// It's often convenient to express recipes in a textual fashion. :(scenarios add_recipes) :(scenario first_recipe) recipe main [ 1:integer <- copy 23:literal ] +parse: instruction: 1 +parse: ingredient: {name: "23", type: 0} +parse: product: {name: "1", type: 1} :(code) int add_recipes(string form) { istringstream in(form); int result = add_recipe(in); while (!in.eof()) add_recipe(in); return result; } int add_recipe(istream& in) { in >> std::noskipws; skip_comments_and_newlines(in); string _recipe = next_word(in); //? cout << _recipe; //? 1 if (_recipe != "recipe") raise << "top-level forms must be of the form 'recipe _name_ [ _instruction_ ... ]'\n"; string recipe_name = next_word(in); //? cout << "recipe name: ^" << recipe_name << "$\n"; //? 1 if (recipe_name.empty()) raise << "empty recipe name\n"; //? raise << "empty recipe name in " << in.str() << '\n'; if (Recipe_number.find(recipe_name) == Recipe_number.end()) Recipe_number[recipe_name] = Next_recipe_number++; int r = Recipe_number[recipe_name]; //? cout << recipe_name << ": adding recipe " << r << '\n'; //? 3 if (next_word(in) != "[") raise << "recipe body must begin with '['\n"; skip_comments_and_newlines(in); instruction curr; while (next_instruction(in, &curr)) { Recipe[r].steps.push_back(curr); } Recipe[r].name = recipe_name; //? cout << "recipe " << recipe_name << " has " << Recipe[r].steps.size() << " steps.\n"; //? 1 return r; } bool next_instruction(istream& in, instruction* curr) { curr->clear(); if (in.eof()) return false; skip_whitespace(in); if (in.eof()) return false; skip_comments_and_newlines(in); if (in.eof()) return false; vector words; while (in.peek() != '\n') { skip_whitespace(in); if (in.eof()) return false; string word = next_word(in); if (in.eof()) return false; words.push_back(word); skip_whitespace(in); if (in.eof()) return false; } skip_comments_and_newlines(in); if (in.eof()) return false; //? if (words.size() == 1) cout << words[0] << ' ' << words[0].size() << '\n'; //? 1 if (words.size() == 1 && words[0] == "]") { //? cout << "AAA\n"; //? 1 return false; // end of recipe } if (words.size() == 1 && *(words[0].end()-1) == ':') { curr->is_label = true; words[0].erase(words[0].end()-1); curr->label = words[0]; trace("parse") << "label: " << curr->label; return !in.eof(); } vector::iterator p = words.begin(); if (find(words.begin(), words.end(), "<-") != words.end()) { for (; *p != "<-"; ++p) { if (*p == ",") continue; curr->products.push_back(reagent(*p)); } ++p; // skip <- } if (Recipe_number.find(*p) == Recipe_number.end()) Recipe_number[*p] = Next_recipe_number++; curr->operation = Recipe_number[*p]; ++p; for (; p != words.end(); ++p) { if (*p == ",") continue; curr->ingredients.push_back(reagent(*p)); } trace("parse") << "instruction: " << curr->operation; for (vector::iterator p = curr->ingredients.begin(); p != curr->ingredients.end(); ++p) { trace("parse") << " ingredient: " << p->to_string(); } for (vector::iterator p = curr->products.begin(); p != curr->products.end(); ++p) { trace("parse") << " product: " << p->to_string(); } return !in.eof(); } string next_word(istream& in) { ostringstream out; skip_whitespace(in); slurp_word(in, out); return out.str(); } void slurp_word(istream& in, ostream& out) { char c; if (in.peek() == ',') { in >> c; out << c; return; } while (in >> c) { if (isspace(c) || c == ',') { in.putback(c); break; } out << c; } } void skip_whitespace(istream& in) { while (isspace(in.peek()) && in.peek() != '\n') { in.get(); } } void skip_comments_and_newlines(istream& in) { while (in.peek() == '\n' || in.peek() == '#') { if (in.peek() == '#') { in.get(); while (in.peek() != '\n') in.get(); } in.get(); } } void skip_comma(istream& in) { skip_whitespace(in); if (in.peek() == ',') in.get(); skip_whitespace(in); } :(scenario parse_label) recipe main [ foo: ] +parse: label: foo -parse: instruction: 1 :(scenario parse_multiple_products) recipe main [ 1:integer, 2:integer <- copy 23:literal ] +parse: instruction: 1 +parse: ingredient: {name: "23", type: 0} +parse: product: {name: "1", type: 1} +parse: product: {name: "2", type: 1} :(scenario parse_multiple_ingredients) recipe main [ 1:integer, 2:integer <- copy 23:literal, 4:integer ] +parse: instruction: 1 +parse: ingredient: {name: "23", type: 0} +parse: ingredient: {name: "4", type: 1} +parse: product: {name: "1", type: 1} +parse: product: {name: "2", type: 1} :(scenario parse_multiple_types) recipe main [ 1:integer, 2:address:integer <- copy 23:literal, 4:integer ] +parse: instruction: 1 +parse: ingredient: {name: "23", type: 0} +parse: ingredient: {name: "4", type: 1} +parse: product: {name: "1", type: 1} +parse: product: {name: "2", type: 2-1} :(scenario parse_properties) recipe main [ 1:integer:address/deref <- copy 23:literal ] +parse: product: {name: "1", type: 1-2, property: deref:}