//:: 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:array:character <- new [abc] # compound types for type ingredients {2: (foo number (address array character))} <- merge 34/x, 1:address: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 _b))} ] def main [ 1:address:array:character <- new [abc] 2:bar:number:array:character <- merge 34/x, 1:address:array:character/y ] $error: 0 :(scenario shape_shifting_container_extend) container foo:_a [ x:_a ] container foo:_a [ y:_a ] $error: 0 :(scenario shape_shifting_container_extend_error) % Hide_errors = true; container foo:_a [ x:_a ] container foo:_b [ y:_b ] +error: headers of container 'foo' must use identical type ingredients :(scenario type_ingredient_must_start_with_underscore) % Hide_errors = true; container foo:t [ x:number ] +error: foo: type ingredient 't' must begin with an underscore :(before "End Globals") // We'll use large type ordinals to mean "the following type of the variable". // For example, if we have a generic type called foo:_elem, the type // ingredient _elem in foo's type_info will have value START_TYPE_INGREDIENTS, // and we'll handle it by looking in the current reagent for the next type // that appears after foo. extern const int START_TYPE_INGREDIENTS = 2000; :(before "End Commandline Parsing") // after loading .mu files assert(Next_type_ordinal < START_TYPE_INGREDIENTS); :(before "End type_info Fields") map 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(); if (!read_type_ingredients(name, command)) { // error; skip rest of the container definition and continue slurp_balanced_bracket(in); return; } } :(code) bool read_type_ingredients(string& name, const string& command) { string save_name = name; istringstream in(save_name); name = slurp_until(in, ':'); map type_ingredient_names; if (!slurp_type_ingredients(in, type_ingredient_names, name)) { return false; } if (contains_key(Type_ordinal, name) && contains_key(Type, get(Type_ordinal, name))) { const type_info& previous_info = get(Type, get(Type_ordinal, name)); // we've already seen this container; make sure type ingredients match if (!type_ingredients_match(type_ingredient_names, previous_info.type_ingredient_names)) { raise << "headers of " << command << " '" << name << "' must use identical type ingredients\n" << end(); return false; } return true; } // we haven't seen this container before 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)); info.type_ingredient_names.swap(type_ingredient_names); return true; } bool slurp_type_ingredients(istream& in, map& out, const string& container_name) { int next_type_ordinal = START_TYPE_INGREDIENTS; while (has_data(in)) { string curr = slurp_until(in, ':'); if (curr.empty()) { raise << container_name << ": empty type ingredients not permitted\n" << end(); return false; } if (curr.at(0) != '_') { raise << container_name << ": type ingredient '" << curr << "' must begin with an underscore\n" << end(); return false; } if (out.find(curr) != out.end()) { raise << container_name << ": can't repeat type ingredient name'" << curr << "' in a single container definition\n" << end(); return false; } put(out, curr, next_type_ordinal++); } return true; } bool type_ingredients_match(const map& a, const map& b) { if (SIZE(a) != SIZE(b)) return false; for (map::const_iterator p = a.begin(); p != a.end(); ++p) { if (!contains_key(b, p->first)) return false; if (p->second != get(b, p->first)) return false; } return true; } :(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 ] +run: {1: ("foo" "number")} <- merge {0: "literal", "x": ()}, {34: "literal"} +mem: storing 0 in location 1 +mem: storing 34 in location 2 +run: {3: ("foo" "point")} <- merge {0: "literal", "x": ()}, {15: "literal"}, {16: "literal"} +mem: storing 0 in location 3 +mem: storing 15 in location 4 +mem: storing 16 in location 5 +run: {6: ("foo" "point")} <- merge {1: "literal", "y": ()}, {23: "literal"} +mem: storing 1 in location 6 +mem: storing 23 in location 7 +run: reply # no other stores % CHECK(trace_count_prefix("mem", "storing") == 7); :(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 :(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 3:address:point <- get 1:foo:address:point, x:offset ] +mem: storing 34 in location 3 :(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:array:character <- new [abc] {2: (foo number (address array character))} <- merge 34/x, 1:address:array:character/y 3:address:array:character <- get {2: (foo number (address array character))}, y:offset 4:boolean <- equal 1:address:array:character, 3:address:array:character ] +mem: storing 1 in location 4 :(before "End element_type Special-cases") replace_type_ingredients(element, type, info); :(before "Compute Container Size(element)") replace_type_ingredients(element, type, info); :(before "Compute Exclusive Container Size(element)") replace_type_ingredients(element, type, info); :(before "Compute Container Address Offset(element)") replace_type_ingredients(element, type, info); if (contains_type_ingredient(element)) return; // error raised elsewhere :(code) void replace_type_ingredients(reagent& element, const type_tree* caller_type, const type_info& info) { if (contains_type_ingredient(element)) { if (!caller_type->right) raise << "illegal type " << names_to_string(caller_type) << " seems to be missing a type ingredient or three\n" << end(); replace_type_ingredients(element.type, caller_type->right, info); } } :(after "Compute size_of Container") assert(!contains_type_ingredient(type)); :(after "Compute size_of Exclusive Container") assert(!contains_type_ingredient(type)); :(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; assert(!is_type_ingredient_name(type->name)); 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 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 zig_left = false; { const type_tree* curr = callsite_type; for (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 (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 (zig_left || final_type_ingredient(type_ingredient_index, container_info)) { 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(int type_ingredient_index, const type_info& container_info) { for (map::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.type, 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.type, 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:array:character"); reagent element = element_type(callsite.type, 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, "array"); CHECK_EQ(element.type->right->right->right->name, "character"); CHECK(!element.type->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.type, 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 array character))}"); reagent element1 = element_type(callsite.type, 0); CHECK_EQ(element1.name, "x"); CHECK_EQ(element1.type->name, "number"); CHECK(!element1.type->right); reagent element2 = element_type(callsite.type, 1); CHECK_EQ(element2.name, "y"); CHECK_EQ(element2.type->name, "address"); CHECK_EQ(element2.type->right->name, "array"); CHECK_EQ(element2.type->right->right->name, "character"); CHECK(!element2.type->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 array character) boolean)}"); reagent element1 = element_type(callsite.type, 0); CHECK_EQ(element1.name, "x"); CHECK_EQ(element1.type->name, "number"); CHECK(!element1.type->right); reagent element2 = element_type(callsite.type, 1); CHECK_EQ(element2.name, "y"); CHECK_EQ(element2.type->name, "address"); CHECK_EQ(element2.type->right->name, "array"); CHECK_EQ(element2.type->right->right->name, "character"); CHECK(!element2.type->right->right->right); reagent element3 = element_type(callsite.type, 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 array character) number)}"); reagent element = element_type(callsite.type, 0); CHECK_EQ(element.name, "key"); CHECK_EQ(element.type->name, "address"); CHECK_EQ(element.type->right->name, "array"); CHECK_EQ(element.type->right->right->name, "character"); CHECK(!element.type->right->right->right); } void test_replace_middle_type_ingredient_with_multiple3() { run("container foo_table:_key:_value [\n" " data:address: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 array character) number)}"); reagent element = element_type(callsite.type, 0); CHECK_EQ(element.name, "data"); CHECK_EQ(element.type->name, "address"); CHECK_EQ(element.type->right->name, "array"); CHECK_EQ(element.type->right->right->name, "foo_table_row"); CHECK(element.type->right->right->right->left); CHECK_EQ(element.type->right->right->right->left->name, "address"); CHECK_EQ(element.type->right->right->right->left->right->name, "array"); CHECK_EQ(element.type->right->right->right->left->right->right->name, "character"); CHECK_EQ(element.type->right->right->right->right->name, "number"); CHECK(!element.type->right->right->right->right->right); } bool has_nth_type(const type_tree* base, int n) { assert(n >= 0); if (!base) 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 //: '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 (!type->right) raise << "illegal type " << to_string(type) << " seems to be missing a type ingredient or three\n" << end(); replace_type_ingredients(element.type, type->right, info); }