/* src/interfaces/ecpg/preproc/ecpg.header */ /* Copyright comment */ %{ #include "postgres_fe.h" #include "preproc_extern.h" #include "ecpg_config.h" #include /* Location tracking support --- simpler than bison's default */ #define YYLLOC_DEFAULT(Current, Rhs, N) \ do { \ if (N) \ (Current) = (Rhs)[1]; \ else \ (Current) = (Rhs)[0]; \ } while (0) /* * The %name-prefix option below will make bison call base_yylex, but we * really want it to call filtered_base_yylex (see parser.c). */ #define base_yylex filtered_base_yylex /* * This is only here so the string gets into the POT. Bison uses it * internally. */ #define bison_gettext_dummy gettext_noop("syntax error") /* * Variables containing simple states. */ int struct_level = 0; int braces_open; /* brace level counter */ char *current_function; int ecpg_internal_var = 0; char *connection = NULL; char *input_filename = NULL; static int FoundInto = 0; static int initializer = 0; static int pacounter = 1; static char pacounter_buffer[sizeof(int) * CHAR_BIT * 10 / 3]; /* a rough guess at the size we need */ static struct this_type actual_type[STRUCT_DEPTH]; static char *actual_startline[STRUCT_DEPTH]; static int varchar_counter = 1; static int bytea_counter = 1; /* temporarily store struct members while creating the data structure */ struct ECPGstruct_member *struct_member_list[STRUCT_DEPTH] = { NULL }; /* also store struct type so we can do a sizeof() later */ static char *ECPGstruct_sizeof = NULL; /* for forward declarations we have to store some data as well */ static char *forward_name = NULL; struct ECPGtype ecpg_no_indicator = {ECPGt_NO_INDICATOR, NULL, NULL, NULL, {NULL}, 0}; struct variable no_indicator = {"no_indicator", &ecpg_no_indicator, 0, NULL}; static struct ECPGtype ecpg_query = {ECPGt_char_variable, NULL, NULL, NULL, {NULL}, 0}; static void vmmerror(int error_code, enum errortype type, const char *error, va_list ap) pg_attribute_printf(3, 0); static bool check_declared_list(const char*); /* * Handle parsing errors and warnings */ static void vmmerror(int error_code, enum errortype type, const char *error, va_list ap) { /* localize the error message string */ error = _(error); fprintf(stderr, "%s:%d: ", input_filename, base_yylineno); switch(type) { case ET_WARNING: fprintf(stderr, _("WARNING: ")); break; case ET_ERROR: fprintf(stderr, _("ERROR: ")); break; } vfprintf(stderr, error, ap); fprintf(stderr, "\n"); switch(type) { case ET_WARNING: break; case ET_ERROR: ret_value = error_code; break; } } void mmerror(int error_code, enum errortype type, const char *error, ...) { va_list ap; va_start(ap, error); vmmerror(error_code, type, error, ap); va_end(ap); } void mmfatal(int error_code, const char *error, ...) { va_list ap; va_start(ap, error); vmmerror(error_code, ET_ERROR, error, ap); va_end(ap); if (base_yyin) fclose(base_yyin); if (base_yyout) fclose(base_yyout); if (strcmp(output_filename, "-") != 0 && unlink(output_filename) != 0) fprintf(stderr, _("could not remove output file \"%s\"\n"), output_filename); exit(error_code); } /* * string concatenation */ static char * cat2_str(char *str1, char *str2) { char * res_str = (char *)mm_alloc(strlen(str1) + strlen(str2) + 2); strcpy(res_str, str1); if (strlen(str1) != 0 && strlen(str2) != 0) strcat(res_str, " "); strcat(res_str, str2); free(str1); free(str2); return res_str; } static char * cat_str(int count, ...) { va_list args; int i; char *res_str; va_start(args, count); res_str = va_arg(args, char *); /* now add all other strings */ for (i = 1; i < count; i++) res_str = cat2_str(res_str, va_arg(args, char *)); va_end(args); return res_str; } static char * make2_str(char *str1, char *str2) { char * res_str = (char *)mm_alloc(strlen(str1) + strlen(str2) + 1); strcpy(res_str, str1); strcat(res_str, str2); free(str1); free(str2); return res_str; } static char * make3_str(char *str1, char *str2, char *str3) { char * res_str = (char *)mm_alloc(strlen(str1) + strlen(str2) +strlen(str3) + 1); strcpy(res_str, str1); strcat(res_str, str2); strcat(res_str, str3); free(str1); free(str2); free(str3); return res_str; } /* and the rest */ static char * make_name(void) { return mm_strdup(base_yytext); } static char * create_questionmarks(char *name, bool array) { struct variable *p = find_variable(name); int count; char *result = EMPTY; /* In case we have a struct, we have to print as many "?" as there are attributes in the struct * An array is only allowed together with an element argument * This is essentially only used for inserts, but using a struct as input parameter is an error anywhere else * so we don't have to worry here. */ if (p->type->type == ECPGt_struct || (array && p->type->type == ECPGt_array && p->type->u.element->type == ECPGt_struct)) { struct ECPGstruct_member *m; if (p->type->type == ECPGt_struct) m = p->type->u.members; else m = p->type->u.element->u.members; for (count = 0; m != NULL; m=m->next, count++); } else count = 1; for (; count > 0; count --) { sprintf(pacounter_buffer, "$%d", pacounter++); result = cat_str(3, result, mm_strdup(pacounter_buffer), mm_strdup(" , ")); } /* removed the trailing " ," */ result[strlen(result)-3] = '\0'; return result; } static char * adjust_outofscope_cursor_vars(struct cursor *cur) { /* Informix accepts DECLARE with variables that are out of scope when OPEN is called. * For instance you can DECLARE a cursor in one function, and OPEN/FETCH/CLOSE * it in another functions. This is very useful for e.g. event-driver programming, * but may also lead to dangerous programming. The limitation when this is allowed * and doesn't cause problems have to be documented, like the allocated variables * must not be realloc()'ed. * * We have to change the variables to our own struct and just store the pointer * instead of the variable. Do it only for local variables, not for globals. */ char *result = EMPTY; int insert; for (insert = 1; insert >= 0; insert--) { struct arguments *list; struct arguments *ptr; struct arguments *newlist = NULL; struct variable *newvar, *newind; list = (insert ? cur->argsinsert : cur->argsresult); for (ptr = list; ptr != NULL; ptr = ptr->next) { char var_text[20]; char *original_var; bool skip_set_var = false; bool var_ptr = false; /* change variable name to "ECPGget_var()" */ original_var = ptr->variable->name; sprintf(var_text, "%d))", ecpg_internal_var); /* Don't emit ECPGset_var() calls for global variables */ if (ptr->variable->brace_level == 0) { newvar = ptr->variable; skip_set_var = true; } else if ((ptr->variable->type->type == ECPGt_char_variable) && (strncmp(ptr->variable->name, "ECPGprepared_statement", strlen("ECPGprepared_statement")) == 0)) { newvar = ptr->variable; skip_set_var = true; } else if ((ptr->variable->type->type != ECPGt_varchar && ptr->variable->type->type != ECPGt_char && ptr->variable->type->type != ECPGt_unsigned_char && ptr->variable->type->type != ECPGt_string && ptr->variable->type->type != ECPGt_bytea) && atoi(ptr->variable->type->size) > 1) { newvar = new_variable(cat_str(4, mm_strdup("("), mm_strdup(ecpg_type_name(ptr->variable->type->u.element->type)), mm_strdup(" *)(ECPGget_var("), mm_strdup(var_text)), ECPGmake_array_type(ECPGmake_simple_type(ptr->variable->type->u.element->type, mm_strdup("1"), ptr->variable->type->u.element->counter), ptr->variable->type->size), 0); } else if ((ptr->variable->type->type == ECPGt_varchar || ptr->variable->type->type == ECPGt_char || ptr->variable->type->type == ECPGt_unsigned_char || ptr->variable->type->type == ECPGt_string || ptr->variable->type->type == ECPGt_bytea) && atoi(ptr->variable->type->size) > 1) { newvar = new_variable(cat_str(4, mm_strdup("("), mm_strdup(ecpg_type_name(ptr->variable->type->type)), mm_strdup(" *)(ECPGget_var("), mm_strdup(var_text)), ECPGmake_simple_type(ptr->variable->type->type, ptr->variable->type->size, ptr->variable->type->counter), 0); if (ptr->variable->type->type == ECPGt_varchar || ptr->variable->type->type == ECPGt_bytea) var_ptr = true; } else if (ptr->variable->type->type == ECPGt_struct || ptr->variable->type->type == ECPGt_union) { newvar = new_variable(cat_str(5, mm_strdup("(*("), mm_strdup(ptr->variable->type->type_name), mm_strdup(" *)(ECPGget_var("), mm_strdup(var_text), mm_strdup(")")), ECPGmake_struct_type(ptr->variable->type->u.members, ptr->variable->type->type, ptr->variable->type->type_name, ptr->variable->type->struct_sizeof), 0); var_ptr = true; } else if (ptr->variable->type->type == ECPGt_array) { if (ptr->variable->type->u.element->type == ECPGt_struct || ptr->variable->type->u.element->type == ECPGt_union) { newvar = new_variable(cat_str(5, mm_strdup("(*("), mm_strdup(ptr->variable->type->u.element->type_name), mm_strdup(" *)(ECPGget_var("), mm_strdup(var_text), mm_strdup(")")), ECPGmake_struct_type(ptr->variable->type->u.element->u.members, ptr->variable->type->u.element->type, ptr->variable->type->u.element->type_name, ptr->variable->type->u.element->struct_sizeof), 0); } else { newvar = new_variable(cat_str(4, mm_strdup("("), mm_strdup(ecpg_type_name(ptr->variable->type->u.element->type)), mm_strdup(" *)(ECPGget_var("), mm_strdup(var_text)), ECPGmake_array_type(ECPGmake_simple_type(ptr->variable->type->u.element->type, ptr->variable->type->u.element->size, ptr->variable->type->u.element->counter), ptr->variable->type->size), 0); var_ptr = true; } } else { newvar = new_variable(cat_str(4, mm_strdup("*("), mm_strdup(ecpg_type_name(ptr->variable->type->type)), mm_strdup(" *)(ECPGget_var("), mm_strdup(var_text)), ECPGmake_simple_type(ptr->variable->type->type, ptr->variable->type->size, ptr->variable->type->counter), 0); var_ptr = true; } /* create call to "ECPGset_var(, , . )" */ if (!skip_set_var) { sprintf(var_text, "%d, %s", ecpg_internal_var++, var_ptr ? "&(" : "("); result = cat_str(5, result, mm_strdup("ECPGset_var("), mm_strdup(var_text), mm_strdup(original_var), mm_strdup("), __LINE__);\n")); } /* now the indicator if there is one and it's not a global variable */ if ((ptr->indicator->type->type == ECPGt_NO_INDICATOR) || (ptr->indicator->brace_level == 0)) { newind = ptr->indicator; } else { /* change variable name to "ECPGget_var()" */ original_var = ptr->indicator->name; sprintf(var_text, "%d))", ecpg_internal_var); var_ptr = false; if (ptr->indicator->type->type == ECPGt_struct || ptr->indicator->type->type == ECPGt_union) { newind = new_variable(cat_str(5, mm_strdup("(*("), mm_strdup(ptr->indicator->type->type_name), mm_strdup(" *)(ECPGget_var("), mm_strdup(var_text), mm_strdup(")")), ECPGmake_struct_type(ptr->indicator->type->u.members, ptr->indicator->type->type, ptr->indicator->type->type_name, ptr->indicator->type->struct_sizeof), 0); var_ptr = true; } else if (ptr->indicator->type->type == ECPGt_array) { if (ptr->indicator->type->u.element->type == ECPGt_struct || ptr->indicator->type->u.element->type == ECPGt_union) { newind = new_variable(cat_str(5, mm_strdup("(*("), mm_strdup(ptr->indicator->type->u.element->type_name), mm_strdup(" *)(ECPGget_var("), mm_strdup(var_text), mm_strdup(")")), ECPGmake_struct_type(ptr->indicator->type->u.element->u.members, ptr->indicator->type->u.element->type, ptr->indicator->type->u.element->type_name, ptr->indicator->type->u.element->struct_sizeof), 0); } else { newind = new_variable(cat_str(4, mm_strdup("("), mm_strdup(ecpg_type_name(ptr->indicator->type->u.element->type)), mm_strdup(" *)(ECPGget_var("), mm_strdup(var_text)), ECPGmake_array_type(ECPGmake_simple_type(ptr->indicator->type->u.element->type, ptr->indicator->type->u.element->size, ptr->indicator->type->u.element->counter), ptr->indicator->type->size), 0); var_ptr = true; } } else if (atoi(ptr->indicator->type->size) > 1) { newind = new_variable(cat_str(4, mm_strdup("("), mm_strdup(ecpg_type_name(ptr->indicator->type->type)), mm_strdup(" *)(ECPGget_var("), mm_strdup(var_text)), ECPGmake_simple_type(ptr->indicator->type->type, ptr->indicator->type->size, ptr->variable->type->counter), 0); } else { newind = new_variable(cat_str(4, mm_strdup("*("), mm_strdup(ecpg_type_name(ptr->indicator->type->type)), mm_strdup(" *)(ECPGget_var("), mm_strdup(var_text)), ECPGmake_simple_type(ptr->indicator->type->type, ptr->indicator->type->size, ptr->variable->type->counter), 0); var_ptr = true; } /* create call to "ECPGset_var(, . )" */ sprintf(var_text, "%d, %s", ecpg_internal_var++, var_ptr ? "&(" : "("); result = cat_str(5, result, mm_strdup("ECPGset_var("), mm_strdup(var_text), mm_strdup(original_var), mm_strdup("), __LINE__);\n")); } add_variable_to_tail(&newlist, newvar, newind); } if (insert) cur->argsinsert_oos = newlist; else cur->argsresult_oos = newlist; } return result; } /* This tests whether the cursor was declared and opened in the same function. */ #define SAMEFUNC(cur) \ ((cur->function == NULL) || \ (cur->function != NULL && strcmp(cur->function, current_function) == 0)) static struct cursor * add_additional_variables(char *name, bool insert) { struct cursor *ptr; struct arguments *p; int (* strcmp_fn)(const char *, const char *) = ((name[0] == ':' || name[0] == '"') ? strcmp : pg_strcasecmp); for (ptr = cur; ptr != NULL; ptr=ptr->next) { if (strcmp_fn(ptr->name, name) == 0) break; } if (ptr == NULL) { mmerror(PARSE_ERROR, ET_ERROR, "cursor \"%s\" does not exist", name); return NULL; } if (insert) { /* add all those input variables that were given earlier * note that we have to append here but have to keep the existing order */ for (p = (SAMEFUNC(ptr) ? ptr->argsinsert : ptr->argsinsert_oos); p; p = p->next) add_variable_to_tail(&argsinsert, p->variable, p->indicator); } /* add all those output variables that were given earlier */ for (p = (SAMEFUNC(ptr) ? ptr->argsresult : ptr->argsresult_oos); p; p = p->next) add_variable_to_tail(&argsresult, p->variable, p->indicator); return ptr; } static void add_typedef(char *name, char *dimension, char *length, enum ECPGttype type_enum, char *type_dimension, char *type_index, int initializer, int array) { /* add entry to list */ struct typedefs *ptr, *this; if ((type_enum == ECPGt_struct || type_enum == ECPGt_union) && initializer == 1) mmerror(PARSE_ERROR, ET_ERROR, "initializer not allowed in type definition"); else if (INFORMIX_MODE && strcmp(name, "string") == 0) mmerror(PARSE_ERROR, ET_ERROR, "type name \"string\" is reserved in Informix mode"); else { for (ptr = types; ptr != NULL; ptr = ptr->next) { if (strcmp(name, ptr->name) == 0) /* re-definition is a bug */ mmerror(PARSE_ERROR, ET_ERROR, "type \"%s\" is already defined", name); } adjust_array(type_enum, &dimension, &length, type_dimension, type_index, array, true); this = (struct typedefs *) mm_alloc(sizeof(struct typedefs)); /* initial definition */ this->next = types; this->name = name; this->brace_level = braces_open; this->type = (struct this_type *) mm_alloc(sizeof(struct this_type)); this->type->type_enum = type_enum; this->type->type_str = mm_strdup(name); this->type->type_dimension = dimension; /* dimension of array */ this->type->type_index = length; /* length of string */ this->type->type_sizeof = ECPGstruct_sizeof; this->struct_member_list = (type_enum == ECPGt_struct || type_enum == ECPGt_union) ? ECPGstruct_member_dup(struct_member_list[struct_level]) : NULL; if (type_enum != ECPGt_varchar && type_enum != ECPGt_bytea && type_enum != ECPGt_char && type_enum != ECPGt_unsigned_char && type_enum != ECPGt_string && atoi(this->type->type_index) >= 0) mmerror(PARSE_ERROR, ET_ERROR, "multidimensional arrays for simple data types are not supported"); types = this; } } /* * check an SQL identifier is declared or not. * If it is already declared, the global variable * connection will be changed to the related connection. */ static bool check_declared_list(const char *name) { struct declared_list *ptr = NULL; for (ptr = g_declared_list; ptr != NULL; ptr = ptr -> next) { if (!ptr->connection) continue; if (strcmp(name, ptr -> name) == 0) { if (connection && strcmp(ptr->connection, connection) != 0) mmerror(PARSE_ERROR, ET_WARNING, "connection %s is overwritten with %s by DECLARE statement %s", connection, ptr->connection, name); connection = mm_strdup(ptr -> connection); return true; } } return false; } %} %expect 0 %name-prefix="base_yy" %locations %union { double dval; char *str; int ival; struct when action; struct index index; int tagname; struct this_type type; enum ECPGttype type_enum; enum ECPGdtype dtype_enum; struct fetch_desc descriptor; struct su_symbol struct_union; struct prep prep; struct exec exec; struct describe describe; }