/* * array_iterator.c -- * * This file defines a new class of operators which take an * array and a scalar value, iterate a scalar operator over the * elements of the array and the value and compute a result as * the logical OR or AND of the iteration results. * * Copyright (c) 1997, Massimo Dal Zotto */ #include #include #include #include #include "postgres.h" #include "miscadmin.h" #include "access/xact.h" #include "backend/fmgr.h" #include "catalog/pg_type.h" #include "utils/array.h" #include "utils/builtins.h" #include "utils/memutils.h" #include "utils/syscache.h" #include "array_iterator.h" static int32 array_iterator(Oid elemtype, Oid proc, int and, ArrayType *array, Datum value) { HeapTuple typ_tuple; TypeTupleForm typ_struct; bool typbyval; int typlen; func_ptr proc_fn; int pronargs; int nitems, i, result; int ndim, *dim; char *p; /* Sanity checks */ if ((array == (ArrayType *) NULL) || (ARR_IS_LO(array) == true)) { /* elog(NOTICE, "array_iterator: array is null"); */ return (0); } ndim = ARR_NDIM(array); dim = ARR_DIMS(array); nitems = getNitems(ndim, dim); if (nitems == 0) { /* elog(NOTICE, "array_iterator: nitems = 0"); */ return (0); } /* Lookup element type information */ typ_tuple = SearchSysCacheTuple(TYPOID, ObjectIdGetDatum(elemtype), 0, 0, 0); if (!HeapTupleIsValid(typ_tuple)) { elog(ERROR, "array_iterator: cache lookup failed for type %d", elemtype); return 0; } typ_struct = (TypeTupleForm) GETSTRUCT(typ_tuple); typlen = typ_struct->typlen; typbyval = typ_struct->typbyval; /* Lookup the function entry point */ proc_fn = (func_ptr) NULL; fmgr_info(proc, &pronargs); /* (proc, &proc_fn, &pronargs); */ if ((proc_fn == NULL) || (pronargs != 2)) { elog(ERROR, "array_iterator: fmgr_info lookup failed for oid %d", proc); return (0); } /* Scan the array and apply the operator to each element */ result = 0; p = ARR_DATA_PTR(array); for (i = 0; i < nitems; i++) { if (typbyval) { switch (typlen) { case 1: result = (int) (*proc_fn) (*p, value); break; case 2: result = (int) (*proc_fn) (*(int16 *) p, value); break; case 3: case 4: result = (int) (*proc_fn) (*(int32 *) p, value); break; } p += typlen; } else { result = (int) (*proc_fn) (p, value); if (typlen > 0) p += typlen; else p += INTALIGN(*(int32 *) p); } if (result) { if (!and) return (1); } else { if (and) return (0); } } if (and && result) return (1); else return (0); } /* * Iterator functions for type _text */ int32 array_texteq(ArrayType *array, char *value) { return array_iterator((Oid) 25, /* text */ (Oid) 67, /* texteq */ 0, /* logical or */ array, (Datum) value); } int32 array_all_texteq(ArrayType *array, char *value) { return array_iterator((Oid) 25, /* text */ (Oid) 67, /* texteq */ 1, /* logical and */ array, (Datum) value); } int32 array_textregexeq(ArrayType *array, char *value) { return array_iterator((Oid) 25, /* text */ (Oid) 1254, /* textregexeq */ 0, /* logical or */ array, (Datum) value); } int32 array_all_textregexeq(ArrayType *array, char *value) { return array_iterator((Oid) 25, /* text */ (Oid) 1254, /* textregexeq */ 1, /* logical and */ array, (Datum) value); } /* * Iterator functions for type _char16. Note that the regexp * operators take the second argument of type text. */ int32 array_char16eq(ArrayType *array, char *value) { return array_iterator((Oid) 20, /* char16 */ (Oid) 1275, /* char16eq */ 0, /* logical or */ array, (Datum) value); } int32 array_all_char16eq(ArrayType *array, char *value) { return array_iterator((Oid) 20, /* char16 */ (Oid) 1275, /* char16eq */ 1, /* logical and */ array, (Datum) value); } int32 array_char16regexeq(ArrayType *array, char *value) { return array_iterator((Oid) 20, /* char16 */ (Oid) 1288, /* char16regexeq */ 0, /* logical or */ array, (Datum) value); } int32 array_all_char16regexeq(ArrayType *array, char *value) { return array_iterator((Oid) 20, /* char16 */ (Oid) 1288, /* char16regexeq */ 1, /* logical and */ array, (Datum) value); } /* * Iterator functions for type _int4 */ int32 array_int4eq(ArrayType *array, int4 value) { return array_iterator((Oid) 23, /* int4 */ (Oid) 65, /* int4eq */ 0, /* logical or */ array, (Datum) value); } int32 array_all_int4eq(ArrayType *array, int4 value) { return array_iterator((Oid) 23, /* int4 */ (Oid) 65, /* int4eq */ 1, /* logical and */ array, (Datum) value); } int32 array_int4ne(ArrayType *array, int4 value) { return array_iterator((Oid) 23, /* int4 */ (Oid) 144, /* int4ne */ 0, /* logical or */ array, (Datum) value); } int32 array_all_int4ne(ArrayType *array, int4 value) { return array_iterator((Oid) 23, /* int4 */ (Oid) 144, /* int4ne */ 1, /* logical and */ array, (Datum) value); } int32 array_int4gt(ArrayType *array, int4 value) { return array_iterator((Oid) 23, /* int4 */ (Oid) 147, /* int4gt */ 0, /* logical or */ array, (Datum) value); } int32 array_all_int4gt(ArrayType *array, int4 value) { return array_iterator((Oid) 23, /* int4 */ (Oid) 147, /* int4gt */ 1, /* logical and */ array, (Datum) value); } int32 array_int4ge(ArrayType *array, int4 value) { return array_iterator((Oid) 23, /* int4 */ (Oid) 150, /* int4ge */ 0, /* logical or */ array, (Datum) value); } int32 array_all_int4ge(ArrayType *array, int4 value) { return array_iterator((Oid) 23, /* int4 */ (Oid) 150, /* int4ge */ 1, /* logical and */ array, (Datum) value); } int32 array_int4lt(ArrayType *array, int4 value) { return array_iterator((Oid) 23, /* int4 */ (Oid) 66, /* int4lt */ 0, /* logical or */ array, (Datum) value); } int32 array_all_int4lt(ArrayType *array, int4 value) { return array_iterator((Oid) 23, /* int4 */ (Oid) 66, /* int4lt */ 1, /* logical and */ array, (Datum) value); } int32 array_int4le(ArrayType *array, int4 value) { return array_iterator((Oid) 23, /* int4 */ (Oid) 149, /* int4le */ 0, /* logical or */ array, (Datum) value); } int32 array_all_int4le(ArrayType *array, int4 value) { return array_iterator((Oid) 23, /* int4 */ (Oid) 149, /* int4le */ 1, /* logical and */ array, (Datum) value); } /* end of file */