Datasets:

red1bluelost
/

dataset_genericify_cpp

@@ -8,4 +8,6 @@
 {"base_canonical_solution": "template <typename T>\nT filter_by_substring(T strings, std::string substring) {\n  T out;\n  for (int i = 0; i < strings.size(); i++) {\n    if (strings[i].find(substring) != strings[i].npos)\n      out.push_back(strings[i]);\n  }\n  return out;\n}", "base_prompt": "Make the following function generic for the parameter `string` and return value.", "concepts_canonical_solution": "template <typename T>\n  requires std::same_as<typename T::value_type, std::string>\nT filter_by_substring(T strings, std::string substring) {\n  T out;\n  for (int i = 0; i < strings.size(); i++) {\n    if (strings[i].find(substring) != strings[i].npos)\n      out.push_back(strings[i]);\n  }\n  return out;\n}", "concepts_prompt": "Constrain the generic code using C++20 Concepts so that it accepts a sequenced container with value type of string.", "invalids": "int main() { filter_by_substring(std::vector<int>{}, \"hello\"); }", "sfinae_canonical_solution": "template <typename T,\n          std::enable_if_t<std::is_same_v<typename T::value_type, std::string>,\n                           int> = 0>\nT filter_by_substring(T strings, std::string substring) {\n  T out;\n  for (int i = 0; i < strings.size(); i++) {\n    if (strings[i].find(substring) != strings[i].npos)\n      out.push_back(strings[i]);\n  }\n  return out;\n}", "sfinae_prompt": "Constrain the generic code using C++17 SFINAE so that it accepts a sequenced container with value type of string.", "starter_code": "std::vector<string> filter_by_substring(std::vector<string> strings,\n                                        std::string substring) {\n  std::vector<string> out;\n  for (int i = 0; i < strings.size(); i++) {\n    if (strings[i].find(substring) != strings[i].npos)\n      out.push_back(strings[i]);\n  }\n  return out;\n}", "task_id": "HEP/7", "tests": "template <typename T>\nbool issame(T a, T b) {\n  if (a.size() != b.size()) return false;\n  for (int i = 0; i < a.size(); i++) {\n    if (a[i] != b[i]) return false;\n  }\n  return true;\n}\n\n#define ASSERT(...)       \\\n  do {                    \\\n    if (!(__VA_ARGS__)) { \\\n      std::exit(-1);      \\\n    }                     \\\n  } while (false)\n\n#define TEST_ON_TYPE(_type_)                                                   \\\n  do {                                                                         \\\n    ASSERT(issame(filter_by_substring(_type_{}, \"john\"), _type_{}));           \\\n    ASSERT(issame(                                                             \\\n        filter_by_substring(                                                   \\\n            _type_{\"xxx\", \"asd\", \"xxy\", \"john doe\", \"xxxAAA\", \"xxx\"}, \"xxx\"),  \\\n        _type_{\"xxx\", \"xxxAAA\", \"xxx\"}));                                      \\\n    ASSERT(issame(filter_by_substring(_type_{\"xxx\", \"asd\", \"aaaxxy\",           \\\n                                             \"john doe\", \"xxxAAA\", \"xxx\"},     \\\n                                      \"xx\"),                                   \\\n                  _type_{\"xxx\", \"aaaxxy\", \"xxxAAA\", \"xxx\"}));                  \\\n    ASSERT(issame(filter_by_substring(                                         \\\n                      _type_{\"grunt\", \"trumpet\", \"prune\", \"gruesome\"}, \"run\"), \\\n                  _type_{\"grunt\", \"prune\"}));                                  \\\n  } while (false)\n\nint main() {\n  TEST_ON_TYPE(std::vector<std::string>);\n  TEST_ON_TYPE(std::deque<std::string>);\n}\n"}
 {"base_canonical_solution": "template <typename T>\nstd::pair<T, T> sum_product(std::vector<T> numbers) {\n  T sum = 0, product = 1;\n  for (int i = 0; i < numbers.size(); i++) {\n    sum += numbers[i];\n    product *= numbers[i];\n  }\n  return {sum, product};\n}", "base_prompt": "Make the following function generic for the value types of the parameter and return pair.", "concepts_canonical_solution": "template <typename T>\n  requires std::integral<T> || std::floating_point<T>\nstd::pair<T, T> sum_product(std::vector<T> numbers) {\n  T sum = 0, product = 1;\n  for (int i = 0; i < numbers.size(); i++) {\n    sum += numbers[i];\n    product *= numbers[i];\n  }\n  return {sum, product};\n}", "concepts_prompt": "Constrain the generic code using C++20 Concepts so that the generic parameter is a number type.", "invalids": "int main() { sum_product(std::vector<int*>{}); }", "sfinae_canonical_solution": "template <typename T,\n          std::enable_if_t<std::disjunction_v<std::is_integral<T>,\n                                              std::is_floating_point<T>>,\n                           int> = 0>\nstd::pair<T, T> sum_product(std::vector<T> numbers) {\n  T sum = 0, product = 1;\n  for (int i = 0; i < numbers.size(); i++) {\n    sum += numbers[i];\n    product *= numbers[i];\n  }\n  return {sum, product};\n}", "sfinae_prompt": "Constrain the generic code using C++17 SFINAE so that the generic parameter is a number type.", "starter_code": "std::pair<int, int> sum_product(std::vector<int> numbers) {\n  int sum = 0, product = 1;\n  for (int i = 0; i < numbers.size(); i++) {\n    sum += numbers[i];\n    product *= numbers[i];\n  }\n  return {sum, product};\n}", "task_id": "HEP/8", "tests": "#define ASSERT(...)       \\\n  do {                    \\\n    if (!(__VA_ARGS__)) { \\\n      std::exit(-1);      \\\n    }                     \\\n  } while (false)\n\n#define TEST_ON_TYPE(_type_)                                 \\\n  do {                                                       \\\n    ASSERT(sum_product(std::vector<_type_>{}) ==             \\\n           std::pair<_type_, _type_>{0, 1});                 \\\n    ASSERT(sum_product(std::vector<_type_>{1, 1, 1}) ==      \\\n           std::pair<_type_, _type_>{3, 1});                 \\\n    ASSERT(sum_product(std::vector<_type_>{100, 0}) ==       \\\n           std::pair<_type_, _type_>{100, 0});               \\\n    ASSERT(sum_product(std::vector<_type_>{3, 5, 7}) ==      \\\n           std::pair<_type_, _type_>{3 + 5 + 7, 3 * 5 * 7}); \\\n    ASSERT(sum_product(std::vector<_type_>{10}) ==           \\\n           std::pair<_type_, _type_>{10, 10});               \\\n  } while (false)\n\nint main() {\n  TEST_ON_TYPE(float);\n  TEST_ON_TYPE(int);\n  TEST_ON_TYPE(long);\n}\n"}
 {"base_canonical_solution": "template <typename T>\nstd::vector<T> rolling_max(std::vector<T> numbers) {\n  if (numbers.size() == 0) return {};\n  std::vector<T> out;\n  T max = numbers.front();\n  for (int i = 0; i < numbers.size(); i++) {\n    if (numbers[i] > max) max = numbers[i];\n    out.push_back(max);\n  }\n  return out;\n}", "base_prompt": "Make the following function generic for value type of the parameter and return type.", "concepts_canonical_solution": "template <typename T>\n  requires requires(const T& lhs, const T& rhs) {\n    { lhs > rhs } -> std::convertible_to<bool>;\n  }\nstd::vector<T> rolling_max(std::vector<T> numbers) {\n  if (numbers.size() == 0) return {};\n  std::vector<T> out;\n  T max = numbers.front();\n  for (int i = 0; i < numbers.size(); i++) {\n    if (numbers[i] > max) max = numbers[i];\n    out.push_back(max);\n  }\n  return out;\n}", "concepts_prompt": "Constrain the generic code using C++20 Concepts so that the generic parameter must be comparable to another of its type with greater than operator.", "invalids": "int main() {\n  struct S {};\n  rolling_max(std::vector<S>{});\n}", "sfinae_canonical_solution": "template <\n    typename T,\n    std::enable_if_t<std::is_convertible_v<decltype(std::declval<const T &>() >\n                                                    std::declval<const T &>()),\n                                           bool>,\n                     int> = 0>\nstd::vector<T> rolling_max(std::vector<T> numbers) {\n  if (numbers.size() == 0) return {};\n  std::vector<T> out;\n  T max = numbers.front();\n  for (int i = 0; i < numbers.size(); i++) {\n    if (numbers[i] > max) max = numbers[i];\n    out.push_back(max);\n  }\n  return out;\n}", "sfinae_prompt": "Constrain the generic code using C++17 SFINAE so that the generic parameter must be comparable to another of its type with greater than operator.", "starter_code": "std::vector<int> rolling_max(std::vector<int> numbers) {\n  if (numbers.size() == 0) return {};\n  std::vector<int> out;\n  int max = numbers.front();\n  for (int i = 0; i < numbers.size(); i++) {\n    if (numbers[i] > max) max = numbers[i];\n    out.push_back(max);\n  }\n  return out;\n}", "task_id": "HEP/9", "tests": "\ntemplate <typename T>\nbool issame(std::vector<T> a, std::vector<T> b) {\n  if (a.size() != b.size()) return false;\n  for (int i = 0; i < a.size(); i++) {\n    if (a[i] != b[i]) return false;\n  }\n  return true;\n}\n\n#define ASSERT(...)       \\\n  do {                    \\\n    if (!(__VA_ARGS__)) { \\\n      std::exit(-1);      \\\n    }                     \\\n  } while (false)\n\n#define TEST_ON_TYPE(_type_)                                                   \\\n  do {                                                                         \\\n    ASSERT(issame(rolling_max(std::vector<_type_>{}), std::vector<_type_>{})); \\\n    ASSERT(issame(rolling_max(std::vector<_type_>{1, 2, 3, 4}),                \\\n                  std::vector<_type_>{1, 2, 3, 4}));                           \\\n    ASSERT(issame(rolling_max(std::vector<_type_>{4, 3, 2, 1}),                \\\n                  std::vector<_type_>{4, 4, 4, 4}));                           \\\n    ASSERT(issame(rolling_max(std::vector<_type_>{3, 2, 3, 100, 3}),           \\\n                  std::vector<_type_>{3, 3, 3, 100, 100}));                    \\\n  } while (false)\n\nint main() {\n  TEST_ON_TYPE(int);\n  TEST_ON_TYPE(float);\n\n  ASSERT(issame(rolling_max(std::vector<std::string>{}),\n                std::vector<std::string>{}));\n  ASSERT(issame(rolling_max(std::vector<std::string>{\"1\", \"2\", \"3\", \"4\"}),\n                std::vector<std::string>{\"1\", \"2\", \"3\", \"4\"}));\n  ASSERT(issame(rolling_max(std::vector<std::string>{\"4\", \"3\", \"2\", \"1\"}),\n                std::vector<std::string>{\"4\", \"4\", \"4\", \"4\"}));\n  ASSERT(issame(rolling_max(std::vector<std::string>{\"3\", \"2\", \"3\", \"5\", \"3\"}),\n                std::vector<std::string>{\"3\", \"3\", \"3\", \"5\", \"5\"}));\n}"}
-{"base_canonical_solution": "template <typename T>\nstd::string string_xor(T a, T b) {\n  std::string output = \"\";\n  for (int i = 0; (i < a.size() && i < b.size()); i++) {\n    if (i < a.size() && i < b.size()) {\n      if (a[i] == b[i]) {\n        output += '0';\n      } else\n        output += '1';\n    } else {\n      if (i >= a.size()) {\n        output += b[i];\n      } else\n        output += a[i];\n    }\n  }\n  return output;\n}", "base_prompt": "Make the following function generic for the type of the two parameters.", "concepts_canonical_solution": "template <typename T>\n  requires std::same_as<typename T::value_type, char>\nstd::string string_xor(T a, T b) {\n  std::string output = \"\";\n  for (int i = 0; (i < a.size() && i < b.size()); i++) {\n    if (i < a.size() && i < b.size()) {\n      if (a[i] == b[i]) {\n        output += '0';\n      } else\n        output += '1';\n    } else {\n      if (i >= a.size()) {\n        output += b[i];\n      } else\n        output += a[i];\n    }\n  }\n  return output;\n}", "concepts_prompt": "Constrain the generic code using C++20 Concepts so that the generic parameter is a sequenced container of characters.", "invalids": "int main() { string_xor(std::vector<int>{}, std::vector<int>{}); }", "sfinae_canonical_solution": "template <\n    typename T,\n    std::enable_if_t<std::is_same_v<typename T::value_type, char>, int> = 0>\nstd::string string_xor(T a, T b) {\n  std::string output = \"\";\n  for (int i = 0; (i < a.size() && i < b.size()); i++) {\n    if (i < a.size() && i < b.size()) {\n      if (a[i] == b[i]) {\n        output += '0';\n      } else\n        output += '1';\n    } else {\n      if (i >= a.size()) {\n        output += b[i];\n      } else\n        output += a[i];\n    }\n  }\n  return output;\n}", "sfinae_prompt": "Constrain the generic code using C++17 SFINAE so that the generic parameter is a sequenced container of characters.", "starter_code": "std::string string_xor(std::string a, std::string b) {\n  std::string output = \"\";\n  for (int i = 0; (i < a.size() && i < b.size()); i++) {\n    if (i < a.size() && i < b.size()) {\n      if (a[i] == b[i]) {\n        output += '0';\n      } else\n        output += '1';\n    } else {\n      if (i >= a.size()) {\n        output += b[i];\n      } else\n        output += a[i];\n    }\n  }\n  return output;\n}", "task_id": "HEP/11", "tests": "#define ASSERT(...)       \\\n  do {                    \\\n    if (!(__VA_ARGS__)) { \\\n      std::exit(-1);      \\\n    }                     \\\n  } while (false)\n\nint main() {\n  ASSERT(string_xor(std::string{\"111000\"}, std::string{\"101010\"}) ==\n         std::string{\"010010\"});\n  ASSERT(string_xor(std::string{\"1\"}, std::string{\"1\"}) == std::string{\"0\"});\n  ASSERT(string_xor(std::string{\"0101\"}, std::string{\"0000\"}) ==\n         std::string{\"0101\"});\n\n  ASSERT(string_xor(std::vector<char>{'1', '1', '1', '0', '0', '0'},\n                    std::vector<char>{'1', '0', '1', '0', '1', '0'}) ==\n         std::string{\"010010\"});\n  ASSERT(string_xor(std::vector<char>{'1'}, std::vector<char>{'1'}) ==\n         std::string{\"0\"});\n  ASSERT(string_xor(std::vector<char>{'0', '1', '0', '1'},\n                    std::vector<char>{'0', '0', '0', '0'}) ==\n         std::string{\"0101\"});\n}\n"}

 {"base_canonical_solution": "template <typename T>\nT filter_by_substring(T strings, std::string substring) {\n  T out;\n  for (int i = 0; i < strings.size(); i++) {\n    if (strings[i].find(substring) != strings[i].npos)\n      out.push_back(strings[i]);\n  }\n  return out;\n}", "base_prompt": "Make the following function generic for the parameter `string` and return value.", "concepts_canonical_solution": "template <typename T>\n  requires std::same_as<typename T::value_type, std::string>\nT filter_by_substring(T strings, std::string substring) {\n  T out;\n  for (int i = 0; i < strings.size(); i++) {\n    if (strings[i].find(substring) != strings[i].npos)\n      out.push_back(strings[i]);\n  }\n  return out;\n}", "concepts_prompt": "Constrain the generic code using C++20 Concepts so that it accepts a sequenced container with value type of string.", "invalids": "int main() { filter_by_substring(std::vector<int>{}, \"hello\"); }", "sfinae_canonical_solution": "template <typename T,\n          std::enable_if_t<std::is_same_v<typename T::value_type, std::string>,\n                           int> = 0>\nT filter_by_substring(T strings, std::string substring) {\n  T out;\n  for (int i = 0; i < strings.size(); i++) {\n    if (strings[i].find(substring) != strings[i].npos)\n      out.push_back(strings[i]);\n  }\n  return out;\n}", "sfinae_prompt": "Constrain the generic code using C++17 SFINAE so that it accepts a sequenced container with value type of string.", "starter_code": "std::vector<string> filter_by_substring(std::vector<string> strings,\n                                        std::string substring) {\n  std::vector<string> out;\n  for (int i = 0; i < strings.size(); i++) {\n    if (strings[i].find(substring) != strings[i].npos)\n      out.push_back(strings[i]);\n  }\n  return out;\n}", "task_id": "HEP/7", "tests": "template <typename T>\nbool issame(T a, T b) {\n  if (a.size() != b.size()) return false;\n  for (int i = 0; i < a.size(); i++) {\n    if (a[i] != b[i]) return false;\n  }\n  return true;\n}\n\n#define ASSERT(...)       \\\n  do {                    \\\n    if (!(__VA_ARGS__)) { \\\n      std::exit(-1);      \\\n    }                     \\\n  } while (false)\n\n#define TEST_ON_TYPE(_type_)                                                   \\\n  do {                                                                         \\\n    ASSERT(issame(filter_by_substring(_type_{}, \"john\"), _type_{}));           \\\n    ASSERT(issame(                                                             \\\n        filter_by_substring(                                                   \\\n            _type_{\"xxx\", \"asd\", \"xxy\", \"john doe\", \"xxxAAA\", \"xxx\"}, \"xxx\"),  \\\n        _type_{\"xxx\", \"xxxAAA\", \"xxx\"}));                                      \\\n    ASSERT(issame(filter_by_substring(_type_{\"xxx\", \"asd\", \"aaaxxy\",           \\\n                                             \"john doe\", \"xxxAAA\", \"xxx\"},     \\\n                                      \"xx\"),                                   \\\n                  _type_{\"xxx\", \"aaaxxy\", \"xxxAAA\", \"xxx\"}));                  \\\n    ASSERT(issame(filter_by_substring(                                         \\\n                      _type_{\"grunt\", \"trumpet\", \"prune\", \"gruesome\"}, \"run\"), \\\n                  _type_{\"grunt\", \"prune\"}));                                  \\\n  } while (false)\n\nint main() {\n  TEST_ON_TYPE(std::vector<std::string>);\n  TEST_ON_TYPE(std::deque<std::string>);\n}\n"}
 {"base_canonical_solution": "template <typename T>\nstd::pair<T, T> sum_product(std::vector<T> numbers) {\n  T sum = 0, product = 1;\n  for (int i = 0; i < numbers.size(); i++) {\n    sum += numbers[i];\n    product *= numbers[i];\n  }\n  return {sum, product};\n}", "base_prompt": "Make the following function generic for the value types of the parameter and return pair.", "concepts_canonical_solution": "template <typename T>\n  requires std::integral<T> || std::floating_point<T>\nstd::pair<T, T> sum_product(std::vector<T> numbers) {\n  T sum = 0, product = 1;\n  for (int i = 0; i < numbers.size(); i++) {\n    sum += numbers[i];\n    product *= numbers[i];\n  }\n  return {sum, product};\n}", "concepts_prompt": "Constrain the generic code using C++20 Concepts so that the generic parameter is a number type.", "invalids": "int main() { sum_product(std::vector<int*>{}); }", "sfinae_canonical_solution": "template <typename T,\n          std::enable_if_t<std::disjunction_v<std::is_integral<T>,\n                                              std::is_floating_point<T>>,\n                           int> = 0>\nstd::pair<T, T> sum_product(std::vector<T> numbers) {\n  T sum = 0, product = 1;\n  for (int i = 0; i < numbers.size(); i++) {\n    sum += numbers[i];\n    product *= numbers[i];\n  }\n  return {sum, product};\n}", "sfinae_prompt": "Constrain the generic code using C++17 SFINAE so that the generic parameter is a number type.", "starter_code": "std::pair<int, int> sum_product(std::vector<int> numbers) {\n  int sum = 0, product = 1;\n  for (int i = 0; i < numbers.size(); i++) {\n    sum += numbers[i];\n    product *= numbers[i];\n  }\n  return {sum, product};\n}", "task_id": "HEP/8", "tests": "#define ASSERT(...)       \\\n  do {                    \\\n    if (!(__VA_ARGS__)) { \\\n      std::exit(-1);      \\\n    }                     \\\n  } while (false)\n\n#define TEST_ON_TYPE(_type_)                                 \\\n  do {                                                       \\\n    ASSERT(sum_product(std::vector<_type_>{}) ==             \\\n           std::pair<_type_, _type_>{0, 1});                 \\\n    ASSERT(sum_product(std::vector<_type_>{1, 1, 1}) ==      \\\n           std::pair<_type_, _type_>{3, 1});                 \\\n    ASSERT(sum_product(std::vector<_type_>{100, 0}) ==       \\\n           std::pair<_type_, _type_>{100, 0});               \\\n    ASSERT(sum_product(std::vector<_type_>{3, 5, 7}) ==      \\\n           std::pair<_type_, _type_>{3 + 5 + 7, 3 * 5 * 7}); \\\n    ASSERT(sum_product(std::vector<_type_>{10}) ==           \\\n           std::pair<_type_, _type_>{10, 10});               \\\n  } while (false)\n\nint main() {\n  TEST_ON_TYPE(float);\n  TEST_ON_TYPE(int);\n  TEST_ON_TYPE(long);\n}\n"}
 {"base_canonical_solution": "template <typename T>\nstd::vector<T> rolling_max(std::vector<T> numbers) {\n  if (numbers.size() == 0) return {};\n  std::vector<T> out;\n  T max = numbers.front();\n  for (int i = 0; i < numbers.size(); i++) {\n    if (numbers[i] > max) max = numbers[i];\n    out.push_back(max);\n  }\n  return out;\n}", "base_prompt": "Make the following function generic for value type of the parameter and return type.", "concepts_canonical_solution": "template <typename T>\n  requires requires(const T& lhs, const T& rhs) {\n    { lhs > rhs } -> std::convertible_to<bool>;\n  }\nstd::vector<T> rolling_max(std::vector<T> numbers) {\n  if (numbers.size() == 0) return {};\n  std::vector<T> out;\n  T max = numbers.front();\n  for (int i = 0; i < numbers.size(); i++) {\n    if (numbers[i] > max) max = numbers[i];\n    out.push_back(max);\n  }\n  return out;\n}", "concepts_prompt": "Constrain the generic code using C++20 Concepts so that the generic parameter must be comparable to another of its type with greater than operator.", "invalids": "int main() {\n  struct S {};\n  rolling_max(std::vector<S>{});\n}", "sfinae_canonical_solution": "template <\n    typename T,\n    std::enable_if_t<std::is_convertible_v<decltype(std::declval<const T &>() >\n                                                    std::declval<const T &>()),\n                                           bool>,\n                     int> = 0>\nstd::vector<T> rolling_max(std::vector<T> numbers) {\n  if (numbers.size() == 0) return {};\n  std::vector<T> out;\n  T max = numbers.front();\n  for (int i = 0; i < numbers.size(); i++) {\n    if (numbers[i] > max) max = numbers[i];\n    out.push_back(max);\n  }\n  return out;\n}", "sfinae_prompt": "Constrain the generic code using C++17 SFINAE so that the generic parameter must be comparable to another of its type with greater than operator.", "starter_code": "std::vector<int> rolling_max(std::vector<int> numbers) {\n  if (numbers.size() == 0) return {};\n  std::vector<int> out;\n  int max = numbers.front();\n  for (int i = 0; i < numbers.size(); i++) {\n    if (numbers[i] > max) max = numbers[i];\n    out.push_back(max);\n  }\n  return out;\n}", "task_id": "HEP/9", "tests": "\ntemplate <typename T>\nbool issame(std::vector<T> a, std::vector<T> b) {\n  if (a.size() != b.size()) return false;\n  for (int i = 0; i < a.size(); i++) {\n    if (a[i] != b[i]) return false;\n  }\n  return true;\n}\n\n#define ASSERT(...)       \\\n  do {                    \\\n    if (!(__VA_ARGS__)) { \\\n      std::exit(-1);      \\\n    }                     \\\n  } while (false)\n\n#define TEST_ON_TYPE(_type_)                                                   \\\n  do {                                                                         \\\n    ASSERT(issame(rolling_max(std::vector<_type_>{}), std::vector<_type_>{})); \\\n    ASSERT(issame(rolling_max(std::vector<_type_>{1, 2, 3, 4}),                \\\n                  std::vector<_type_>{1, 2, 3, 4}));                           \\\n    ASSERT(issame(rolling_max(std::vector<_type_>{4, 3, 2, 1}),                \\\n                  std::vector<_type_>{4, 4, 4, 4}));                           \\\n    ASSERT(issame(rolling_max(std::vector<_type_>{3, 2, 3, 100, 3}),           \\\n                  std::vector<_type_>{3, 3, 3, 100, 100}));                    \\\n  } while (false)\n\nint main() {\n  TEST_ON_TYPE(int);\n  TEST_ON_TYPE(float);\n\n  ASSERT(issame(rolling_max(std::vector<std::string>{}),\n                std::vector<std::string>{}));\n  ASSERT(issame(rolling_max(std::vector<std::string>{\"1\", \"2\", \"3\", \"4\"}),\n                std::vector<std::string>{\"1\", \"2\", \"3\", \"4\"}));\n  ASSERT(issame(rolling_max(std::vector<std::string>{\"4\", \"3\", \"2\", \"1\"}),\n                std::vector<std::string>{\"4\", \"4\", \"4\", \"4\"}));\n  ASSERT(issame(rolling_max(std::vector<std::string>{\"3\", \"2\", \"3\", \"5\", \"3\"}),\n                std::vector<std::string>{\"3\", \"3\", \"3\", \"5\", \"5\"}));\n}"}
+{"base_canonical_solution": "template <typename T>\nstd::string string_xor(T a, T b) {\n  std::string output = \"\";\n  for (int i = 0; (i < a.size() && i < b.size()); i++) {\n    if (i < a.size() && i < b.size()) {\n      if (a[i] == b[i]) {\n        output += '0';\n      } else\n        output += '1';\n    } else {\n      if (i >= a.size()) {\n        output += b[i];\n      } else\n        output += a[i];\n    }\n  }\n  return output;\n}", "base_prompt": "Make the following function generic for the type of the two parameters.", "concepts_canonical_solution": "template <typename T>\n  requires std::same_as<typename T::value_type, char>\nstd::string string_xor(T a, T b) {\n  std::string output = \"\";\n  for (int i = 0; (i < a.size() && i < b.size()); i++) {\n    if (i < a.size() && i < b.size()) {\n      if (a[i] == b[i]) {\n        output += '0';\n      } else\n        output += '1';\n    } else {\n      if (i >= a.size()) {\n        output += b[i];\n      } else\n        output += a[i];\n    }\n  }\n  return output;\n}", "concepts_prompt": "Constrain the generic code using C++20 Concepts so that the generic parameter is a sequenced container of characters.", "invalids": "int main() { string_xor(std::vector<int>{}, std::vector<int>{}); }", "sfinae_canonical_solution": "template <\n    typename T,\n    std::enable_if_t<std::is_same_v<typename T::value_type, char>, int> = 0>\nstd::string string_xor(T a, T b) {\n  std::string output = \"\";\n  for (int i = 0; (i < a.size() && i < b.size()); i++) {\n    if (i < a.size() && i < b.size()) {\n      if (a[i] == b[i]) {\n        output += '0';\n      } else\n        output += '1';\n    } else {\n      if (i >= a.size()) {\n        output += b[i];\n      } else\n        output += a[i];\n    }\n  }\n  return output;\n}", "sfinae_prompt": "Constrain the generic code using C++17 SFINAE so that the generic parameter is a sequenced container of characters.", "starter_code": "std::string string_xor(std::string a, std::string b) {\n  std::string output = \"\";\n  for (int i = 0; (i < a.size() && i < b.size()); i++) {\n    if (i < a.size() && i < b.size()) {\n      if (a[i] == b[i]) {\n        output += '0';\n      } else\n        output += '1';\n    } else {\n      if (i >= a.size()) {\n        output += b[i];\n      } else\n        output += a[i];\n    }\n  }\n  return output;\n}", "task_id": "HEP/11", "tests": "#define ASSERT(...)       \\\n  do {                    \\\n    if (!(__VA_ARGS__)) { \\\n      std::exit(-1);      \\\n    }                     \\\n  } while (false)\n\nint main() {\n  ASSERT(string_xor(std::string{\"111000\"}, std::string{\"101010\"}) ==\n         std::string{\"010010\"});\n  ASSERT(string_xor(std::string{\"1\"}, std::string{\"1\"}) == std::string{\"0\"});\n  ASSERT(string_xor(std::string{\"0101\"}, std::string{\"0000\"}) ==\n         std::string{\"0101\"});\n\n  ASSERT(string_xor(std::vector<char>{'1', '1', '1', '0', '0', '0'},\n                    std::vector<char>{'1', '0', '1', '0', '1', '0'}) ==\n         std::string{\"010010\"});\n  ASSERT(string_xor(std::vector<char>{'1'}, std::vector<char>{'1'}) ==\n         std::string{\"0\"});\n  ASSERT(string_xor(std::vector<char>{'0', '1', '0', '1'},\n                    std::vector<char>{'0', '0', '0', '0'}) ==\n         std::string{\"0101\"});\n}\n"}
+{"base_canonical_solution": "template <typename T>\nstd::string longest(T strings) {\n  std::string out;\n  for (int i = 0; i < strings.size(); i++) {\n    if (strings[i].length() > out.length()) out = strings[i];\n  }\n  return out;\n}", "base_prompt": "Make the following function generic for the container parameter `strings`.", "concepts_canonical_solution": "template <typename T>\n  requires std::same_as<typename T::value_type, std::string>\nstd::string longest(T strings) {\n  std::string out;\n  for (int i = 0; i < strings.size(); i++) {\n    if (strings[i].length() > out.length()) out = strings[i];\n  }\n  return out;\n}", "concepts_prompt": "Constrain the generic code using C++20 Concepts so that the generic parameter is a sequenced container of value type string.", "invalids": "int main() { longest(std::vector<int>{}) }", "sfinae_canonical_solution": "template <typename T,\n          std::enable_if_t<std::is_same_v<typename T::value_type, std::string>,\n                           int> = 0>\nstd::string longest(T strings) {\n  std::string out;\n  for (int i = 0; i < strings.size(); i++) {\n    if (strings[i].length() > out.length()) out = strings[i];\n  }\n  return out;\n}", "sfinae_prompt": "Constrain the generic code using C++17 SFINAE so that the generic parameter is a sequenced container of value type string.", "starter_code": "std::string longest(std::vector<std::string> strings) {\n  std::string out;\n  for (int i = 0; i < strings.size(); i++) {\n    if (strings[i].length() > out.length()) out = strings[i];\n  }\n  return out;\n}", "task_id": "HEP/12", "tests": "#define ASSERT(...)       \\\n  do {                    \\\n    if (!(__VA_ARGS__)) { \\\n      std::exit(-1);      \\\n    }                     \\\n  } while (false)\n\n#define TEST_ON_TYPE(_type_)                                            \\\n  do {                                                                  \\\n    ASSERT(longest(_type_{}) == \"\");                                    \\\n    ASSERT(longest(_type_{\"x\", \"y\", \"z\"}) == \"x\");                      \\\n    ASSERT(longest(_type_{\"x\", \"yyy\", \"zzzz\", \"www\", \"kkkk\", \"abc\"}) == \\\n           \"zzzz\");                                                     \\\n                                                                        \\\n  } while (false)\n\nint main() {\n  TEST_ON_TYPE(std::vector<std::string>);\n  TEST_ON_TYPE(std::deque<std::string>);\n}\n"}
+{"base_canonical_solution": "template <typename T>\nT greatest_common_divisor(T a, T b) {\n  T out, m;\n  while (true) {\n    if (a < b) {\n      m = a;\n      a = b;\n      b = m;\n    }\n    a = a % b;\n    if (a == 0) return b;\n  }\n}", "base_prompt": "Make the following function generic to share same type for all parameters and return type.", "concepts_canonical_solution": "template <std::integral T>\nT greatest_common_divisor(T a, T b) {\n  T out, m;\n  while (true) {\n    if (a < b) {\n      m = a;\n      a = b;\n      b = m;\n    }\n    a = a % b;\n    if (a == 0) return b;\n  }\n}", "concepts_prompt": "Constrain the generic code using C++20 Concepts so that the generic parameter is an integer type.", "invalids": "int main() { greatest_common_divisor(3.0, 4.0); }", "sfinae_canonical_solution": "template <typename T, std::enable_if_t<std::is_integral_v<T>, int> = 0>\nT greatest_common_divisor(T a, T b) {\n  T out, m;\n  while (true) {\n    if (a < b) {\n      m = a;\n      a = b;\n      b = m;\n    }\n    a = a % b;\n    if (a == 0) return b;\n  }\n}", "sfinae_prompt": "Constrain the generic code using C++17 SFINAE so that the generic parameter is an integer type.", "starter_code": "int greatest_common_divisor(int a, int b) {\n  int out, m;\n  while (true) {\n    if (a < b) {\n      m = a;\n      a = b;\n      b = m;\n    }\n    a = a % b;\n    if (a == 0) return b;\n  }\n}", "task_id": "HEP/13", "tests": "#define ASSERT(...)       \\\n  do {                    \\\n    if (!(__VA_ARGS__)) { \\\n      std::exit(-1);      \\\n    }                     \\\n  } while (false)\n\n#define TEST_ON_TYPE(_type_)                                                \\\n  do {                                                                      \\\n    ASSERT(greatest_common_divisor((_type_)3, (_type_)7) == (_type_)1);     \\\n    ASSERT(greatest_common_divisor((_type_)10, (_type_)15) == (_type_)5);   \\\n    ASSERT(greatest_common_divisor((_type_)49, (_type_)14) == (_type_)7);   \\\n    ASSERT(greatest_common_divisor((_type_)144, (_type_)60) == (_type_)12); \\\n                                                                            \\\n  } while (false)\n\nint main() {\n  TEST_ON_TYPE(int);\n  TEST_ON_TYPE(long);\n  TEST_ON_TYPE(long long);\n}\n"}