//: Transform to maintain multiple variants of a recipe depending on the //: number and types of the ingredients and products. Allows us to use nice //: names like 'print' or 'length' in many mutually extensible ways. :(scenario static_dispatch) recipe main [ 7:number/raw <- test 3 ] recipe test a:number -> z:number [ z <- copy 1 ] recipe test a:number, b:number -> z:number [ z <- copy 2 ] +mem: storing 1 in location 7 //: When loading recipes, accumulate variants if headers don't collide, and //: raise a warning if headers collide. :(before "End Globals") map > Recipe_variants; :(before "End One-time Setup") put(Recipe_variants, "main", vector()); // since we manually added main to Recipe_ordinal :(before "Clear Other State For Recently_added_recipes") for (map >::iterator p = Recipe_variants.begin(); p != Recipe_variants.end(); ++p) { for (long long int i = 0; i < SIZE(p->second); ++i) { if (find(Recently_added_recipes.begin(), Recently_added_recipes.end(), p->second.at(i)) != Recently_added_recipes.end()) p->second.at(i) = -1; // just leave a ghost } } :(before "End Load Recipe Header(result)") if (contains_key(Recipe_ordinal, result.name)) { const recipe_ordinal r = get(Recipe_ordinal, result.name); //? cerr << result.name << ": " << contains_key(Recipe, r) << (contains_key(Recipe, r) ? get(Recipe, r).has_header : 0) << matching_variant_name(result) << '\n'; if (!contains_key(Recipe, r) || get(Recipe, r).has_header) { string new_name = matching_variant_name(result); if (new_name.empty()) { // variant doesn't already exist new_name = next_unused_recipe_name(result.name); put(Recipe_ordinal, new_name, Next_recipe_ordinal++); get_or_insert(Recipe_variants, result.name).push_back(get(Recipe_ordinal, new_name)); } result.name = new_name; //? cerr << "=> " << new_name << '\n'; } } else { // save first variant put(Recipe_ordinal, result.name, Next_recipe_ordinal++); get_or_insert(Recipe_variants, result.name).push_back(get(Recipe_ordinal, result.name)); } :(code) string matching_variant_name(const recipe& rr) { const vector& variants = get_or_insert(Recipe_variants, rr.name); for (long long int i = 0; i < SIZE(variants); ++i) { if (!contains_key(Recipe, variants.at(i))) continue; const recipe& candidate = get(Recipe, variants.at(i)); if (!all_reagents_match(rr, candidate)) continue; return candidate.name; } return ""; } bool all_reagents_match(const recipe& r1, const recipe& r2) { if (SIZE(r1.ingredients) != SIZE(r2.ingredients)) return false; if (SIZE(r1.products) != SIZE(r2.products)) return false; for (long long int i = 0; i < SIZE(r1.ingredients); ++i) { if (!deeply_equal_types(r1.ingredients.at(i).properties.at(0).second, r2.ingredients.at(i).properties.at(0).second)) { return false; } } for (long long int i = 0; i < SIZE(r1.products); ++i) { if (!deeply_equal_types(r1.products.at(i).properties.at(0).second, r2.products.at(i).properties.at(0).second)) { return false; } } return true; } :(before "End Globals") set Literal_type_names; :(before "End One-time Setup") Literal_type_names.insert("number"); Literal_type_names.insert("character"); :(code) bool deeply_equal_types(const string_tree* a, const string_tree* b) { if (!a) return !b; if (!b) return !a; if (a->value == "literal" && b->value == "literal") return true; if (a->value == "literal") return Literal_type_names.find(b->value) != Literal_type_names.end(); if (b->value == "literal") return Literal_type_names.find(a->value) != Literal_type_names.end(); return a->value == b->value && deeply_equal_types(a->left, b->left) && deeply_equal_types(a->right, b->right); } string next_unused_recipe_name(const string& recipe_name) { for (long long int i = 2; ; ++i) { ostringstream out; out << recipe_name << '_' << i; if (!contains_key(Recipe_ordinal, out.str())) return out.str(); } } //: Once all the recipes are loaded, transform their bodies to replace each //: call with the most suitable variant. :(scenario static_dispatch_picks_most_similar_variant) recipe main [ 7:number/raw <- test 3, 4, 5 ] recipe test a:number -> z:number [ z <- copy 1 ] recipe test a:number, b:number -> z:number [ z <- copy 2 ] +mem: storing 2 in location 7 //: support recipe headers in a previous transform to fill in missing types :(before "End check_or_set_invalid_types") for (long long int i = 0; i < SIZE(caller.ingredients); ++i) { check_or_set_invalid_types(caller.ingredients.at(i).type, caller.ingredients.at(i).properties.at(0).second, maybe(caller.name), "recipe header ingredient"); } for (long long int i = 0; i < SIZE(caller.products); ++i) { check_or_set_invalid_types(caller.products.at(i).type, caller.products.at(i).properties.at(0).second, maybe(caller.name), "recipe header product"); } //: after filling in all missing types (because we'll be introducing 'blank' types in this transform in a later layer, for shape-shifting recipes) :(after "Transform.push_back(transform_names)") Transform.push_back(resolve_ambiguous_calls); // idempotent :(code) void resolve_ambiguous_calls(recipe_ordinal r) { recipe& caller_recipe = get(Recipe, r); trace(9991, "transform") << "--- resolve ambiguous calls for recipe " << caller_recipe.name << end(); //? cerr << "--- resolve ambiguous calls for recipe " << caller_recipe.name << '\n'; for (long long int index = 0; index < SIZE(caller_recipe.steps); ++index) { instruction& inst = caller_recipe.steps.at(index); if (inst.is_label) continue; if (get_or_insert(Recipe_variants, inst.name).empty()) continue; replace_best_variant(inst, caller_recipe); } } void replace_best_variant(instruction& inst, const recipe& caller_recipe) { trace(9992, "transform") << "instruction " << inst.name << end(); vector& variants = get(Recipe_variants, inst.name); //? trace(9992, "transform") << "checking base: " << get(Recipe_ordinal, inst.name) << end(); long long int best_score = variant_score(inst, get(Recipe_ordinal, inst.name)); trace(9992, "transform") << "score for base: " << best_score << end(); for (long long int i = 0; i < SIZE(variants); ++i) { //? trace(9992, "transform") << "checking variant " << i << ": " << variants.at(i) << end(); long long int current_score = variant_score(inst, variants.at(i)); trace(9992, "transform") << "score for variant " << i << ": " << current_score << end(); if (current_score > best_score) { inst.name = get(Recipe, variants.at(i)).name; best_score = current_score; } } // End Instruction Dispatch(inst, best_score) if (best_score == -1 && get(Recipe_ordinal, inst.name) >= MAX_PRIMITIVE_RECIPES) { raise_error << maybe(caller_recipe.name) << "failed to find a matching call for '" << inst.to_string() << "'\n" << end(); } } long long int variant_score(const instruction& inst, recipe_ordinal variant) { long long int result = 1000; if (variant == -1) return -1; // ghost from a previous test //? cerr << "variant score: " << inst.to_string() << '\n'; if (!contains_key(Recipe, variant)) { assert(variant < MAX_PRIMITIVE_RECIPES); return -1; } const vector& header_ingredients = get(Recipe, variant).ingredients; //? cerr << "=== checking ingredients\n"; for (long long int i = 0; i < min(SIZE(inst.ingredients), SIZE(header_ingredients)); ++i) { if (!types_match(header_ingredients.at(i), inst.ingredients.at(i))) { trace(9993, "transform") << "mismatch: ingredient " << i << end(); //? cerr << "mismatch: ingredient " << i << '\n'; return -1; } if (types_strictly_match(header_ingredients.at(i), inst.ingredients.at(i))) { trace(9993, "transform") << "strict match: ingredient " << i << end(); //? cerr << "strict match: ingredient " << i << '\n'; } else if (boolean_matches_literal(header_ingredients.at(i), inst.ingredients.at(i))) { // slight penalty for coercing literal to boolean (prefer direct conversion to number if possible) trace(9993, "transform") << "boolean matches literal: ingredient " << i << end(); result--; } else { // slightly larger penalty for modifying type in other ways trace(9993, "transform") << "non-strict match: ingredient " << i << end(); //? cerr << "non-strict match: ingredient " << i << '\n'; result-=10; } } //? cerr << "=== done checking ingredients\n"; const vector& header_products = get(Recipe, variant).products; for (long long int i = 0; i < min(SIZE(header_products), SIZE(inst.products)); ++i) { if (is_dummy(inst.products.at(i))) continue; if (!types_match(header_products.at(i), inst.products.at(i))) { trace(9993, "transform") << "mismatch: product " << i << end(); //? cerr << "mismatch: product " << i << '\n'; return -1; } if (types_strictly_match(header_products.at(i), inst.products.at(i))) { trace(9993, "transform") << "strict match: product " << i << end(); //? cerr << "strict match: product " << i << '\n'; } else if (boolean_matches_literal(header_products.at(i), inst.products.at(i))) { // slight penalty for coercing literal to boolean (prefer direct conversion to number if possible) trace(9993, "transform") << "boolean matches literal: product " << i << end(); result--; } else { // slightly larger penalty for modifying type in other ways trace(9993, "transform") << "non-strict match: product " << i << end(); //? cerr << "non-strict match: product " << i << '\n'; result-=10; } } // the greater the number of unused ingredients/products, the lower the score return result - abs(SIZE(get(Recipe, variant).products)-SIZE(inst.products)) - abs(SIZE(inst.ingredients)-SIZE(get(Recipe, variant).ingredients)); } :(scenario static_dispatch_disabled_on_headerless_definition) % Hide_warnings = true; recipe test a:number -> z:number [ z <- copy 1 ] recipe test [ reply 34 ] +warn: redefining recipe test :(scenario static_dispatch_disabled_on_headerless_definition_2) % Hide_warnings = true; recipe test [ reply 34 ] recipe test a:number -> z:number [ z <- copy 1 ] +warn: redefining recipe test :(scenario static_dispatch_on_primitive_names) recipe main [ 1:number <- copy 34 2:number <- copy 34 3:boolean <- equal 1:number, 2:number 4:boolean <- copy 0/false 5:boolean <- copy 0/false 6:boolean <- equal 4:boolean, 5:boolean ] # temporarily hardcode number equality to always fail recipe equal x:number, y:number -> z:boolean [ local-scope load-ingredients z <- copy 0/false ] # comparing numbers used overload +mem: storing 0 in location 3 # comparing booleans continues to use primitive +mem: storing 1 in location 6 :(scenario static_dispatch_works_with_dummy_results_for_containers) % Hide_errors = true; recipe main [ _ <- test 3, 4 ] recipe test a:number -> z:point [ local-scope load-ingredients z <- merge a, 0 ] recipe test a:number, b:number -> z:point [ local-scope load-ingredients z <- merge a, b ] $error: 0 :(scenario static_dispatch_works_with_compound_type_containing_container_defined_after_first_use) % Hide_errors = true; recipe main [ x:address:foo <- new foo:type test x ] container foo [ x:number ] recipe test a:address:foo -> z:number [ local-scope load-ingredients z:number <- get *a, x:offset ] $error: 0 :(scenario static_dispatch_works_with_compound_type_containing_container_defined_after_second_use) % Hide_errors = true; recipe main [ x:address:foo <- new foo:type test x ] recipe test a:address:foo -> z:number [ local-scope load-ingredients z:number <- get *a, x:offset ] container foo [ x:number ] $error: 0 :(scenario static_dispatch_prefers_literals_to_be_numbers_rather_than_addresses) recipe main [ 1:number <- foo 0 ] recipe foo x:address:number -> y:number [ reply 34 ] recipe foo x:number -> y:number [ reply 35 ] +mem: storing 35 in location 1 :(scenario static_dispatch_on_non_literal_character_ignores_variant_with_numbers) % Hide_errors = true; recipe main [ local-scope x:character <- copy 10/newline 1:number/raw <- foo x ] recipe foo x:number -> y:number [ load-ingredients reply 34 ] +error: main: ingredient 0 has the wrong type at '1:number/raw <- foo x' -mem: storing 34 in location 1 :(scenario static_dispatch_dispatches_literal_to_boolean_before_character) recipe main [ 1:number/raw <- foo 0 # valid literal for boolean ] recipe foo x:character -> y:number [ local-scope load-ingredients reply 34 ] recipe foo x:boolean -> y:number [ local-scope load-ingredients reply 35 ] # boolean variant is preferred +mem: storing 35 in location 1 :(scenario static_dispatch_dispatches_literal_to_character_when_out_of_boolean_range) recipe main [ 1:number/raw <- foo 97 # not a valid literal for boolean ] recipe foo x:character -> y:number [ local-scope load-ingredients reply 34 ] recipe foo x:boolean -> y:number [ local-scope load-ingredients reply 35 ] # character variant is preferred +mem: storing 34 in location 1 :(scenario static_dispatch_dispatches_literal_to_number_if_at_all_possible) recipe main [ 1:number/raw <- foo 97 ] recipe foo x:character -> y:number [ local-scope load-ingredients reply 34 ] recipe foo x:number -> y:number [ local-scope load-ingredients reply 35 ] # number variant is preferred +mem: storing 35 in location 1 :(code) string header_label(recipe_ordinal r) { const recipe& caller = get(Recipe, r); ostringstream out; out << "recipe " << caller.name; for (long long int i = 0; i < SIZE(caller.ingredients); ++i) out << ' ' << caller.ingredients.at(i).original_string; if (!caller.products.empty()) out << " ->"; for (long long int i = 0; i < SIZE(caller.products); ++i) out << ' ' << caller.products.at(i).original_string; return out.str(); } :(scenario reload_variant_retains_other_variants) recipe main [ 1:number <- copy 34 2:number <- foo 1:number ] recipe foo x:number -> y:number [ local-scope load-ingredients reply 34 ] recipe foo x:address:number -> y:number [ local-scope load-ingredients reply 35 ] recipe! foo x:address:number -> y:number [ local-scope load-ingredients reply 36 ] +mem: storing 34 in location 2 $error: 0 $warn: 0 :(scenario dispatch_errors_come_after_unknown_name_errors) % Hide_errors = true; recipe main [ y:number <- foo x ] recipe foo a:number -> b:number [ local-scope load-ingredients reply 34 ] recipe foo a:boolean -> b:number [ local-scope load-ingredients reply 35 ] +error: main: missing type for x in 'y:number <- foo x' +error: main: failed to find a matching call for 'y:number <- foo x' :(before "End Includes") using std::min; using std::max; using std::abs;