\n"
" x:foo:_elem:number\n"
"]\n");
reagent callsite("x:bar:address");
reagent element = element_type(callsite, 0);
CHECK_EQ(element.name, "x");
CHECK(element.type)
CHECK_EQ(element.type->name, "foo");
CHECK(element.type->right)
CHECK_EQ(element.type->right->name, "address");
CHECK(element.type->right->right)
CHECK_EQ(element.type->right->right->name, "number");
CHECK(!element.type->right->right->right);
}
void test_replace_last_type_ingredient_with_multiple() {
run("container foo:_a:_b [\n"
" x:_a\n"
" y:_b\n"
"]\n");
reagent callsite("{f: (foo number (address shared array character))}");
reagent element1 = element_type(callsite, 0);
CHECK_EQ(element1.name, "x");
CHECK_EQ(element1.type->name, "number");
CHECK(!element1.type->right);
reagent element2 = element_type(callsite, 1);
CHECK_EQ(element2.name, "y");
CHECK_EQ(element2.type->name, "address");
CHECK_EQ(element2.type->right->name, "shared");
CHECK_EQ(element2.type->right->right->name, "array");
CHECK_EQ(element2.type->right->right->right->name, "character");
CHECK(!element2.type->right->right->right->right);
}
void test_replace_middle_type_ingredient_with_multiple() {
run("container foo:_a:_b:_c [\n"
" x:_a\n"
" y:_b\n"
" z:_c\n"
"]\n");
reagent callsite("{f: (foo number (address shared array character) boolean)}");
reagent element1 = element_type(callsite, 0);
CHECK_EQ(element1.name, "x");
CHECK_EQ(element1.type->name, "number");
CHECK(!element1.type->right);
reagent element2 = element_type(callsite, 1);
CHECK_EQ(element2.name, "y");
CHECK_EQ(element2.type->name, "address");
CHECK_EQ(element2.type->right->name, "shared");
CHECK_EQ(element2.type->right->right->name, "array");
CHECK_EQ(element2.type->right->right->right->name, "character");
CHECK(!element2.type->right->right->right->right);
reagent element3 = element_type(callsite, 2);
CHECK_EQ(element3.name, "z");
CHECK_EQ(element3.type->name, "boolean");
CHECK(!element3.type->right);
}
void test_replace_middle_type_ingredient_with_multiple2() {
run("container foo:_key:_value [\n"
" key:_key\n"
" value:_value\n"
"]\n");
reagent callsite("{f: (foo (address shared array character) number)}");
reagent element = element_type(callsite, 0);
CHECK_EQ(element.name, "key");
CHECK_EQ(element.type->name, "address");
CHECK_EQ(element.type->right->name, "shared");
CHECK_EQ(element.type->right->right->name, "array");
CHECK_EQ(element.type->right->right->right->name, "character");
CHECK(!element.type->right->right->right->right);
}
void test_replace_middle_type_ingredient_with_multiple3() {
run("container foo_table:_key:_value [\n"
" data:address:shared:array:foo_table_row:_key:_value\n"
"]\n"
"\n"
"container foo_table_row:_key:_value [\n"
" key:_key\n"
" value:_value\n"
"]\n");
reagent callsite("{f: (foo_table (address shared array character) number)}");
reagent element = element_type(callsite, 0);
CHECK_EQ(element.name, "data");
CHECK_EQ(element.type->name, "address");
CHECK_EQ(element.type->right->name, "shared");
CHECK_EQ(element.type->right->right->name, "array");
CHECK_EQ(element.type->right->right->right->name, "foo_table_row");
CHECK(element.type->right->right->right->right->left);
CHECK_EQ(element.type->right->right->right->right->left->name, "address");
CHECK_EQ(element.type->right->right->right->right->left->right->name, "shared");
CHECK_EQ(element.type->right->right->right->right->left->right->right->name, "array");
CHECK_EQ(element.type->right->right->right->right->left->right->right->right->name, "character");
CHECK_EQ(element.type->right->right->right->right->right->name, "number");
CHECK(!element.type->right->right->right->right->right->right);
}
bool has_nth_type(const type_tree* base, long long int n) {
assert(n >= 0);
if (base == NULL) return false;
if (n == 0) return true;
return has_nth_type(base->right, n-1);
}
:(scenario get_on_shape_shifting_container_error)
% Hide_errors = true;
container foo:_t [
x:_t
y:number
]
def main [
10:foo:point <- merge 14, 15, 16
1:number <- get 10:foo, 1:offset
]
+error: illegal type "foo" seems to be missing a type ingredient or three
//: get-address similarly
:(scenario get_address_on_shape_shifting_container)
container foo:_t [
x:_t
y:number
]
def main [
10:foo:point <- merge 14, 15, 16
1:address:number <- get-address 10:foo:point, 1:offset
]
+mem: storing 12 in location 1
:(before "End GET_ADDRESS field Cases")
const type_tree* type = get(Type, base_type).elements.at(i).type;
if (type->value >= START_TYPE_INGREDIENTS) {
long long int size = size_of_type_ingredient(type, base.type->right);
if (!size)
raise << "illegal type '" << to_string(type) << "' seems to be missing a type ingredient or three\n" << end();
result += size;
continue;
}
//: 'merge' on shape-shifting containers
:(scenario merge_check_shape_shifting_container_containing_exclusive_container)
container foo:_elem [
x:number
y:_elem
]
exclusive-container bar [
x:number
y:number
]
def main [
1:foo:bar <- merge 23, 1/y, 34
]
+mem: storing 23 in location 1
+mem: storing 1 in location 2
+mem: storing 34 in location 3
$error: 0
:(scenario merge_check_shape_shifting_container_containing_exclusive_container_2)
% Hide_errors = true;
container foo:_elem [
x:number
y:_elem
]
exclusive-container bar [
x:number
y:number
]
def main [
1:foo:bar <- merge 23, 1/y, 34, 35
]
+error: main: too many ingredients in '1:foo:bar <- merge 23, 1/y, 34, 35'
:(scenario merge_check_shape_shifting_exclusive_container_containing_container)
exclusive-container foo:_elem [
x:number
y:_elem
]
container bar [
x:number
y:number
]
def main [
1:foo:bar <- merge 1/y, 23, 34
]
+mem: storing 1 in location 1
+mem: storing 23 in location 2
+mem: storing 34 in location 3
$error: 0
:(scenario merge_check_shape_shifting_exclusive_container_containing_container_2)
exclusive-container foo:_elem [
x:number
y:_elem
]
container bar [
x:number
y:number
]
def main [
1:foo:bar <- merge 0/x, 23
]
$error: 0
:(scenario merge_check_shape_shifting_exclusive_container_containing_container_3)
% Hide_errors = true;
exclusive-container foo:_elem [
x:number
y:_elem
]
container bar [
x:number
y:number
]
def main [
1:foo:bar <- merge 1/y, 23
]
+error: main: too few ingredients in '1:foo:bar <- merge 1/y, 23'
:(before "End variant_type Special-cases")
if (contains_type_ingredient(element)) {
if (!canonized_base.type->right)
raise << "illegal type '" << to_string(canonized_base.type) << "' seems to be missing a type ingredient or three\n" << end();
replace_type_ingredients(element.type, canonized_base.type->right, info);
}