/* src/interfaces/ecpg/preproc/ecpg.trailer */ statements: /*EMPTY*/ | statements statement ; statement: ecpgstart at stmt ';' { connection = NULL; } | ecpgstart stmt ';' | ecpgstart ECPGVarDeclaration { fprintf(base_yyout, "%s", $2); free($2); output_line_number(); } | ECPGDeclaration | c_thing { fprintf(base_yyout, "%s", $1); free($1); } | CPP_LINE { fprintf(base_yyout, "%s", $1); free($1); } | '{' { braces_open++; fputs("{", base_yyout); } | '}' { remove_typedefs(braces_open); remove_variables(braces_open--); if (braces_open == 0) { free(current_function); current_function = NULL; } fputs("}", base_yyout); } ; CreateAsStmt: CREATE OptTemp TABLE create_as_target AS {FoundInto = 0;} SelectStmt opt_with_data { if (FoundInto == 1) mmerror(PARSE_ERROR, ET_ERROR, "CREATE TABLE AS cannot specify INTO"); $$ = cat_str(7, mm_strdup("create"), $2, mm_strdup("table"), $4, mm_strdup("as"), $7, $8); } | CREATE OptTemp TABLE IF_P NOT EXISTS create_as_target AS {FoundInto = 0;} SelectStmt opt_with_data { if (FoundInto == 1) mmerror(PARSE_ERROR, ET_ERROR, "CREATE TABLE AS cannot specify INTO"); $$ = cat_str(7, mm_strdup("create"), $2, mm_strdup("table if not exists"), $7, mm_strdup("as"), $10, $11); } ; at: AT connection_object { connection = $2; /* * Do we have a variable as connection target? Remove the variable * from the variable list or else it will be used twice. */ if (argsinsert != NULL) argsinsert = NULL; } ; /* * the exec sql connect statement: connect to the given database */ ECPGConnect: SQL_CONNECT TO connection_target opt_connection_name opt_user { $$ = cat_str(5, $3, mm_strdup(","), $5, mm_strdup(","), $4); } | SQL_CONNECT TO DEFAULT { $$ = mm_strdup("NULL, NULL, NULL, \"DEFAULT\""); } /* also allow ORACLE syntax */ | SQL_CONNECT ora_user { $$ = cat_str(3, mm_strdup("NULL,"), $2, mm_strdup(", NULL")); } | DATABASE connection_target { $$ = cat2_str($2, mm_strdup(", NULL, NULL, NULL")); } ; connection_target: opt_database_name opt_server opt_port { /* old style: dbname[@server][:port] */ if (strlen($2) > 0 && *($2) != '@') mmerror(PARSE_ERROR, ET_ERROR, "expected \"@\", found \"%s\"", $2); /* C strings need to be handled differently */ if ($1[0] == '\"') $$ = $1; else $$ = make3_str(mm_strdup("\""), make3_str($1, $2, $3), mm_strdup("\"")); } | db_prefix ':' server opt_port '/' opt_database_name opt_options { /* new style: :postgresql://server[:port][/dbname] */ if (strncmp($1, "unix:postgresql", strlen("unix:postgresql")) != 0 && strncmp($1, "tcp:postgresql", strlen("tcp:postgresql")) != 0) mmerror(PARSE_ERROR, ET_ERROR, "only protocols \"tcp\" and \"unix\" and database type \"postgresql\" are supported"); if (strncmp($3, "//", strlen("//")) != 0) mmerror(PARSE_ERROR, ET_ERROR, "expected \"://\", found \"%s\"", $3); if (strncmp($1, "unix", strlen("unix")) == 0 && strncmp($3 + strlen("//"), "localhost", strlen("localhost")) != 0 && strncmp($3 + strlen("//"), "127.0.0.1", strlen("127.0.0.1")) != 0) mmerror(PARSE_ERROR, ET_ERROR, "Unix-domain sockets only work on \"localhost\" but not on \"%s\"", $3 + strlen("//")); $$ = make3_str(make3_str(mm_strdup("\""), $1, mm_strdup(":")), $3, make3_str(make3_str($4, mm_strdup("/"), $6), $7, mm_strdup("\""))); } | char_variable { $$ = $1; } | ecpg_sconst { /* We can only process double quoted strings not single quotes ones, * so we change the quotes. * Note, that the rule for ecpg_sconst adds these single quotes. */ $1[0] = '\"'; $1[strlen($1)-1] = '\"'; $$ = $1; } ; opt_database_name: database_name { $$ = $1; } | /*EMPTY*/ { $$ = EMPTY; } ; db_prefix: ecpg_ident cvariable { if (strcmp($2, "postgresql") != 0 && strcmp($2, "postgres") != 0) mmerror(PARSE_ERROR, ET_ERROR, "expected \"postgresql\", found \"%s\"", $2); if (strcmp($1, "tcp") != 0 && strcmp($1, "unix") != 0) mmerror(PARSE_ERROR, ET_ERROR, "invalid connection type: %s", $1); $$ = make3_str($1, mm_strdup(":"), $2); } ; server: Op server_name { if (strcmp($1, "@") != 0 && strcmp($1, "//") != 0) mmerror(PARSE_ERROR, ET_ERROR, "expected \"@\" or \"://\", found \"%s\"", $1); $$ = make2_str($1, $2); } ; opt_server: server { $$ = $1; } | /*EMPTY*/ { $$ = EMPTY; } ; server_name: ColId { $$ = $1; } | ColId '.' server_name { $$ = make3_str($1, mm_strdup("."), $3); } | IP { $$ = make_name(); } ; opt_port: ':' Iconst { $$ = make2_str(mm_strdup(":"), $2); } | /*EMPTY*/ { $$ = EMPTY; } ; opt_connection_name: AS connection_object { $$ = $2; } | /*EMPTY*/ { $$ = mm_strdup("NULL"); } ; opt_user: USER ora_user { $$ = $2; } | /*EMPTY*/ { $$ = mm_strdup("NULL, NULL"); } ; ora_user: user_name { $$ = cat2_str($1, mm_strdup(", NULL")); } | user_name '/' user_name { $$ = cat_str(3, $1, mm_strdup(","), $3); } | user_name SQL_IDENTIFIED BY user_name { $$ = cat_str(3, $1, mm_strdup(","), $4); } | user_name USING user_name { $$ = cat_str(3, $1, mm_strdup(","), $3); } ; user_name: RoleId { if ($1[0] == '\"') $$ = $1; else $$ = make3_str(mm_strdup("\""), $1, mm_strdup("\"")); } | ecpg_sconst { if ($1[0] == '\"') $$ = $1; else $$ = make3_str(mm_strdup("\""), $1, mm_strdup("\"")); } | civar { enum ECPGttype type = argsinsert->variable->type->type; /* if array see what's inside */ if (type == ECPGt_array) type = argsinsert->variable->type->u.element->type; /* handle varchars */ if (type == ECPGt_varchar) $$ = make2_str(mm_strdup(argsinsert->variable->name), mm_strdup(".arr")); else $$ = mm_strdup(argsinsert->variable->name); } ; char_variable: cvariable { /* check if we have a string variable */ struct variable *p = find_variable($1); enum ECPGttype type = p->type->type; /* If we have just one character this is not a string */ if (atol(p->type->size) == 1) mmerror(PARSE_ERROR, ET_ERROR, "invalid data type"); else { /* if array see what's inside */ if (type == ECPGt_array) type = p->type->u.element->type; switch (type) { case ECPGt_char: case ECPGt_unsigned_char: case ECPGt_string: $$ = $1; break; case ECPGt_varchar: $$ = make2_str($1, mm_strdup(".arr")); break; default: mmerror(PARSE_ERROR, ET_ERROR, "invalid data type"); $$ = $1; break; } } } ; opt_options: Op connect_options { if (strlen($1) == 0) mmerror(PARSE_ERROR, ET_ERROR, "incomplete statement"); if (strcmp($1, "?") != 0) mmerror(PARSE_ERROR, ET_ERROR, "unrecognized token \"%s\"", $1); $$ = make2_str(mm_strdup("?"), $2); } | /*EMPTY*/ { $$ = EMPTY; } ; connect_options: ColId opt_opt_value { $$ = make2_str($1, $2); } | ColId opt_opt_value Op connect_options { if (strlen($3) == 0) mmerror(PARSE_ERROR, ET_ERROR, "incomplete statement"); if (strcmp($3, "&") != 0) mmerror(PARSE_ERROR, ET_ERROR, "unrecognized token \"%s\"", $3); $$ = cat_str(3, make2_str($1, $2), $3, $4); } ; opt_opt_value: /*EMPTY*/ { $$ = EMPTY; } | '=' Iconst { $$ = make2_str(mm_strdup("="), $2); } | '=' ecpg_ident { $$ = make2_str(mm_strdup("="), $2); } | '=' civar { $$ = make2_str(mm_strdup("="), $2); } ; prepared_name: name { if ($1[0] == '\"' && $1[strlen($1)-1] == '\"') /* already quoted? */ $$ = $1; else /* not quoted => convert to lowercase */ { size_t i; for (i = 0; i< strlen($1); i++) $1[i] = tolower((unsigned char) $1[i]); $$ = make3_str(mm_strdup("\""), $1, mm_strdup("\"")); } } | char_variable { $$ = $1; } ; /* * Declare a prepared cursor. The syntax is different from the standard * declare statement, so we create a new rule. */ ECPGCursorStmt: DECLARE cursor_name cursor_options CURSOR opt_hold FOR prepared_name { struct cursor *ptr, *this; char *cursor_marker = $2[0] == ':' ? mm_strdup("$0") : mm_strdup($2); int (* strcmp_fn)(const char *, const char *) = (($2[0] == ':' || $2[0] == '"') ? strcmp : pg_strcasecmp); struct variable *thisquery = (struct variable *)mm_alloc(sizeof(struct variable)); const char *con = connection ? connection : "NULL"; char *comment; for (ptr = cur; ptr != NULL; ptr = ptr->next) { if (strcmp_fn($2, ptr->name) == 0) { /* re-definition is a bug */ if ($2[0] == ':') mmerror(PARSE_ERROR, ET_ERROR, "using variable \"%s\" in different declare statements is not supported", $2+1); else mmerror(PARSE_ERROR, ET_ERROR, "cursor \"%s\" is already defined", $2); } } this = (struct cursor *) mm_alloc(sizeof(struct cursor)); /* initial definition */ this->next = cur; this->name = $2; this->function = (current_function ? mm_strdup(current_function) : NULL); this->connection = connection; this->command = cat_str(6, mm_strdup("declare"), cursor_marker, $3, mm_strdup("cursor"), $5, mm_strdup("for $1")); this->argsresult = NULL; this->argsresult_oos = NULL; thisquery->type = &ecpg_query; thisquery->brace_level = 0; thisquery->next = NULL; thisquery->name = (char *) mm_alloc(sizeof("ECPGprepared_statement(, , __LINE__)") + strlen(con) + strlen($7)); sprintf(thisquery->name, "ECPGprepared_statement(%s, %s, __LINE__)", con, $7); this->argsinsert = NULL; this->argsinsert_oos = NULL; if ($2[0] == ':') { struct variable *var = find_variable($2 + 1); remove_variable_from_list(&argsinsert, var); add_variable_to_head(&(this->argsinsert), var, &no_indicator); } add_variable_to_head(&(this->argsinsert), thisquery, &no_indicator); cur = this; comment = cat_str(3, mm_strdup("/*"), mm_strdup(this->command), mm_strdup("*/")); $$ = cat_str(2, adjust_outofscope_cursor_vars(this), comment); } ; ECPGExecuteImmediateStmt: EXECUTE IMMEDIATE execstring { /* execute immediate means prepare the statement and * immediately execute it */ $$ = $3; }; /* * variable declaration outside exec sql declare block */ ECPGVarDeclaration: single_vt_declaration; single_vt_declaration: type_declaration { $$ = $1; } | var_declaration { $$ = $1; } ; precision: NumericOnly { $$ = $1; }; opt_scale: ',' NumericOnly { $$ = $2; } | /* EMPTY */ { $$ = EMPTY; } ; ecpg_interval: opt_interval { $$ = $1; } | YEAR_P TO MINUTE_P { $$ = mm_strdup("year to minute"); } | YEAR_P TO SECOND_P { $$ = mm_strdup("year to second"); } | DAY_P TO DAY_P { $$ = mm_strdup("day to day"); } | MONTH_P TO MONTH_P { $$ = mm_strdup("month to month"); } ; /* * variable declaration inside exec sql declare block */ ECPGDeclaration: sql_startdeclare { fputs("/* exec sql begin declare section */", base_yyout); } var_type_declarations sql_enddeclare { fprintf(base_yyout, "%s/* exec sql end declare section */", $3); free($3); output_line_number(); } ; sql_startdeclare: ecpgstart BEGIN_P DECLARE SQL_SECTION ';' {}; sql_enddeclare: ecpgstart END_P DECLARE SQL_SECTION ';' {}; var_type_declarations: /*EMPTY*/ { $$ = EMPTY; } | vt_declarations { $$ = $1; } ; vt_declarations: single_vt_declaration { $$ = $1; } | CPP_LINE { $$ = $1; } | vt_declarations single_vt_declaration { $$ = cat2_str($1, $2); } | vt_declarations CPP_LINE { $$ = cat2_str($1, $2); } ; variable_declarations: var_declaration { $$ = $1; } | variable_declarations var_declaration { $$ = cat2_str($1, $2); } ; type_declaration: S_TYPEDEF { /* reset this variable so we see if there was */ /* an initializer specified */ initializer = 0; } var_type opt_pointer ECPGColLabelCommon opt_array_bounds ';' { add_typedef($5, $6.index1, $6.index2, $3.type_enum, $3.type_dimension, $3.type_index, initializer, *$4 ? 1 : 0); fprintf(base_yyout, "typedef %s %s %s %s;\n", $3.type_str, *$4 ? "*" : "", $5, $6.str); output_line_number(); $$ = mm_strdup(""); }; var_declaration: storage_declaration var_type { actual_type[struct_level].type_enum = $2.type_enum; actual_type[struct_level].type_str = $2.type_str; actual_type[struct_level].type_dimension = $2.type_dimension; actual_type[struct_level].type_index = $2.type_index; actual_type[struct_level].type_sizeof = $2.type_sizeof; actual_startline[struct_level] = hashline_number(); } variable_list ';' { $$ = cat_str(5, actual_startline[struct_level], $1, $2.type_str, $4, mm_strdup(";\n")); } | var_type { actual_type[struct_level].type_enum = $1.type_enum; actual_type[struct_level].type_str = $1.type_str; actual_type[struct_level].type_dimension = $1.type_dimension; actual_type[struct_level].type_index = $1.type_index; actual_type[struct_level].type_sizeof = $1.type_sizeof; actual_startline[struct_level] = hashline_number(); } variable_list ';' { $$ = cat_str(4, actual_startline[struct_level], $1.type_str, $3, mm_strdup(";\n")); } | struct_union_type_with_symbol ';' { $$ = cat2_str($1, mm_strdup(";")); } ; opt_bit_field: ':' Iconst { $$ =cat2_str(mm_strdup(":"), $2); } | /* EMPTY */ { $$ = EMPTY; } ; storage_declaration: storage_clause storage_modifier {$$ = cat2_str ($1, $2); } | storage_clause {$$ = $1; } | storage_modifier {$$ = $1; } ; storage_clause : S_EXTERN { $$ = mm_strdup("extern"); } | S_STATIC { $$ = mm_strdup("static"); } | S_REGISTER { $$ = mm_strdup("register"); } | S_AUTO { $$ = mm_strdup("auto"); } ; storage_modifier : S_CONST { $$ = mm_strdup("const"); } | S_VOLATILE { $$ = mm_strdup("volatile"); } ; var_type: simple_type { $$.type_enum = $1; $$.type_str = mm_strdup(ecpg_type_name($1)); $$.type_dimension = mm_strdup("-1"); $$.type_index = mm_strdup("-1"); $$.type_sizeof = NULL; } | struct_union_type { $$.type_str = $1; $$.type_dimension = mm_strdup("-1"); $$.type_index = mm_strdup("-1"); if (strncmp($1, "struct", sizeof("struct")-1) == 0) { $$.type_enum = ECPGt_struct; $$.type_sizeof = ECPGstruct_sizeof; } else { $$.type_enum = ECPGt_union; $$.type_sizeof = NULL; } } | enum_type { $$.type_str = $1; $$.type_enum = ECPGt_int; $$.type_dimension = mm_strdup("-1"); $$.type_index = mm_strdup("-1"); $$.type_sizeof = NULL; } | ECPGColLabelCommon '(' precision opt_scale ')' { if (strcmp($1, "numeric") == 0) { $$.type_enum = ECPGt_numeric; $$.type_str = mm_strdup("numeric"); } else if (strcmp($1, "decimal") == 0) { $$.type_enum = ECPGt_decimal; $$.type_str = mm_strdup("decimal"); } else { mmerror(PARSE_ERROR, ET_ERROR, "only data types numeric and decimal have precision/scale argument"); $$.type_enum = ECPGt_numeric; $$.type_str = mm_strdup("numeric"); } $$.type_dimension = mm_strdup("-1"); $$.type_index = mm_strdup("-1"); $$.type_sizeof = NULL; } | ECPGColLabelCommon ecpg_interval { if (strlen($2) != 0 && strcmp ($1, "datetime") != 0 && strcmp ($1, "interval") != 0) mmerror (PARSE_ERROR, ET_ERROR, "interval specification not allowed here"); /* * Check for type names that the SQL grammar treats as * unreserved keywords */ if (strcmp($1, "varchar") == 0) { $$.type_enum = ECPGt_varchar; $$.type_str = EMPTY; /*mm_strdup("varchar");*/ $$.type_dimension = mm_strdup("-1"); $$.type_index = mm_strdup("-1"); $$.type_sizeof = NULL; } else if (strcmp($1, "bytea") == 0) { $$.type_enum = ECPGt_bytea; $$.type_str = EMPTY; $$.type_dimension = mm_strdup("-1"); $$.type_index = mm_strdup("-1"); $$.type_sizeof = NULL; } else if (strcmp($1, "float") == 0) { $$.type_enum = ECPGt_float; $$.type_str = mm_strdup("float"); $$.type_dimension = mm_strdup("-1"); $$.type_index = mm_strdup("-1"); $$.type_sizeof = NULL; } else if (strcmp($1, "double") == 0) { $$.type_enum = ECPGt_double; $$.type_str = mm_strdup("double"); $$.type_dimension = mm_strdup("-1"); $$.type_index = mm_strdup("-1"); $$.type_sizeof = NULL; } else if (strcmp($1, "numeric") == 0) { $$.type_enum = ECPGt_numeric; $$.type_str = mm_strdup("numeric"); $$.type_dimension = mm_strdup("-1"); $$.type_index = mm_strdup("-1"); $$.type_sizeof = NULL; } else if (strcmp($1, "decimal") == 0) { $$.type_enum = ECPGt_decimal; $$.type_str = mm_strdup("decimal"); $$.type_dimension = mm_strdup("-1"); $$.type_index = mm_strdup("-1"); $$.type_sizeof = NULL; } else if (strcmp($1, "date") == 0) { $$.type_enum = ECPGt_date; $$.type_str = mm_strdup("date"); $$.type_dimension = mm_strdup("-1"); $$.type_index = mm_strdup("-1"); $$.type_sizeof = NULL; } else if (strcmp($1, "timestamp") == 0) { $$.type_enum = ECPGt_timestamp; $$.type_str = mm_strdup("timestamp"); $$.type_dimension = mm_strdup("-1"); $$.type_index = mm_strdup("-1"); $$.type_sizeof = NULL; } else if (strcmp($1, "interval") == 0) { $$.type_enum = ECPGt_interval; $$.type_str = mm_strdup("interval"); $$.type_dimension = mm_strdup("-1"); $$.type_index = mm_strdup("-1"); $$.type_sizeof = NULL; } else if (strcmp($1, "datetime") == 0) { $$.type_enum = ECPGt_timestamp; $$.type_str = mm_strdup("timestamp"); $$.type_dimension = mm_strdup("-1"); $$.type_index = mm_strdup("-1"); $$.type_sizeof = NULL; } else if ((strcmp($1, "string") == 0) && INFORMIX_MODE) { $$.type_enum = ECPGt_string; $$.type_str = mm_strdup("char"); $$.type_dimension = mm_strdup("-1"); $$.type_index = mm_strdup("-1"); $$.type_sizeof = NULL; } else { /* this is for typedef'ed types */ struct typedefs *this = get_typedef($1); $$.type_str = (this->type->type_enum == ECPGt_varchar || this->type->type_enum == ECPGt_bytea) ? EMPTY : mm_strdup(this->name); $$.type_enum = this->type->type_enum; $$.type_dimension = this->type->type_dimension; $$.type_index = this->type->type_index; if (this->type->type_sizeof && strlen(this->type->type_sizeof) != 0) $$.type_sizeof = this->type->type_sizeof; else $$.type_sizeof = cat_str(3, mm_strdup("sizeof("), mm_strdup(this->name), mm_strdup(")")); struct_member_list[struct_level] = ECPGstruct_member_dup(this->struct_member_list); } } | s_struct_union_symbol { /* this is for named structs/unions */ char *name; struct typedefs *this; bool forward = (forward_name != NULL && strcmp($1.symbol, forward_name) == 0 && strcmp($1.su, "struct") == 0); name = cat2_str($1.su, $1.symbol); /* Do we have a forward definition? */ if (!forward) { /* No */ this = get_typedef(name); $$.type_str = mm_strdup(this->name); $$.type_enum = this->type->type_enum; $$.type_dimension = this->type->type_dimension; $$.type_index = this->type->type_index; $$.type_sizeof = this->type->type_sizeof; struct_member_list[struct_level] = ECPGstruct_member_dup(this->struct_member_list); free(name); } else { $$.type_str = name; $$.type_enum = ECPGt_long; $$.type_dimension = mm_strdup("-1"); $$.type_index = mm_strdup("-1"); $$.type_sizeof = mm_strdup(""); struct_member_list[struct_level] = NULL; } } ; enum_type: ENUM_P symbol enum_definition { $$ = cat_str(3, mm_strdup("enum"), $2, $3); } | ENUM_P enum_definition { $$ = cat2_str(mm_strdup("enum"), $2); } | ENUM_P symbol { $$ = cat2_str(mm_strdup("enum"), $2); } ; enum_definition: '{' c_list '}' { $$ = cat_str(3, mm_strdup("{"), $2, mm_strdup("}")); }; struct_union_type_with_symbol: s_struct_union_symbol { struct_member_list[struct_level++] = NULL; if (struct_level >= STRUCT_DEPTH) mmerror(PARSE_ERROR, ET_ERROR, "too many levels in nested structure/union definition"); forward_name = mm_strdup($1.symbol); } '{' variable_declarations '}' { struct typedefs *ptr, *this; struct this_type su_type; ECPGfree_struct_member(struct_member_list[struct_level]); struct_member_list[struct_level] = NULL; struct_level--; if (strncmp($1.su, "struct", sizeof("struct")-1) == 0) su_type.type_enum = ECPGt_struct; else su_type.type_enum = ECPGt_union; su_type.type_str = cat2_str($1.su, $1.symbol); free(forward_name); forward_name = NULL; /* This is essentially a typedef but needs the keyword struct/union as well. * So we create the typedef for each struct definition with symbol */ for (ptr = types; ptr != NULL; ptr = ptr->next) { if (strcmp(su_type.type_str, ptr->name) == 0) /* re-definition is a bug */ mmerror(PARSE_ERROR, ET_ERROR, "type \"%s\" is already defined", su_type.type_str); } this = (struct typedefs *) mm_alloc(sizeof(struct typedefs)); /* initial definition */ this->next = types; this->name = mm_strdup(su_type.type_str); this->brace_level = braces_open; this->type = (struct this_type *) mm_alloc(sizeof(struct this_type)); this->type->type_enum = su_type.type_enum; this->type->type_str = mm_strdup(su_type.type_str); this->type->type_dimension = mm_strdup("-1"); /* dimension of array */ this->type->type_index = mm_strdup("-1"); /* length of string */ this->type->type_sizeof = ECPGstruct_sizeof; this->struct_member_list = struct_member_list[struct_level]; types = this; $$ = cat_str(4, su_type.type_str, mm_strdup("{"), $4, mm_strdup("}")); } ; struct_union_type: struct_union_type_with_symbol { $$ = $1; } | s_struct_union { struct_member_list[struct_level++] = NULL; if (struct_level >= STRUCT_DEPTH) mmerror(PARSE_ERROR, ET_ERROR, "too many levels in nested structure/union definition"); } '{' variable_declarations '}' { ECPGfree_struct_member(struct_member_list[struct_level]); struct_member_list[struct_level] = NULL; struct_level--; $$ = cat_str(4, $1, mm_strdup("{"), $4, mm_strdup("}")); } ; s_struct_union_symbol: SQL_STRUCT symbol { $$.su = mm_strdup("struct"); $$.symbol = $2; ECPGstruct_sizeof = cat_str(3, mm_strdup("sizeof("), cat2_str(mm_strdup($$.su), mm_strdup($$.symbol)), mm_strdup(")")); } | UNION symbol { $$.su = mm_strdup("union"); $$.symbol = $2; } ; s_struct_union: SQL_STRUCT { ECPGstruct_sizeof = mm_strdup(""); /* This must not be NULL to distinguish from simple types. */ $$ = mm_strdup("struct"); } | UNION { $$ = mm_strdup("union"); } ; simple_type: unsigned_type { $$=$1; } | opt_signed signed_type { $$=$2; } ; unsigned_type: SQL_UNSIGNED SQL_SHORT { $$ = ECPGt_unsigned_short; } | SQL_UNSIGNED SQL_SHORT INT_P { $$ = ECPGt_unsigned_short; } | SQL_UNSIGNED { $$ = ECPGt_unsigned_int; } | SQL_UNSIGNED INT_P { $$ = ECPGt_unsigned_int; } | SQL_UNSIGNED SQL_LONG { $$ = ECPGt_unsigned_long; } | SQL_UNSIGNED SQL_LONG INT_P { $$ = ECPGt_unsigned_long; } | SQL_UNSIGNED SQL_LONG SQL_LONG { $$ = ECPGt_unsigned_long_long; } | SQL_UNSIGNED SQL_LONG SQL_LONG INT_P { $$ = ECPGt_unsigned_long_long; } | SQL_UNSIGNED CHAR_P { $$ = ECPGt_unsigned_char; } ; signed_type: SQL_SHORT { $$ = ECPGt_short; } | SQL_SHORT INT_P { $$ = ECPGt_short; } | INT_P { $$ = ECPGt_int; } | SQL_LONG { $$ = ECPGt_long; } | SQL_LONG INT_P { $$ = ECPGt_long; } | SQL_LONG SQL_LONG { $$ = ECPGt_long_long; } | SQL_LONG SQL_LONG INT_P { $$ = ECPGt_long_long; } | SQL_BOOL { $$ = ECPGt_bool; } | CHAR_P { $$ = ECPGt_char; } | DOUBLE_P { $$ = ECPGt_double; } ; opt_signed: SQL_SIGNED | /* EMPTY */ ; variable_list: variable { $$ = $1; } | variable_list ',' variable { if (actual_type[struct_level].type_enum == ECPGt_varchar || actual_type[struct_level].type_enum == ECPGt_bytea) $$ = cat_str(3, $1, mm_strdup(";"), $3); else $$ = cat_str(3, $1, mm_strdup(","), $3); } ; variable: opt_pointer ECPGColLabel opt_array_bounds opt_bit_field opt_initializer { struct ECPGtype * type; char *dimension = $3.index1; /* dimension of array */ char *length = $3.index2; /* length of string */ char *dim_str; char *vcn; int *varlen_type_counter; char *struct_name; adjust_array(actual_type[struct_level].type_enum, &dimension, &length, actual_type[struct_level].type_dimension, actual_type[struct_level].type_index, strlen($1), false); switch (actual_type[struct_level].type_enum) { case ECPGt_struct: case ECPGt_union: if (atoi(dimension) < 0) type = ECPGmake_struct_type(struct_member_list[struct_level], actual_type[struct_level].type_enum, actual_type[struct_level].type_str, actual_type[struct_level].type_sizeof); else type = ECPGmake_array_type(ECPGmake_struct_type(struct_member_list[struct_level], actual_type[struct_level].type_enum, actual_type[struct_level].type_str, actual_type[struct_level].type_sizeof), dimension); $$ = cat_str(5, $1, mm_strdup($2), $3.str, $4, $5); break; case ECPGt_varchar: case ECPGt_bytea: if (actual_type[struct_level].type_enum == ECPGt_varchar) { varlen_type_counter = &varchar_counter; struct_name = " struct varchar_"; } else { varlen_type_counter = &bytea_counter; struct_name = " struct bytea_"; } if (atoi(dimension) < 0) type = ECPGmake_simple_type(actual_type[struct_level].type_enum, length, *varlen_type_counter); else type = ECPGmake_array_type(ECPGmake_simple_type(actual_type[struct_level].type_enum, length, *varlen_type_counter), dimension); if (strcmp(dimension, "0") == 0 || abs(atoi(dimension)) == 1) dim_str=mm_strdup(""); else dim_str=cat_str(3, mm_strdup("["), mm_strdup(dimension), mm_strdup("]")); /* cannot check for atoi <= 0 because a defined constant will yield 0 here as well */ if (atoi(length) < 0 || strcmp(length, "0") == 0) mmerror(PARSE_ERROR, ET_ERROR, "pointers to varchar are not implemented"); /* make sure varchar struct name is unique by adding a unique counter to its definition */ vcn = (char *) mm_alloc(sizeof(int) * CHAR_BIT * 10 / 3); sprintf(vcn, "%d", *varlen_type_counter); if (strcmp(dimension, "0") == 0) $$ = cat_str(7, make2_str(mm_strdup(struct_name), vcn), mm_strdup(" { int len; char arr["), mm_strdup(length), mm_strdup("]; } *"), mm_strdup($2), $4, $5); else $$ = cat_str(8, make2_str(mm_strdup(struct_name), vcn), mm_strdup(" { int len; char arr["), mm_strdup(length), mm_strdup("]; } "), mm_strdup($2), dim_str, $4, $5); (*varlen_type_counter)++; break; case ECPGt_char: case ECPGt_unsigned_char: case ECPGt_string: if (atoi(dimension) == -1) { int i = strlen($5); if (atoi(length) == -1 && i > 0) /* char [] = "string" */ { /* if we have an initializer but no string size set, let's use the initializer's length */ free(length); length = mm_alloc(i+sizeof("sizeof()")); sprintf(length, "sizeof(%s)", $5+2); } type = ECPGmake_simple_type(actual_type[struct_level].type_enum, length, 0); } else type = ECPGmake_array_type(ECPGmake_simple_type(actual_type[struct_level].type_enum, length, 0), dimension); $$ = cat_str(5, $1, mm_strdup($2), $3.str, $4, $5); break; default: if (atoi(dimension) < 0) type = ECPGmake_simple_type(actual_type[struct_level].type_enum, mm_strdup("1"), 0); else type = ECPGmake_array_type(ECPGmake_simple_type(actual_type[struct_level].type_enum, mm_strdup("1"), 0), dimension); $$ = cat_str(5, $1, mm_strdup($2), $3.str, $4, $5); break; } if (struct_level == 0) new_variable($2, type, braces_open); else ECPGmake_struct_member($2, type, &(struct_member_list[struct_level - 1])); free($2); } ; opt_initializer: /*EMPTY*/ { $$ = EMPTY; } | '=' c_term { initializer = 1; $$ = cat2_str(mm_strdup("="), $2); } ; opt_pointer: /*EMPTY*/ { $$ = EMPTY; } | '*' { $$ = mm_strdup("*"); } | '*' '*' { $$ = mm_strdup("**"); } ; /* * We try to simulate the correct DECLARE syntax here so we get dynamic SQL */ ECPGDeclare: DECLARE STATEMENT ecpg_ident { /* this is only supported for compatibility */ $$ = cat_str(3, mm_strdup("/* declare statement"), $3, mm_strdup("*/")); } ; /* * the exec sql disconnect statement: disconnect from the given database */ ECPGDisconnect: SQL_DISCONNECT dis_name { $$ = $2; } ; dis_name: connection_object { $$ = $1; } | CURRENT_P { $$ = mm_strdup("\"CURRENT\""); } | ALL { $$ = mm_strdup("\"ALL\""); } | /* EMPTY */ { $$ = mm_strdup("\"CURRENT\""); } ; connection_object: database_name { $$ = make3_str(mm_strdup("\""), $1, mm_strdup("\"")); } | DEFAULT { $$ = mm_strdup("\"DEFAULT\""); } | char_variable { $$ = $1; } ; execstring: char_variable { $$ = $1; } | CSTRING { $$ = make3_str(mm_strdup("\""), $1, mm_strdup("\"")); } ; /* * the exec sql free command to deallocate a previously * prepared statement */ ECPGFree: SQL_FREE cursor_name { $$ = $2; } | SQL_FREE ALL { $$ = mm_strdup("all"); } ; /* * open is an open cursor, at the moment this has to be removed */ ECPGOpen: SQL_OPEN cursor_name opt_ecpg_using { if ($2[0] == ':') remove_variable_from_list(&argsinsert, find_variable($2 + 1)); $$ = $2; } ; opt_ecpg_using: /*EMPTY*/ { $$ = EMPTY; } | ecpg_using { $$ = $1; } ; ecpg_using: USING using_list { $$ = EMPTY; } | using_descriptor { $$ = $1; } ; using_descriptor: USING SQL_P SQL_DESCRIPTOR quoted_ident_stringvar { add_variable_to_head(&argsinsert, descriptor_variable($4,0), &no_indicator); $$ = EMPTY; } | USING SQL_DESCRIPTOR name { add_variable_to_head(&argsinsert, sqlda_variable($3), &no_indicator); $$ = EMPTY; } ; into_descriptor: INTO SQL_P SQL_DESCRIPTOR quoted_ident_stringvar { add_variable_to_head(&argsresult, descriptor_variable($4,1), &no_indicator); $$ = EMPTY; } | INTO SQL_DESCRIPTOR name { add_variable_to_head(&argsresult, sqlda_variable($3), &no_indicator); $$ = EMPTY; } ; into_sqlda: INTO name { add_variable_to_head(&argsresult, sqlda_variable($2), &no_indicator); $$ = EMPTY; } ; using_list: UsingValue | UsingValue ',' using_list; UsingValue: UsingConst { char *length = mm_alloc(32); sprintf(length, "%zu", strlen($1)); add_variable_to_head(&argsinsert, new_variable($1, ECPGmake_simple_type(ECPGt_const, length, 0), 0), &no_indicator); } | civar { $$ = EMPTY; } | civarind { $$ = EMPTY; } ; UsingConst: Iconst { $$ = $1; } | '+' Iconst { $$ = cat_str(2, mm_strdup("+"), $2); } | '-' Iconst { $$ = cat_str(2, mm_strdup("-"), $2); } | ecpg_fconst { $$ = $1; } | '+' ecpg_fconst { $$ = cat_str(2, mm_strdup("+"), $2); } | '-' ecpg_fconst { $$ = cat_str(2, mm_strdup("-"), $2); } | ecpg_sconst { $$ = $1; } | ecpg_bconst { $$ = $1; } | ecpg_xconst { $$ = $1; } ; /* * We accept DESCRIBE [OUTPUT] but do nothing with DESCRIBE INPUT so far. */ ECPGDescribe: SQL_DESCRIBE INPUT_P prepared_name using_descriptor { const char *con = connection ? connection : "NULL"; mmerror(PARSE_ERROR, ET_WARNING, "using unsupported DESCRIBE statement"); $$ = (char *) mm_alloc(sizeof("1, , ") + strlen(con) + strlen($3)); sprintf($$, "1, %s, %s", con, $3); } | SQL_DESCRIBE opt_output prepared_name using_descriptor { const char *con = connection ? connection : "NULL"; struct variable *var; var = argsinsert->variable; remove_variable_from_list(&argsinsert, var); add_variable_to_head(&argsresult, var, &no_indicator); $$ = (char *) mm_alloc(sizeof("0, , ") + strlen(con) + strlen($3)); sprintf($$, "0, %s, %s", con, $3); } | SQL_DESCRIBE opt_output prepared_name into_descriptor { const char *con = connection ? connection : "NULL"; $$ = (char *) mm_alloc(sizeof("0, , ") + strlen(con) + strlen($3)); sprintf($$, "0, %s, %s", con, $3); } | SQL_DESCRIBE INPUT_P prepared_name into_sqlda { const char *con = connection ? connection : "NULL"; mmerror(PARSE_ERROR, ET_WARNING, "using unsupported DESCRIBE statement"); $$ = (char *) mm_alloc(sizeof("1, , ") + strlen(con) + strlen($3)); sprintf($$, "1, %s, %s", con, $3); } | SQL_DESCRIBE opt_output prepared_name into_sqlda { const char *con = connection ? connection : "NULL"; $$ = (char *) mm_alloc(sizeof("0, , ") + strlen(con) + strlen($3)); sprintf($$, "0, %s, %s", con, $3); } ; opt_output: SQL_OUTPUT { $$ = mm_strdup("output"); } | /* EMPTY */ { $$ = EMPTY; } ; /* * dynamic SQL: descriptor based access * originally written by Christof Petig * and Peter Eisentraut */ /* * allocate a descriptor */ ECPGAllocateDescr: SQL_ALLOCATE SQL_DESCRIPTOR quoted_ident_stringvar { add_descriptor($3,connection); $$ = $3; } ; /* * deallocate a descriptor */ ECPGDeallocateDescr: DEALLOCATE SQL_DESCRIPTOR quoted_ident_stringvar { drop_descriptor($3,connection); $$ = $3; } ; /* * manipulate a descriptor header */ ECPGGetDescriptorHeader: SQL_GET SQL_DESCRIPTOR quoted_ident_stringvar ECPGGetDescHeaderItems { $$ = $3; } ; ECPGGetDescHeaderItems: ECPGGetDescHeaderItem | ECPGGetDescHeaderItems ',' ECPGGetDescHeaderItem ; ECPGGetDescHeaderItem: cvariable '=' desc_header_item { push_assignment($1, $3); } ; ECPGSetDescriptorHeader: SET SQL_DESCRIPTOR quoted_ident_stringvar ECPGSetDescHeaderItems { $$ = $3; } ; ECPGSetDescHeaderItems: ECPGSetDescHeaderItem | ECPGSetDescHeaderItems ',' ECPGSetDescHeaderItem ; ECPGSetDescHeaderItem: desc_header_item '=' IntConstVar { push_assignment($3, $1); } ; IntConstVar: Iconst { char *length = mm_alloc(sizeof(int) * CHAR_BIT * 10 / 3); sprintf(length, "%zu", strlen($1)); new_variable($1, ECPGmake_simple_type(ECPGt_const, length, 0), 0); $$ = $1; } | cvariable { $$ = $1; } ; desc_header_item: SQL_COUNT { $$ = ECPGd_count; } ; /* * manipulate a descriptor */ ECPGGetDescriptor: SQL_GET SQL_DESCRIPTOR quoted_ident_stringvar VALUE_P IntConstVar ECPGGetDescItems { $$.str = $5; $$.name = $3; } ; ECPGGetDescItems: ECPGGetDescItem | ECPGGetDescItems ',' ECPGGetDescItem ; ECPGGetDescItem: cvariable '=' descriptor_item { push_assignment($1, $3); }; ECPGSetDescriptor: SET SQL_DESCRIPTOR quoted_ident_stringvar VALUE_P IntConstVar ECPGSetDescItems { $$.str = $5; $$.name = $3; } ; ECPGSetDescItems: ECPGSetDescItem | ECPGSetDescItems ',' ECPGSetDescItem ; ECPGSetDescItem: descriptor_item '=' AllConstVar { push_assignment($3, $1); } ; AllConstVar: ecpg_fconst { char *length = mm_alloc(sizeof(int) * CHAR_BIT * 10 / 3); sprintf(length, "%zu", strlen($1)); new_variable($1, ECPGmake_simple_type(ECPGt_const, length, 0), 0); $$ = $1; } | IntConstVar { $$ = $1; } | '-' ecpg_fconst { char *length = mm_alloc(sizeof(int) * CHAR_BIT * 10 / 3); char *var = cat2_str(mm_strdup("-"), $2); sprintf(length, "%zu", strlen(var)); new_variable(var, ECPGmake_simple_type(ECPGt_const, length, 0), 0); $$ = var; } | '-' Iconst { char *length = mm_alloc(sizeof(int) * CHAR_BIT * 10 / 3); char *var = cat2_str(mm_strdup("-"), $2); sprintf(length, "%zu", strlen(var)); new_variable(var, ECPGmake_simple_type(ECPGt_const, length, 0), 0); $$ = var; } | ecpg_sconst { char *length = mm_alloc(sizeof(int) * CHAR_BIT * 10 / 3); char *var = $1 + 1; var[strlen(var) - 1] = '\0'; sprintf(length, "%zu", strlen(var)); new_variable(var, ECPGmake_simple_type(ECPGt_const, length, 0), 0); $$ = var; } ; descriptor_item: SQL_CARDINALITY { $$ = ECPGd_cardinality; } | DATA_P { $$ = ECPGd_data; } | SQL_DATETIME_INTERVAL_CODE { $$ = ECPGd_di_code; } | SQL_DATETIME_INTERVAL_PRECISION { $$ = ECPGd_di_precision; } | SQL_INDICATOR { $$ = ECPGd_indicator; } | SQL_KEY_MEMBER { $$ = ECPGd_key_member; } | SQL_LENGTH { $$ = ECPGd_length; } | NAME_P { $$ = ECPGd_name; } | SQL_NULLABLE { $$ = ECPGd_nullable; } | SQL_OCTET_LENGTH { $$ = ECPGd_octet; } | PRECISION { $$ = ECPGd_precision; } | SQL_RETURNED_LENGTH { $$ = ECPGd_length; } | SQL_RETURNED_OCTET_LENGTH { $$ = ECPGd_ret_octet; } | SQL_SCALE { $$ = ECPGd_scale; } | TYPE_P { $$ = ECPGd_type; } ; /* * set/reset the automatic transaction mode, this needs a different handling * as the other set commands */ ECPGSetAutocommit: SET SQL_AUTOCOMMIT '=' on_off { $$ = $4; } | SET SQL_AUTOCOMMIT TO on_off { $$ = $4; } ; on_off: ON { $$ = mm_strdup("on"); } | OFF { $$ = mm_strdup("off"); } ; /* * set the actual connection, this needs a different handling as the other * set commands */ ECPGSetConnection: SET CONNECTION TO connection_object { $$ = $4; } | SET CONNECTION '=' connection_object { $$ = $4; } | SET CONNECTION connection_object { $$ = $3; } ; /* * define a new type for embedded SQL */ ECPGTypedef: TYPE_P { /* reset this variable so we see if there was */ /* an initializer specified */ initializer = 0; } ECPGColLabelCommon IS var_type opt_array_bounds opt_reference { add_typedef($3, $6.index1, $6.index2, $5.type_enum, $5.type_dimension, $5.type_index, initializer, *$7 ? 1 : 0); if (auto_create_c == false) $$ = cat_str(7, mm_strdup("/* exec sql type"), mm_strdup($3), mm_strdup("is"), mm_strdup($5.type_str), mm_strdup($6.str), $7, mm_strdup("*/")); else $$ = cat_str(6, mm_strdup("typedef "), mm_strdup($5.type_str), *$7?mm_strdup("*"):mm_strdup(""), mm_strdup($3), mm_strdup($6.str), mm_strdup(";")); } ; opt_reference: SQL_REFERENCE { $$ = mm_strdup("reference"); } | /*EMPTY*/ { $$ = EMPTY; } ; /* * define the type of one variable for embedded SQL */ ECPGVar: SQL_VAR { /* reset this variable so we see if there was */ /* an initializer specified */ initializer = 0; } ColLabel IS var_type opt_array_bounds opt_reference { struct variable *p = find_variable($3); char *dimension = $6.index1; char *length = $6.index2; struct ECPGtype * type; if (($5.type_enum == ECPGt_struct || $5.type_enum == ECPGt_union) && initializer == 1) mmerror(PARSE_ERROR, ET_ERROR, "initializer not allowed in EXEC SQL VAR command"); else { adjust_array($5.type_enum, &dimension, &length, $5.type_dimension, $5.type_index, *$7?1:0, false); switch ($5.type_enum) { case ECPGt_struct: case ECPGt_union: if (atoi(dimension) < 0) type = ECPGmake_struct_type(struct_member_list[struct_level], $5.type_enum, $5.type_str, $5.type_sizeof); else type = ECPGmake_array_type(ECPGmake_struct_type(struct_member_list[struct_level], $5.type_enum, $5.type_str, $5.type_sizeof), dimension); break; case ECPGt_varchar: case ECPGt_bytea: if (atoi(dimension) == -1) type = ECPGmake_simple_type($5.type_enum, length, 0); else type = ECPGmake_array_type(ECPGmake_simple_type($5.type_enum, length, 0), dimension); break; case ECPGt_char: case ECPGt_unsigned_char: case ECPGt_string: if (atoi(dimension) == -1) type = ECPGmake_simple_type($5.type_enum, length, 0); else type = ECPGmake_array_type(ECPGmake_simple_type($5.type_enum, length, 0), dimension); break; default: if (atoi(length) >= 0) mmerror(PARSE_ERROR, ET_ERROR, "multidimensional arrays for simple data types are not supported"); if (atoi(dimension) < 0) type = ECPGmake_simple_type($5.type_enum, mm_strdup("1"), 0); else type = ECPGmake_array_type(ECPGmake_simple_type($5.type_enum, mm_strdup("1"), 0), dimension); break; } ECPGfree_type(p->type); p->type = type; } $$ = cat_str(7, mm_strdup("/* exec sql var"), mm_strdup($3), mm_strdup("is"), mm_strdup($5.type_str), mm_strdup($6.str), $7, mm_strdup("*/")); } ; /* * whenever statement: decide what to do in case of error/no data found * according to SQL standards we lack: SQLSTATE, CONSTRAINT and SQLEXCEPTION */ ECPGWhenever: SQL_WHENEVER SQL_SQLERROR action { when_error.code = $3.code; when_error.command = $3.command; $$ = cat_str(3, mm_strdup("/* exec sql whenever sqlerror "), $3.str, mm_strdup("; */")); } | SQL_WHENEVER NOT SQL_FOUND action { when_nf.code = $4.code; when_nf.command = $4.command; $$ = cat_str(3, mm_strdup("/* exec sql whenever not found "), $4.str, mm_strdup("; */")); } | SQL_WHENEVER SQL_SQLWARNING action { when_warn.code = $3.code; when_warn.command = $3.command; $$ = cat_str(3, mm_strdup("/* exec sql whenever sql_warning "), $3.str, mm_strdup("; */")); } ; action : CONTINUE_P { $$.code = W_NOTHING; $$.command = NULL; $$.str = mm_strdup("continue"); } | SQL_SQLPRINT { $$.code = W_SQLPRINT; $$.command = NULL; $$.str = mm_strdup("sqlprint"); } | SQL_STOP { $$.code = W_STOP; $$.command = NULL; $$.str = mm_strdup("stop"); } | SQL_GOTO name { $$.code = W_GOTO; $$.command = mm_strdup($2); $$.str = cat2_str(mm_strdup("goto "), $2); } | SQL_GO TO name { $$.code = W_GOTO; $$.command = mm_strdup($3); $$.str = cat2_str(mm_strdup("goto "), $3); } | DO name '(' c_args ')' { $$.code = W_DO; $$.command = cat_str(4, $2, mm_strdup("("), $4, mm_strdup(")")); $$.str = cat2_str(mm_strdup("do"), mm_strdup($$.command)); } | DO SQL_BREAK { $$.code = W_BREAK; $$.command = NULL; $$.str = mm_strdup("break"); } | DO CONTINUE_P { $$.code = W_CONTINUE; $$.command = NULL; $$.str = mm_strdup("continue"); } | CALL name '(' c_args ')' { $$.code = W_DO; $$.command = cat_str(4, $2, mm_strdup("("), $4, mm_strdup(")")); $$.str = cat2_str(mm_strdup("call"), mm_strdup($$.command)); } | CALL name { $$.code = W_DO; $$.command = cat2_str($2, mm_strdup("()")); $$.str = cat2_str(mm_strdup("call"), mm_strdup($$.command)); } ; /* some other stuff for ecpg */ /* additional unreserved keywords */ ECPGKeywords: ECPGKeywords_vanames { $$ = $1; } | ECPGKeywords_rest { $$ = $1; } ; ECPGKeywords_vanames: SQL_BREAK { $$ = mm_strdup("break"); } | SQL_CARDINALITY { $$ = mm_strdup("cardinality"); } | SQL_COUNT { $$ = mm_strdup("count"); } | SQL_DATETIME_INTERVAL_CODE { $$ = mm_strdup("datetime_interval_code"); } | SQL_DATETIME_INTERVAL_PRECISION { $$ = mm_strdup("datetime_interval_precision"); } | SQL_FOUND { $$ = mm_strdup("found"); } | SQL_GO { $$ = mm_strdup("go"); } | SQL_GOTO { $$ = mm_strdup("goto"); } | SQL_IDENTIFIED { $$ = mm_strdup("identified"); } | SQL_INDICATOR { $$ = mm_strdup("indicator"); } | SQL_KEY_MEMBER { $$ = mm_strdup("key_member"); } | SQL_LENGTH { $$ = mm_strdup("length"); } | SQL_NULLABLE { $$ = mm_strdup("nullable"); } | SQL_OCTET_LENGTH { $$ = mm_strdup("octet_length"); } | SQL_RETURNED_LENGTH { $$ = mm_strdup("returned_length"); } | SQL_RETURNED_OCTET_LENGTH { $$ = mm_strdup("returned_octet_length"); } | SQL_SCALE { $$ = mm_strdup("scale"); } | SQL_SECTION { $$ = mm_strdup("section"); } | SQL_SQLERROR { $$ = mm_strdup("sqlerror"); } | SQL_SQLPRINT { $$ = mm_strdup("sqlprint"); } | SQL_SQLWARNING { $$ = mm_strdup("sqlwarning"); } | SQL_STOP { $$ = mm_strdup("stop"); } ; ECPGKeywords_rest: SQL_CONNECT { $$ = mm_strdup("connect"); } | SQL_DESCRIBE { $$ = mm_strdup("describe"); } | SQL_DISCONNECT { $$ = mm_strdup("disconnect"); } | SQL_OPEN { $$ = mm_strdup("open"); } | SQL_VAR { $$ = mm_strdup("var"); } | SQL_WHENEVER { $$ = mm_strdup("whenever"); } ; /* additional keywords that can be SQL type names (but not ECPGColLabels) */ ECPGTypeName: SQL_BOOL { $$ = mm_strdup("bool"); } | SQL_LONG { $$ = mm_strdup("long"); } | SQL_OUTPUT { $$ = mm_strdup("output"); } | SQL_SHORT { $$ = mm_strdup("short"); } | SQL_STRUCT { $$ = mm_strdup("struct"); } | SQL_SIGNED { $$ = mm_strdup("signed"); } | SQL_UNSIGNED { $$ = mm_strdup("unsigned"); } ; symbol: ColLabel { $$ = $1; } ; ECPGColId: ecpg_ident { $$ = $1; } | unreserved_keyword { $$ = $1; } | col_name_keyword { $$ = $1; } | ECPGunreserved_interval { $$ = $1; } | ECPGKeywords { $$ = $1; } | ECPGCKeywords { $$ = $1; } | CHAR_P { $$ = mm_strdup("char"); } | VALUES { $$ = mm_strdup("values"); } ; /* * Name classification hierarchy. * * These productions should match those in the core grammar, except that * we use all_unreserved_keyword instead of unreserved_keyword, and * where possible include ECPG keywords as well as core keywords. */ /* Column identifier --- names that can be column, table, etc names. */ ColId: ecpg_ident { $$ = $1; } | all_unreserved_keyword { $$ = $1; } | col_name_keyword { $$ = $1; } | ECPGKeywords { $$ = $1; } | ECPGCKeywords { $$ = $1; } | CHAR_P { $$ = mm_strdup("char"); } | VALUES { $$ = mm_strdup("values"); } ; /* Type/function identifier --- names that can be type or function names. */ type_function_name: ecpg_ident { $$ = $1; } | all_unreserved_keyword { $$ = $1; } | type_func_name_keyword { $$ = $1; } | ECPGKeywords { $$ = $1; } | ECPGCKeywords { $$ = $1; } | ECPGTypeName { $$ = $1; } ; /* Column label --- allowed labels in "AS" clauses. * This presently includes *all* Postgres keywords. */ ColLabel: ECPGColLabel { $$ = $1; } | ECPGTypeName { $$ = $1; } | CHAR_P { $$ = mm_strdup("char"); } | CURRENT_P { $$ = mm_strdup("current"); } | INPUT_P { $$ = mm_strdup("input"); } | INT_P { $$ = mm_strdup("int"); } | TO { $$ = mm_strdup("to"); } | UNION { $$ = mm_strdup("union"); } | VALUES { $$ = mm_strdup("values"); } | ECPGCKeywords { $$ = $1; } | ECPGunreserved_interval { $$ = $1; } ; ECPGColLabel: ECPGColLabelCommon { $$ = $1; } | unreserved_keyword { $$ = $1; } | reserved_keyword { $$ = $1; } | ECPGKeywords_rest { $$ = $1; } | CONNECTION { $$ = mm_strdup("connection"); } ; ECPGColLabelCommon: ecpg_ident { $$ = $1; } | col_name_keyword { $$ = $1; } | type_func_name_keyword { $$ = $1; } | ECPGKeywords_vanames { $$ = $1; } ; ECPGCKeywords: S_AUTO { $$ = mm_strdup("auto"); } | S_CONST { $$ = mm_strdup("const"); } | S_EXTERN { $$ = mm_strdup("extern"); } | S_REGISTER { $$ = mm_strdup("register"); } | S_STATIC { $$ = mm_strdup("static"); } | S_TYPEDEF { $$ = mm_strdup("typedef"); } | S_VOLATILE { $$ = mm_strdup("volatile"); } ; /* "Unreserved" keywords --- available for use as any kind of name. */ /* * The following symbols must be excluded from ECPGColLabel and directly * included into ColLabel to enable C variables to get names from ECPGColLabel: * DAY_P, HOUR_P, MINUTE_P, MONTH_P, SECOND_P, YEAR_P. * * We also have to exclude CONNECTION, CURRENT, and INPUT for various reasons. * CONNECTION can be added back in all_unreserved_keyword, but CURRENT and * INPUT are reserved for ecpg purposes. * * The mentioned exclusions are done by $replace_line settings in parse.pl. */ all_unreserved_keyword: unreserved_keyword { $$ = $1; } | ECPGunreserved_interval { $$ = $1; } | CONNECTION { $$ = mm_strdup("connection"); } ; ECPGunreserved_interval: DAY_P { $$ = mm_strdup("day"); } | HOUR_P { $$ = mm_strdup("hour"); } | MINUTE_P { $$ = mm_strdup("minute"); } | MONTH_P { $$ = mm_strdup("month"); } | SECOND_P { $$ = mm_strdup("second"); } | YEAR_P { $$ = mm_strdup("year"); } ; into_list : coutputvariable | into_list ',' coutputvariable ; ecpgstart: SQL_START { reset_variables(); pacounter = 1; } ; c_args: /*EMPTY*/ { $$ = EMPTY; } | c_list { $$ = $1; } ; coutputvariable: cvariable indicator { add_variable_to_head(&argsresult, find_variable($1), find_variable($2)); } | cvariable { add_variable_to_head(&argsresult, find_variable($1), &no_indicator); } ; civarind: cvariable indicator { if (find_variable($2)->type->type == ECPGt_array) mmerror(PARSE_ERROR, ET_ERROR, "arrays of indicators are not allowed on input"); add_variable_to_head(&argsinsert, find_variable($1), find_variable($2)); $$ = create_questionmarks($1, false); } ; char_civar: char_variable { char *ptr = strstr($1, ".arr"); if (ptr) /* varchar, we need the struct name here, not the struct element */ *ptr = '\0'; add_variable_to_head(&argsinsert, find_variable($1), &no_indicator); $$ = $1; } ; civar: cvariable { add_variable_to_head(&argsinsert, find_variable($1), &no_indicator); $$ = create_questionmarks($1, false); } ; indicator: cvariable { check_indicator((find_variable($1))->type); $$ = $1; } | SQL_INDICATOR cvariable { check_indicator((find_variable($2))->type); $$ = $2; } | SQL_INDICATOR name { check_indicator((find_variable($2))->type); $$ = $2; } ; cvariable: CVARIABLE { /* As long as multidimensional arrays are not implemented we have to check for those here */ char *ptr = $1; int brace_open=0, brace = false; for (; *ptr; ptr++) { switch (*ptr) { case '[': if (brace) mmfatal(PARSE_ERROR, "multidimensional arrays for simple data types are not supported"); brace_open++; break; case ']': brace_open--; if (brace_open == 0) brace = true; break; case '\t': case ' ': break; default: if (brace_open == 0) brace = false; break; } } $$ = $1; } ; ecpg_param: PARAM { $$ = make_name(); } ; ecpg_bconst: BCONST { $$ = make_name(); } ; ecpg_fconst: FCONST { $$ = make_name(); } ; ecpg_sconst: SCONST { $$ = $1; } ; ecpg_xconst: XCONST { $$ = make_name(); } ; ecpg_ident: IDENT { $$ = $1; } | CSTRING { $$ = make3_str(mm_strdup("\""), $1, mm_strdup("\"")); } ; quoted_ident_stringvar: name { $$ = make3_str(mm_strdup("\""), $1, mm_strdup("\"")); } | char_variable { $$ = make3_str(mm_strdup("("), $1, mm_strdup(")")); } ; /* * C stuff */ c_stuff_item: c_anything { $$ = $1; } | '(' ')' { $$ = mm_strdup("()"); } | '(' c_stuff ')' { $$ = cat_str(3, mm_strdup("("), $2, mm_strdup(")")); } ; c_stuff: c_stuff_item { $$ = $1; } | c_stuff c_stuff_item { $$ = cat2_str($1, $2); } ; c_list: c_term { $$ = $1; } | c_list ',' c_term { $$ = cat_str(3, $1, mm_strdup(","), $3); } ; c_term: c_stuff { $$ = $1; } | '{' c_list '}' { $$ = cat_str(3, mm_strdup("{"), $2, mm_strdup("}")); } ; c_thing: c_anything { $$ = $1; } | '(' { $$ = mm_strdup("("); } | ')' { $$ = mm_strdup(")"); } | ',' { $$ = mm_strdup(","); } | ';' { $$ = mm_strdup(";"); } ; c_anything: ecpg_ident { $$ = $1; } | Iconst { $$ = $1; } | ecpg_fconst { $$ = $1; } | ecpg_sconst { $$ = $1; } | '*' { $$ = mm_strdup("*"); } | '+' { $$ = mm_strdup("+"); } | '-' { $$ = mm_strdup("-"); } | '/' { $$ = mm_strdup("/"); } | '%' { $$ = mm_strdup("%"); } | NULL_P { $$ = mm_strdup("NULL"); } | S_ADD { $$ = mm_strdup("+="); } | S_AND { $$ = mm_strdup("&&"); } | S_ANYTHING { $$ = make_name(); } | S_AUTO { $$ = mm_strdup("auto"); } | S_CONST { $$ = mm_strdup("const"); } | S_DEC { $$ = mm_strdup("--"); } | S_DIV { $$ = mm_strdup("/="); } | S_DOTPOINT { $$ = mm_strdup(".*"); } | S_EQUAL { $$ = mm_strdup("=="); } | S_EXTERN { $$ = mm_strdup("extern"); } | S_INC { $$ = mm_strdup("++"); } | S_LSHIFT { $$ = mm_strdup("<<"); } | S_MEMBER { $$ = mm_strdup("->"); } | S_MEMPOINT { $$ = mm_strdup("->*"); } | S_MOD { $$ = mm_strdup("%="); } | S_MUL { $$ = mm_strdup("*="); } | S_NEQUAL { $$ = mm_strdup("!="); } | S_OR { $$ = mm_strdup("||"); } | S_REGISTER { $$ = mm_strdup("register"); } | S_RSHIFT { $$ = mm_strdup(">>"); } | S_STATIC { $$ = mm_strdup("static"); } | S_SUB { $$ = mm_strdup("-="); } | S_TYPEDEF { $$ = mm_strdup("typedef"); } | S_VOLATILE { $$ = mm_strdup("volatile"); } | SQL_BOOL { $$ = mm_strdup("bool"); } | ENUM_P { $$ = mm_strdup("enum"); } | HOUR_P { $$ = mm_strdup("hour"); } | INT_P { $$ = mm_strdup("int"); } | SQL_LONG { $$ = mm_strdup("long"); } | MINUTE_P { $$ = mm_strdup("minute"); } | MONTH_P { $$ = mm_strdup("month"); } | SECOND_P { $$ = mm_strdup("second"); } | SQL_SHORT { $$ = mm_strdup("short"); } | SQL_SIGNED { $$ = mm_strdup("signed"); } | SQL_STRUCT { $$ = mm_strdup("struct"); } | SQL_UNSIGNED { $$ = mm_strdup("unsigned"); } | YEAR_P { $$ = mm_strdup("year"); } | CHAR_P { $$ = mm_strdup("char"); } | FLOAT_P { $$ = mm_strdup("float"); } | TO { $$ = mm_strdup("to"); } | UNION { $$ = mm_strdup("union"); } | VARCHAR { $$ = mm_strdup("varchar"); } | '[' { $$ = mm_strdup("["); } | ']' { $$ = mm_strdup("]"); } | '=' { $$ = mm_strdup("="); } | ':' { $$ = mm_strdup(":"); } ; DeallocateStmt: DEALLOCATE prepared_name { $$ = $2; } | DEALLOCATE PREPARE prepared_name { $$ = $3; } | DEALLOCATE ALL { $$ = mm_strdup("all"); } | DEALLOCATE PREPARE ALL { $$ = mm_strdup("all"); } ; Iresult: Iconst { $$ = $1; } | '(' Iresult ')' { $$ = cat_str(3, mm_strdup("("), $2, mm_strdup(")")); } | Iresult '+' Iresult { $$ = cat_str(3, $1, mm_strdup("+"), $3); } | Iresult '-' Iresult { $$ = cat_str(3, $1, mm_strdup("-"), $3); } | Iresult '*' Iresult { $$ = cat_str(3, $1, mm_strdup("*"), $3); } | Iresult '/' Iresult { $$ = cat_str(3, $1, mm_strdup("/"), $3); } | Iresult '%' Iresult { $$ = cat_str(3, $1, mm_strdup("%"), $3); } | ecpg_sconst { $$ = $1; } | ColId { $$ = $1; } | ColId '(' var_type ')' { if (pg_strcasecmp($1, "sizeof") != 0) mmerror(PARSE_ERROR, ET_ERROR, "operator not allowed in variable definition"); else $$ = cat_str(4, $1, mm_strdup("("), $3.type_str, mm_strdup(")")); } ; execute_rest: /* EMPTY */ { $$ = EMPTY; } | ecpg_using opt_ecpg_into { $$ = EMPTY; } | ecpg_into ecpg_using { $$ = EMPTY; } | ecpg_into { $$ = EMPTY; } ; ecpg_into: INTO into_list { $$ = EMPTY; } | into_descriptor { $$ = $1; } ; opt_ecpg_into: /* EMPTY */ { $$ = EMPTY; } | ecpg_into { $$ = $1; } ; ecpg_fetch_into: ecpg_into { $$ = $1; } | using_descriptor { struct variable *var; var = argsinsert->variable; remove_variable_from_list(&argsinsert, var); add_variable_to_head(&argsresult, var, &no_indicator); $$ = $1; } ; opt_ecpg_fetch_into: /* EMPTY */ { $$ = EMPTY; } | ecpg_fetch_into { $$ = $1; } ; %% void base_yyerror(const char *error) { /* translator: %s is typically the translation of "syntax error" */ mmerror(PARSE_ERROR, ET_ERROR, "%s at or near \"%s\"", _(error), token_start ? token_start : base_yytext); } void parser_init(void) { /* This function is empty. It only exists for compatibility with the backend parser right now. */ }