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vec_to_sum.c
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Datum vec_to_sum_transfn(PG_FUNCTION_ARGS);
PG_FUNCTION_INFO_V1(vec_to_sum_transfn);
/**
* Returns an array of n elements,
* which each element is the sum of non-NULLs found in that position
* from all input arrays.
*
* by Paul A. Jungwirth
*/
Datum
vec_to_sum_transfn(PG_FUNCTION_ARGS)
{
Oid elemTypeId;
int16 elemTypeWidth;
bool elemTypeByValue;
char elemTypeAlignmentCode;
int currentLength;
MemoryContext aggContext;
VecArrayBuildState *state = NULL;
ArrayType *currentArray;
int arrayLength;
Datum *currentVals;
bool *currentNulls;
int i;
MemoryContext old = NULL;
if (!AggCheckCallContext(fcinfo, &aggContext)) {
elog(ERROR, "vec_to_sum_transfn called in non-aggregate context");
}
// PG_ARGISNULL tests for SQL NULL,
// but after the first pass we can have a
// value that is non-SQL-NULL but still is C NULL.
if (!PG_ARGISNULL(0)) {
state = (VecArrayBuildState *)PG_GETARG_POINTER(0);
}
if (PG_ARGISNULL(1)) {
// just return the current state unchanged (possibly still NULL)
PG_RETURN_POINTER(state);
}
currentArray = PG_GETARG_ARRAYTYPE_P(1);
if (ARR_NDIM(currentArray) == 0) {
PG_RETURN_POINTER(state);
}
if (state == NULL) {
// Since we have our first not-null argument
// we can initialize the state to match its length.
elemTypeId = ARR_ELEMTYPE(currentArray);
if (elemTypeId != INT2OID &&
elemTypeId != INT4OID &&
elemTypeId != INT8OID &&
elemTypeId != FLOAT4OID &&
elemTypeId != FLOAT8OID &&
elemTypeId != NUMERICOID) {
ereport(ERROR, (errmsg("vec_to_sum input must be array of SMALLINT, INTEGER, BIGINT, REAL, DOUBLE PRECISION, or NUMERIC")));
}
if (ARR_NDIM(currentArray) != 1) {
ereport(ERROR, (errmsg("vec_to_sum: one-dimensional arrays are required, but got %d", ARR_NDIM(currentArray))));
}
arrayLength = (ARR_DIMS(currentArray))[0];
// Start with all zeros:
state = initVecArrayResultWithNulls(elemTypeId, elemTypeId, aggContext, arrayLength);
if (elemTypeId == NUMERICOID) old = MemoryContextSwitchTo(aggContext);
for (i = 0; i < arrayLength; i++) {
switch (elemTypeId) {
case INT2OID:
state->vecvalues[i].i16 = 0;
break;
case INT4OID:
state->vecvalues[i].i32 = 0;
break;
case INT8OID:
state->vecvalues[i].i64 = 0;
break;
case FLOAT4OID:
state->vecvalues[i].f4 = 0;
break;
case FLOAT8OID:
state->vecvalues[i].f8 = 0;
break;
case NUMERICOID:
state->vecvalues[i].num = DatumGetNumeric(DirectFunctionCall1(int8_numeric, Int64GetDatum(0)));
break;
default:
elog(ERROR, "Unknown elemTypeId!");
}
state->state.dnulls[i] = true;
}
if (elemTypeId == NUMERICOID) MemoryContextSwitchTo(old);
} else {
elemTypeId = state->inputElementType;
arrayLength = state->state.nelems;
}
get_typlenbyvalalign(elemTypeId, &elemTypeWidth, &elemTypeByValue, &elemTypeAlignmentCode);
deconstruct_array(currentArray, elemTypeId, elemTypeWidth, elemTypeByValue, elemTypeAlignmentCode,
¤tVals, ¤tNulls, ¤tLength);
if (currentLength != arrayLength) {
ereport(ERROR, (errmsg("vec_to_sum: all arrays must be the same length, but we got %d vs %d", currentLength, arrayLength)));
}
// Make sure we allocate Numerics in a context that will persist between calls!:
if (elemTypeId == NUMERICOID) old = MemoryContextSwitchTo(aggContext);
for (i = 0; i < arrayLength; i++) {
if (currentNulls[i]) {
// do nothing: nulls can't change the result.
} else {
state->state.dnulls[i] = false;
switch (elemTypeId) {
case INT2OID:
state->vecvalues[i].i16 += DatumGetInt16(currentVals[i]);
break;
case INT4OID:
state->vecvalues[i].i32 += DatumGetInt32(currentVals[i]);
break;
case INT8OID:
state->vecvalues[i].i64 += DatumGetInt64(currentVals[i]);
break;
case FLOAT4OID:
state->vecvalues[i].f4 += DatumGetFloat4(currentVals[i]);
break;
case FLOAT8OID:
state->vecvalues[i].f8 += DatumGetFloat8(currentVals[i]);
break;
case NUMERICOID:
#if PG_VERSION_NUM < 120000
state->vecvalues[i].num = DatumGetNumeric(DirectFunctionCall2(numeric_add,
NumericGetDatum(state->vecvalues[i].num),
currentVals[i]));
#else
state->vecvalues[i].num = numeric_add_opt_error(state->vecvalues[i].num, DatumGetNumeric(currentVals[i]), NULL);
#endif
break;
default:
elog(ERROR, "Unknown elemTypeId!");
}
}
}
if (elemTypeId == NUMERICOID) MemoryContextSwitchTo(old);
PG_RETURN_POINTER(state);
}
Datum vec_to_sum_finalfn(PG_FUNCTION_ARGS);
PG_FUNCTION_INFO_V1(vec_to_sum_finalfn);
Datum
vec_to_sum_finalfn(PG_FUNCTION_ARGS)
{
Datum result;
VecArrayBuildState *state;
int dims[1];
int lbs[1];
int i;
Assert(AggCheckCallContext(fcinfo, NULL));
state = PG_ARGISNULL(0) ? NULL : (VecArrayBuildState *)PG_GETARG_POINTER(0);
if (state == NULL)
PG_RETURN_NULL();
// Convert from our pgnums to Datums:
for (i = 0; i < state->state.nelems; i++) {
if (state->state.dnulls[i]) continue;
switch (state->inputElementType) {
case INT2OID:
state->state.dvalues[i] = Int16GetDatum(state->vecvalues[i].i16);
break;
case INT4OID:
state->state.dvalues[i] = Int32GetDatum(state->vecvalues[i].i32);
break;
case INT8OID:
state->state.dvalues[i] = Int64GetDatum(state->vecvalues[i].i64);
break;
case FLOAT4OID:
state->state.dvalues[i] = Float4GetDatum(state->vecvalues[i].f4);
break;
case FLOAT8OID:
state->state.dvalues[i] = Float8GetDatum(state->vecvalues[i].f8);
break;
case NUMERICOID:
state->state.dvalues[i] = NumericGetDatum(state->vecvalues[i].num);
break;
}
}
dims[0] = state->state.nelems;
lbs[0] = 1;
result = makeMdArrayResult(&state->state, 1, dims, lbs, CurrentMemoryContext, false);
PG_RETURN_DATUM(result);
}