#include "Python.h" #include "pycore_frame.h" #include "pycore_runtime.h" // _PyRuntime #include "pycore_global_objects.h" // _Py_ID() #include "pycore_pyerrors.h" #include "pycore_code.h" // _PyCode_GetVarnames() #include "stdlib_module_names.h" // _Py_stdlib_module_names #define MAX_CANDIDATE_ITEMS 750 #define MAX_STRING_SIZE 40 #define MOVE_COST 2 #define CASE_COST 1 #define LEAST_FIVE_BITS(n) ((n) & 31) static inline int substitution_cost(char a, char b) { if (LEAST_FIVE_BITS(a) != LEAST_FIVE_BITS(b)) { // Not the same, not a case flip. return MOVE_COST; } if (a == b) { return 0; } if ('A' <= a && a <= 'Z') { a += ('a' - 'A'); } if ('A' <= b && b <= 'Z') { b += ('a' - 'A'); } if (a == b) { return CASE_COST; } return MOVE_COST; } /* Calculate the Levenshtein distance between string1 and string2 */ static Py_ssize_t levenshtein_distance(const char *a, size_t a_size, const char *b, size_t b_size, size_t max_cost) { static size_t buffer[MAX_STRING_SIZE]; // Both strings are the same (by identity) if (a == b) { return 0; } // Trim away common affixes. while (a_size && b_size && a[0] == b[0]) { a++; a_size--; b++; b_size--; } while (a_size && b_size && a[a_size-1] == b[b_size-1]) { a_size--; b_size--; } if (a_size == 0 || b_size == 0) { return (a_size + b_size) * MOVE_COST; } if (a_size > MAX_STRING_SIZE || b_size > MAX_STRING_SIZE) { return max_cost + 1; } // Prefer shorter buffer if (b_size < a_size) { const char *t = a; a = b; b = t; size_t t_size = a_size; a_size = b_size; b_size = t_size; } // quick fail when a match is impossible. if ((b_size - a_size) * MOVE_COST > max_cost) { return max_cost + 1; } // Instead of producing the whole traditional len(a)-by-len(b) // matrix, we can update just one row in place. // Initialize the buffer row size_t tmp = MOVE_COST; for (size_t i = 0; i < a_size; i++) { // cost from b[:0] to a[:i+1] buffer[i] = tmp; tmp += MOVE_COST; } size_t result = 0; for (size_t b_index = 0; b_index < b_size; b_index++) { char code = b[b_index]; // cost(b[:b_index], a[:0]) == b_index * MOVE_COST size_t distance = result = b_index * MOVE_COST; size_t minimum = SIZE_MAX; for (size_t index = 0; index < a_size; index++) { // cost(b[:b_index+1], a[:index+1]) = min( // // 1) substitute // cost(b[:b_index], a[:index]) // + substitution_cost(b[b_index], a[index]), // // 2) delete from b // cost(b[:b_index], a[:index+1]) + MOVE_COST, // // 3) delete from a // cost(b[:b_index+1], a[index]) + MOVE_COST // ) // 1) Previous distance in this row is cost(b[:b_index], a[:index]) size_t substitute = distance + substitution_cost(code, a[index]); // 2) cost(b[:b_index], a[:index+1]) from previous row distance = buffer[index]; // 3) existing result is cost(b[:b_index+1], a[index]) size_t insert_delete = Py_MIN(result, distance) + MOVE_COST; result = Py_MIN(insert_delete, substitute); // cost(b[:b_index+1], a[:index+1]) buffer[index] = result; if (result < minimum) { minimum = result; } } if (minimum > max_cost) { // Everything in this row is too big, so bail early. return max_cost + 1; } } return result; } static inline PyObject * calculate_suggestions(PyObject *dir, PyObject *name) { assert(!PyErr_Occurred()); assert(PyList_CheckExact(dir)); Py_ssize_t dir_size = PyList_GET_SIZE(dir); if (dir_size >= MAX_CANDIDATE_ITEMS) { return NULL; } Py_ssize_t suggestion_distance = PY_SSIZE_T_MAX; PyObject *suggestion = NULL; Py_ssize_t name_size; const char *name_str = PyUnicode_AsUTF8AndSize(name, &name_size); if (name_str == NULL) { return NULL; } for (int i = 0; i < dir_size; ++i) { PyObject *item = PyList_GET_ITEM(dir, i); Py_ssize_t item_size; const char *item_str = PyUnicode_AsUTF8AndSize(item, &item_size); if (item_str == NULL) { return NULL; } if (PyUnicode_CompareWithASCIIString(name, item_str) == 0) { continue; } // No more than 1/3 of the involved characters should need changed. Py_ssize_t max_distance = (name_size + item_size + 3) * MOVE_COST / 6; // Don't take matches we've already beaten. max_distance = Py_MIN(max_distance, suggestion_distance - 1); Py_ssize_t current_distance = levenshtein_distance(name_str, name_size, item_str, item_size, max_distance); if (current_distance > max_distance) { continue; } if (!suggestion || current_distance < suggestion_distance) { suggestion = item; suggestion_distance = current_distance; } } return Py_XNewRef(suggestion); } static PyObject * get_suggestions_for_attribute_error(PyAttributeErrorObject *exc) { PyObject *name = exc->name; // borrowed reference PyObject *obj = exc->obj; // borrowed reference // Abort if we don't have an attribute name or we have an invalid one if (name == NULL || obj == NULL || !PyUnicode_CheckExact(name)) { return NULL; } PyObject *dir = PyObject_Dir(obj); if (dir == NULL) { return NULL; } PyObject *suggestions = calculate_suggestions(dir, name); Py_DECREF(dir); return suggestions; } static PyObject * offer_suggestions_for_attribute_error(PyAttributeErrorObject *exc) { PyObject* suggestion = get_suggestions_for_attribute_error(exc); if (suggestion == NULL) { return NULL; } // Add a trailer ". Did you mean: (...)?" PyObject* result = PyUnicode_FromFormat(". Did you mean: %R?", suggestion); Py_DECREF(suggestion); return result; } static PyObject * get_suggestions_for_name_error(PyObject* name, PyFrameObject* frame) { PyCodeObject *code = PyFrame_GetCode(frame); assert(code != NULL && code->co_localsplusnames != NULL); PyObject *varnames = _PyCode_GetVarnames(code); if (varnames == NULL) { return NULL; } PyObject *dir = PySequence_List(varnames); Py_DECREF(varnames); Py_DECREF(code); if (dir == NULL) { return NULL; } // Are we inside a method and the instance has an attribute called 'name'? if (PySequence_Contains(dir, &_Py_ID(self)) > 0) { PyObject* locals = PyFrame_GetLocals(frame); if (!locals) { goto error; } PyObject* self = PyDict_GetItem(locals, &_Py_ID(self)); /* borrowed */ Py_DECREF(locals); if (!self) { goto error; } if (PyObject_HasAttr(self, name)) { Py_DECREF(dir); return PyUnicode_FromFormat("self.%S", name); } } PyObject *suggestions = calculate_suggestions(dir, name); Py_DECREF(dir); if (suggestions != NULL) { return suggestions; } dir = PySequence_List(frame->f_frame->f_globals); if (dir == NULL) { return NULL; } suggestions = calculate_suggestions(dir, name); Py_DECREF(dir); if (suggestions != NULL) { return suggestions; } dir = PySequence_List(frame->f_frame->f_builtins); if (dir == NULL) { return NULL; } suggestions = calculate_suggestions(dir, name); Py_DECREF(dir); return suggestions; error: Py_DECREF(dir); return NULL; } static bool is_name_stdlib_module(PyObject* name) { const char* the_name = PyUnicode_AsUTF8(name); Py_ssize_t len = Py_ARRAY_LENGTH(_Py_stdlib_module_names); for (Py_ssize_t i = 0; i < len; i++) { if (strcmp(the_name, _Py_stdlib_module_names[i]) == 0) { return 1; } } return 0; } static PyObject * offer_suggestions_for_name_error(PyNameErrorObject *exc) { PyObject *name = exc->name; // borrowed reference PyTracebackObject *traceback = (PyTracebackObject *) exc->traceback; // borrowed reference // Abort if we don't have a variable name or we have an invalid one // or if we don't have a traceback to work with if (name == NULL || !PyUnicode_CheckExact(name) || traceback == NULL || !Py_IS_TYPE(traceback, &PyTraceBack_Type) ) { return NULL; } // Move to the traceback of the exception while (1) { PyTracebackObject *next = traceback->tb_next; if (next == NULL || !Py_IS_TYPE(next, &PyTraceBack_Type)) { break; } else { traceback = next; } } PyFrameObject *frame = traceback->tb_frame; assert(frame != NULL); PyObject* suggestion = get_suggestions_for_name_error(name, frame); bool is_stdlib_module = is_name_stdlib_module(name); if (suggestion == NULL && !is_stdlib_module) { return NULL; } // Add a trailer ". Did you mean: (...)?" PyObject* result = NULL; if (!is_stdlib_module) { result = PyUnicode_FromFormat(". Did you mean: %R?", suggestion); } else if (suggestion == NULL) { result = PyUnicode_FromFormat(". Did you forget to import %R?", name); } else { result = PyUnicode_FromFormat(". Did you mean: %R? Or did you forget to import %R?", suggestion, name); } Py_XDECREF(suggestion); return result; } static PyObject * offer_suggestions_for_import_error(PyImportErrorObject *exc) { PyObject *mod_name = exc->name; // borrowed reference PyObject *name = exc->name_from; // borrowed reference if (name == NULL || mod_name == NULL || name == Py_None || !PyUnicode_CheckExact(name) || !PyUnicode_CheckExact(mod_name)) { return NULL; } PyObject* mod = PyImport_GetModule(mod_name); if (mod == NULL) { return NULL; } PyObject *dir = PyObject_Dir(mod); Py_DECREF(mod); if (dir == NULL) { return NULL; } PyObject *suggestion = calculate_suggestions(dir, name); Py_DECREF(dir); if (!suggestion) { return NULL; } PyObject* result = PyUnicode_FromFormat(". Did you mean: %R?", suggestion); Py_DECREF(suggestion); return result; } // Offer suggestions for a given exception. Returns a python string object containing the // suggestions. This function returns NULL if no suggestion was found or if an exception happened, // users must call PyErr_Occurred() to disambiguate. PyObject * _Py_Offer_Suggestions(PyObject *exception) { PyObject *result = NULL; assert(!PyErr_Occurred()); if (Py_IS_TYPE(exception, (PyTypeObject*)PyExc_AttributeError)) { result = offer_suggestions_for_attribute_error((PyAttributeErrorObject *) exception); } else if (Py_IS_TYPE(exception, (PyTypeObject*)PyExc_NameError)) { result = offer_suggestions_for_name_error((PyNameErrorObject *) exception); } else if (Py_IS_TYPE(exception, (PyTypeObject*)PyExc_ImportError)) { result = offer_suggestions_for_import_error((PyImportErrorObject *) exception); } return result; } Py_ssize_t _Py_UTF8_Edit_Cost(PyObject *a, PyObject *b, Py_ssize_t max_cost) { assert(PyUnicode_Check(a) && PyUnicode_Check(b)); Py_ssize_t size_a, size_b; const char *utf8_a = PyUnicode_AsUTF8AndSize(a, &size_a); if (utf8_a == NULL) { return -1; } const char *utf8_b = PyUnicode_AsUTF8AndSize(b, &size_b); if (utf8_b == NULL) { return -1; } if (max_cost == -1) { max_cost = MOVE_COST * Py_MAX(size_a, size_b); } return levenshtein_distance(utf8_a, size_a, utf8_b, size_b, max_cost); }