/*
* Copyright (c) 2006-2011 Rogério Liesenfeld
* This file is subject to the terms of the MIT license (see LICENSE.txt).
*/
package mockit.internal.expectations;
import java.lang.reflect.*;
import java.util.*;
import mockit.external.asm.Type;
import mockit.internal.expectations.invocation.*;
import mockit.internal.state.*;
import mockit.internal.util.*;
final class Expectation
{
final RecordPhase recordPhase;
final ExpectedInvocation invocation;
final InvocationConstraints constraints;
private InvocationResults results;
Expectation(RecordPhase recordPhase, ExpectedInvocation invocation, boolean nonStrict)
{
this.recordPhase = recordPhase;
this.invocation = invocation;
constraints = new InvocationConstraints(nonStrict);
}
Expectation(Expectation other)
{
recordPhase = other.recordPhase;
invocation = other.invocation;
constraints = new InvocationConstraints(other.constraints);
results = other.results;
}
InvocationResults getResults()
{
if (results == null) {
results = new InvocationResults(invocation, constraints);
}
return results;
}
Object produceResult(Object invokedObject, Object[] invocationArgs) throws Throwable
{
if (results == null) {
return invocation.getDefaultValueForReturnType(null);
}
return results.produceResult(invokedObject, invocationArgs);
}
AssertionError verifyConstraints(int minInvocations, int maxInvocations)
{
return constraints.verify(invocation, minInvocations, maxInvocations);
}
void addReturnValueOrValues(Object value)
{
boolean valueIsArray = value != null && value.getClass().isArray();
boolean valueIsIterable = value instanceof Iterable<?>;
if ((valueIsArray || valueIsIterable || value instanceof Iterator<?>) && hasReturnOfDifferentType(value)) {
if (valueIsArray) {
getResults().addReturnValues(value);
}
else if (valueIsIterable) {
getResults().addReturnValues((Iterable<?>) value);
}
else {
getResults().addDeferredReturnValues((Iterator<?>) value);
}
return;
}
addSingleReturnValue(value);
}
private void addSingleReturnValue(Object value)
{
substituteCascadedMockToBeReturnedIfNeeded(value);
getResults().addReturnValue(value);
}
private boolean hasReturnOfDifferentType(Object valueToBeReturned)
{
Class<?> returnClass = getReturnType();
return returnClass == null || !returnClass.isAssignableFrom(valueToBeReturned.getClass());
}
private Class<?> getReturnType()
{
Type invocationReturnType = Type.getReturnType(invocation.getMethodNameAndDescription());
return Utilities.getClassForType(invocationReturnType);
}
private void substituteCascadedMockToBeReturnedIfNeeded(Object valueToBeReturned)
{
Object cascadedMock = invocation.getCascadedMock();
if (valueToBeReturned != null && cascadedMock != null) {
TestRun.getExecutingTest().discardCascadedMockWhenInjectable(cascadedMock);
recordPhase.setNextInstanceToMatch(null);
}
}
void addSequenceOfReturnValues(Object firstValue, Object[] remainingValues)
{
InvocationResults sequence = getResults();
if (remainingValues == null) {
sequence.addReturnValue(firstValue);
}
else if (!addReturnValueForSequenceOfValues(firstValue, remainingValues)) {
sequence.addReturnValue(firstValue);
sequence.addReturnValues(remainingValues);
}
}
private boolean addReturnValueForSequenceOfValues(Object first, Object[] remaining)
{
Class<?> rt = getReturnType();
if (rt != null) {
int n = 1 + remaining.length;
if (rt.isArray()) {
if (first == null || !first.getClass().isArray()) {
addArrayAsReturnValue(rt.getComponentType(), n, first, remaining);
return true;
}
}
else if (Iterator.class.isAssignableFrom(rt)) {
addIteratorAsReturnValue(first, remaining, n);
return true;
}
else if (Iterable.class.isAssignableFrom(rt)) {
if (rt.isAssignableFrom(List.class)) {
addReturnValues(new ArrayList<Object>(n), first, remaining);
return true;
}
else if (rt.isAssignableFrom(Set.class)) {
addReturnValues(new LinkedHashSet<Object>(n), first, remaining);
return true;
}
else if (rt.isAssignableFrom(SortedSet.class)) {
addReturnValues(new TreeSet<Object>(), first, remaining);
return true;
}
}
}
return false;
}
private void addArrayAsReturnValue(Class<?> elementType, int n, Object first, Object[] remaining)
{
Object values = Array.newInstance(elementType, n);
setArrayElement(elementType, values, 0, first);
for (int i = 1; i < n; i++) {
setArrayElement(elementType, values, i, remaining[i - 1]);
}
results.addReturnValue(values);
}
@SuppressWarnings({"AssignmentToMethodParameter"})
private void setArrayElement(Class<?> elementType, Object array, int index, Object value)
{
if (elementType == byte.class || elementType == Byte.class) {
value = ((Number) value).byteValue();
}
else if (elementType == short.class || elementType == Short.class) {
value = ((Number) value).shortValue();
}
Array.set(array, index, value);
}
private void addIteratorAsReturnValue(Object first, Object[] remaining, int n)
{
List<Object> values = new ArrayList<Object>(n);
addAllValues(values, first, remaining);
results.addReturnValue(values.iterator());
}
private void addAllValues(Collection<Object> values, Object first, Object[] remaining)
{
values.add(first);
Collections.addAll(values, remaining);
}
private void addReturnValues(Collection<Object> values, Object first, Object[] remaining)
{
addAllValues(values, first, remaining);
results.addReturnValue(values);
}
void addResult(Object value)
{
if (value instanceof Throwable) {
getResults().addThrowable((Throwable) value);
return;
}
boolean valueIsArray = value != null && value.getClass().isArray();
boolean valueIsIterable = value instanceof Iterable<?>;
if ((valueIsArray || valueIsIterable || value instanceof Iterator<?>) && hasReturnOfDifferentType(value)) {
if (valueIsArray) {
getResults().addResults(value);
}
else if (valueIsIterable) {
getResults().addResults((Iterable<?>) value);
}
else {
getResults().addDeferredResults((Iterator<?>) value);
}
return;
}
addSingleReturnValue(value);
}
void setCustomErrorMessage(CharSequence message)
{
invocation.customErrorMessage = message;
}
}