Datum array_to_min(PG_FUNCTION_ARGS); PG_FUNCTION_INFO_V1(array_to_min); /** * Returns a min from an (unsorted) array of numbers. * by Paul A. Jungwirth */ Datum array_to_min(PG_FUNCTION_ARGS) { // Our arguments: ArrayType *vals; // The array element type: Oid valsType; // The array element type widths for our input array: int16 valsTypeWidth; // The array element type "is passed by value" flags (not really used): bool valsTypeByValue; // The array element type alignment codes (not really used): char valsTypeAlignmentCode; // The array contents, as PostgreSQL "Datum" objects: Datum *valsContent; // List of "is null" flags for the array contents: bool *valsNullFlags; // The size of the input array: int valsLength; bool resultIsNull = true; int i; pgnum v; if (PG_ARGISNULL(0)) { ereport(ERROR, (errmsg("Null arrays not accepted"))); } vals = PG_GETARG_ARRAYTYPE_P(0); if (ARR_NDIM(vals) == 0) { PG_RETURN_NULL(); } if (ARR_NDIM(vals) > 1) { ereport(ERROR, (errmsg("One-dimesional arrays are required"))); } // Determine the array element types. valsType = ARR_ELEMTYPE(vals); if (valsType != INT2OID && valsType != INT4OID && valsType != INT8OID && valsType != FLOAT4OID && valsType != FLOAT8OID) { ereport(ERROR, (errmsg("Min subject must be SMALLINT, INTEGER, BIGINT, REAL, or DOUBLE PRECISION values"))); } valsLength = (ARR_DIMS(vals))[0]; get_typlenbyvalalign(valsType, &valsTypeWidth, &valsTypeByValue, &valsTypeAlignmentCode); // Extract the array contents (as Datum objects). deconstruct_array(vals, valsType, valsTypeWidth, valsTypeByValue, valsTypeAlignmentCode, &valsContent, &valsNullFlags, &valsLength); if (valsLength == 0) PG_RETURN_NULL(); // Compute the min. switch (valsType) { case INT2OID: for (i = 0; i < valsLength; i++) { if (valsNullFlags[i]) { continue; } else if (resultIsNull) { v.i16 = DatumGetInt16(valsContent[i]); resultIsNull = false; } else if (DatumGetInt16(valsContent[i]) < v.i16) { v.i16 = DatumGetInt16(valsContent[i]); } } if (resultIsNull) PG_RETURN_NULL(); else PG_RETURN_INT16(v.i16); case INT4OID: for (i = 0; i < valsLength; i++) { if (valsNullFlags[i]) { continue; } else if (resultIsNull) { v.i32 = DatumGetInt32(valsContent[i]); resultIsNull = false; } else if (DatumGetInt32(valsContent[i]) < v.i32) { v.i32 = DatumGetInt32(valsContent[i]); } } if (resultIsNull) PG_RETURN_NULL(); else PG_RETURN_INT32(v.i32); case INT8OID: for (i = 0; i < valsLength; i++) { if (valsNullFlags[i]) { continue; } else if (resultIsNull) { v.i64 = DatumGetInt64(valsContent[i]); resultIsNull = false; } else if (DatumGetInt64(valsContent[i]) < v.i64) { v.i64 = DatumGetInt64(valsContent[i]); } } if (resultIsNull) PG_RETURN_NULL(); else PG_RETURN_INT64(v.i64); case FLOAT4OID: for (i = 0; i < valsLength; i++) { if (valsNullFlags[i]) { continue; } else if (resultIsNull) { v.f4 = DatumGetFloat4(valsContent[i]); resultIsNull = false; } else if (DatumGetFloat4(valsContent[i]) < v.f4) { v.f4 = DatumGetFloat4(valsContent[i]); } } if (resultIsNull) PG_RETURN_NULL(); else PG_RETURN_FLOAT4(v.f4); case FLOAT8OID: for (i = 0; i < valsLength; i++) { if (valsNullFlags[i]) { continue; } else if (resultIsNull) { v.f8 = DatumGetFloat8(valsContent[i]); resultIsNull = false; } else if (DatumGetFloat8(valsContent[i]) < v.f8) { v.f8 = DatumGetFloat8(valsContent[i]); } } if (resultIsNull) PG_RETURN_NULL(); else PG_RETURN_FLOAT8(v.f8); default: ereport(ERROR, (errmsg("Min subject must be SMALLINT, INTEGER, BIGINT, REAL, or DOUBLE PRECISION values"))); } }