use of io.trino.spi.function.ScalarFunctionAdapter.NullAdaptationPolicy.UNSUPPORTED in project trino by trinodb.
the class ScalarFunctionAdapter method adaptParameter.
private MethodHandle adaptParameter(MethodHandle methodHandle, int parameterIndex, Type argumentType, InvocationArgumentConvention actualArgumentConvention, InvocationArgumentConvention expectedArgumentConvention, InvocationReturnConvention returnConvention) {
if (actualArgumentConvention == expectedArgumentConvention) {
return methodHandle;
}
if (actualArgumentConvention == BLOCK_POSITION) {
throw new IllegalArgumentException("Block and position argument can not be adapted");
}
if (actualArgumentConvention == FUNCTION) {
throw new IllegalArgumentException("Function argument can not be adapted");
}
// caller will never pass null
if (expectedArgumentConvention == NEVER_NULL) {
if (actualArgumentConvention == BOXED_NULLABLE) {
// if actual argument is boxed primitive, change method handle to accept a primitive and then box to actual method
if (isWrapperType(methodHandle.type().parameterType(parameterIndex))) {
MethodType targetType = methodHandle.type().changeParameterType(parameterIndex, unwrap(methodHandle.type().parameterType(parameterIndex)));
methodHandle = explicitCastArguments(methodHandle, targetType);
}
return methodHandle;
}
if (actualArgumentConvention == NULL_FLAG) {
// actual method takes value and null flag, so change method handle to not have the flag and always pass false to the actual method
return insertArguments(methodHandle, parameterIndex + 1, false);
}
throw new IllegalArgumentException("Unsupported actual argument convention: " + actualArgumentConvention);
}
// caller will pass Java null for SQL null
if (expectedArgumentConvention == BOXED_NULLABLE) {
if (actualArgumentConvention == NEVER_NULL) {
if (nullAdaptationPolicy == UNSUPPORTED) {
throw new IllegalArgumentException("Not null argument can not be adapted to nullable");
}
// box argument
Class<?> boxedType = wrap(methodHandle.type().parameterType(parameterIndex));
MethodType targetType = methodHandle.type().changeParameterType(parameterIndex, boxedType);
methodHandle = explicitCastArguments(methodHandle, targetType);
if (nullAdaptationPolicy == UNDEFINED_VALUE_FOR_NULL) {
// currently, we just perform unboxing, which converts nulls to Java primitive default value
return methodHandle;
}
if (nullAdaptationPolicy == RETURN_NULL_ON_NULL) {
if (returnConvention == FAIL_ON_NULL) {
throw new IllegalArgumentException("RETURN_NULL_ON_NULL adaptation can not be used with FAIL_ON_NULL return convention");
}
return guardWithTest(isNullArgument(methodHandle.type(), parameterIndex), returnNull(methodHandle.type()), methodHandle);
}
if (nullAdaptationPolicy == THROW_ON_NULL) {
MethodType adapterType = methodType(boxedType, boxedType);
MethodHandle adapter = guardWithTest(isNullArgument(adapterType, 0), throwTrinoNullArgumentException(adapterType), identity(boxedType));
return collectArguments(methodHandle, parameterIndex, adapter);
}
}
if (actualArgumentConvention == NULL_FLAG) {
// The conversion is described below in reverse order as this is how method handle adaptation works. The provided example
// signature is based on a boxed Long argument.
// 3. unbox the value (if null the java default is sent)
// long, boolean => Long, boolean
Class<?> parameterType = methodHandle.type().parameterType(parameterIndex);
methodHandle = explicitCastArguments(methodHandle, methodHandle.type().changeParameterType(parameterIndex, wrap(parameterType)));
// 2. replace second argument with the result of isNull
// long, boolean => Long, Long
methodHandle = filterArguments(methodHandle, parameterIndex + 1, explicitCastArguments(IS_NULL_METHOD, methodType(boolean.class, wrap(parameterType))));
// 1. Duplicate the argument, so we have two copies of the value
// Long, Long => Long
int[] reorder = IntStream.range(0, methodHandle.type().parameterCount()).map(i -> i <= parameterIndex ? i : i - 1).toArray();
MethodType newType = methodHandle.type().dropParameterTypes(parameterIndex + 1, parameterIndex + 2);
methodHandle = permuteArguments(methodHandle, newType, reorder);
return methodHandle;
}
throw new IllegalArgumentException("Unsupported actual argument convention: " + actualArgumentConvention);
}
// caller will pass boolean true in the next argument for SQL null
if (expectedArgumentConvention == NULL_FLAG) {
if (actualArgumentConvention == NEVER_NULL) {
if (nullAdaptationPolicy == UNSUPPORTED) {
throw new IllegalArgumentException("Not null argument can not be adapted to nullable");
}
if (nullAdaptationPolicy == UNDEFINED_VALUE_FOR_NULL) {
// add null flag to call
methodHandle = dropArguments(methodHandle, parameterIndex + 1, boolean.class);
return methodHandle;
}
// if caller sets null flag, return null, otherwise invoke target
if (nullAdaptationPolicy == RETURN_NULL_ON_NULL) {
if (returnConvention == FAIL_ON_NULL) {
throw new IllegalArgumentException("RETURN_NULL_ON_NULL adaptation can not be used with FAIL_ON_NULL return convention");
}
// add null flag to call
methodHandle = dropArguments(methodHandle, parameterIndex + 1, boolean.class);
return guardWithTest(isTrueNullFlag(methodHandle.type(), parameterIndex), returnNull(methodHandle.type()), methodHandle);
}
if (nullAdaptationPolicy == THROW_ON_NULL) {
MethodHandle adapter = identity(methodHandle.type().parameterType(parameterIndex));
adapter = dropArguments(adapter, 1, boolean.class);
adapter = guardWithTest(isTrueNullFlag(adapter.type(), 0), throwTrinoNullArgumentException(adapter.type()), adapter);
return collectArguments(methodHandle, parameterIndex, adapter);
}
}
if (actualArgumentConvention == BOXED_NULLABLE) {
return collectArguments(methodHandle, parameterIndex, boxedToNullFlagFilter(methodHandle.type().parameterType(parameterIndex)));
}
throw new IllegalArgumentException("Unsupported actual argument convention: " + actualArgumentConvention);
}
// caller will pass boolean true in the next argument for SQL null
if (expectedArgumentConvention == BLOCK_POSITION) {
MethodHandle getBlockValue = getBlockValue(argumentType, methodHandle.type().parameterType(parameterIndex));
if (actualArgumentConvention == NEVER_NULL) {
if (nullAdaptationPolicy == UNDEFINED_VALUE_FOR_NULL) {
// Current, null is not checked, so whatever type returned is passed through
methodHandle = collectArguments(methodHandle, parameterIndex, getBlockValue);
return methodHandle;
}
if (nullAdaptationPolicy == RETURN_NULL_ON_NULL && returnConvention != FAIL_ON_NULL) {
// if caller sets null flag, return null, otherwise invoke target
methodHandle = collectArguments(methodHandle, parameterIndex, getBlockValue);
return guardWithTest(isBlockPositionNull(methodHandle.type(), parameterIndex), returnNull(methodHandle.type()), methodHandle);
}
if (nullAdaptationPolicy == THROW_ON_NULL || nullAdaptationPolicy == UNSUPPORTED || nullAdaptationPolicy == RETURN_NULL_ON_NULL) {
MethodHandle adapter = guardWithTest(isBlockPositionNull(getBlockValue.type(), 0), throwTrinoNullArgumentException(getBlockValue.type()), getBlockValue);
return collectArguments(methodHandle, parameterIndex, adapter);
}
}
if (actualArgumentConvention == BOXED_NULLABLE) {
getBlockValue = explicitCastArguments(getBlockValue, getBlockValue.type().changeReturnType(wrap(getBlockValue.type().returnType())));
getBlockValue = guardWithTest(isBlockPositionNull(getBlockValue.type(), 0), returnNull(getBlockValue.type()), getBlockValue);
methodHandle = collectArguments(methodHandle, parameterIndex, getBlockValue);
return methodHandle;
}
if (actualArgumentConvention == NULL_FLAG) {
// long, boolean => long, Block, int
MethodHandle isNull = isBlockPositionNull(getBlockValue.type(), 0);
methodHandle = collectArguments(methodHandle, parameterIndex + 1, isNull);
// long, Block, int => Block, int, Block, int
getBlockValue = guardWithTest(isBlockPositionNull(getBlockValue.type(), 0), returnNull(getBlockValue.type()), getBlockValue);
methodHandle = collectArguments(methodHandle, parameterIndex, getBlockValue);
int[] reorder = IntStream.range(0, methodHandle.type().parameterCount()).map(i -> i <= parameterIndex + 1 ? i : i - 2).toArray();
MethodType newType = methodHandle.type().dropParameterTypes(parameterIndex + 2, parameterIndex + 4);
methodHandle = permuteArguments(methodHandle, newType, reorder);
return methodHandle;
}
throw new IllegalArgumentException("Unsupported actual argument convention: " + actualArgumentConvention);
}
throw new IllegalArgumentException("Unsupported expected argument convention: " + expectedArgumentConvention);
}
Aggregations