public void AddRangeOfIndexedArgumentValues()
{
ConstructorArgumentValues values = new ConstructorArgumentValues();
values.AddIndexedArgumentValue(1, DBNull.Value);
values.AddIndexedArgumentValue(2, "Foo");
values.AddIndexedArgumentValue(3, 3);
new ConstructorArgumentValues(values);
Assert.IsFalse(values.Empty, "Added three indexed values(as a range), but the collection is sayin' it's empty.");
Assert.AreEqual(3, values.ArgumentCount, "Added three indexed values(as a range), but the collection ain't sayin' that it's got 3 elements in it.");
Assert.AreEqual(3, values.IndexedArgumentValues.Count, "Added three indexed values(as a range), but the collection of indexed values ain't sayin' that it's got 3 elements in it.");
}
public void AddAllFromOther()
{
ConstructorArgumentValues other = new ConstructorArgumentValues();
other.AddIndexedArgumentValue(1, DBNull.Value);
other.AddIndexedArgumentValue(2, "Foo");
other.AddIndexedArgumentValue(3, 3);
ConstructorArgumentValues values = new ConstructorArgumentValues();
values.AddAll(other);
Assert.AreEqual(other.ArgumentCount, values.ArgumentCount,
"Must have been the same since one was filled up with the values in the other.");
}
public void AddIndexedArgumentValue()
{
ConstructorArgumentValues values = new ConstructorArgumentValues();
values.AddIndexedArgumentValue(1, DBNull.Value);
Assert.IsFalse(values.Empty, "Added one value, but the collection is sayin' it's empty.");
Assert.AreEqual(1, values.ArgumentCount, "Added one value, but the collection ain't sayin' that it's got a single element in it.");
Assert.AreEqual(1, values.IndexedArgumentValues.Count, "Added one indexed value, but the collection of indexed values ain't sayin' that it's got a single element in it.");
}
private ConstructorArgumentValues getConstructorArgumentValues(TypeRegistration registrationEntry)
{
ConstructorArgumentValues constructorArgs = new ConstructorArgumentValues();
int index = 0;
foreach (ParameterValue constructorParameter in registrationEntry.ConstructorParameters)
{
constructorArgs.AddIndexedArgumentValue(index++,getInjectionParameterValue(constructorParameter));
}
return constructorArgs;
}
public void GetIndexedArgumentValue()
{
ConstructorArgumentValues values = new ConstructorArgumentValues();
Assert.IsNull(values.GetIndexedArgumentValue(0, typeof(object)), "Mmm... managed to get a non null instance back from an empty instance.");
values.AddIndexedArgumentValue(16, DBNull.Value, typeof(DBNull).FullName);
Assert.IsNull(values.GetIndexedArgumentValue(0, typeof(object)), "Mmm... managed to get a non null instance back from an instance that should have now't at the specified index.");
ConstructorArgumentValues.ValueHolder value =
values.GetIndexedArgumentValue(16, typeof(DBNull));
Assert.IsNotNull(value, "Stored a value at a specified index, but got null when retrieving it.");
Assert.AreSame(DBNull.Value, value.Value, "The value stored at the specified index was not the exact same instance as was added.");
ConstructorArgumentValues.ValueHolder wrongValue =
values.GetIndexedArgumentValue(16, typeof(string));
Assert.IsNull(wrongValue, "Stored a value at a specified index, and got it (or rather something) back when retrieving it with the wrong Type specified.");
}
public void GetArgumentValue()
{
ConstructorArgumentValues values = new ConstructorArgumentValues();
Assert.IsNull(values.GetArgumentValue(0, typeof(object)), "Mmm... managed to get a non null instance back from an empty instance.");
values.AddGenericArgumentValue(DBNull.Value, typeof(DBNull).FullName);
values.AddNamedArgumentValue("foo", DBNull.Value);
values.AddIndexedArgumentValue(16, DBNull.Value, typeof(DBNull).FullName);
Assert.IsNull(values.GetArgumentValue(100, typeof(string)), "Mmm... managed to get a non null instance back from an instance that should have now't with the specified Type.");
ConstructorArgumentValues.ValueHolder value =
values.GetArgumentValue(-3, typeof(DBNull));
Assert.IsNotNull(value, "Stored a value of a specified Type at a specified index, but got null when retrieving it using the wrong index but the correct Type.");
Assert.AreSame(DBNull.Value, value.Value, "The retrieved value was not the exact same instance as was added.");
value = values.GetArgumentValue("foo", typeof(DBNull));
Assert.IsNotNull(value, "Stored a value of a specified Type under a name, but got null when retrieving it using the wrong name but the correct Type.");
Assert.AreSame(DBNull.Value, value.Value, "The retrieved value was not the exact same instance as was added.");
}
public void GetArgumentValueIgnoresAlreadyUsedValues()
{
ISet used = new ListSet();
ConstructorArgumentValues values = new ConstructorArgumentValues();
values.AddGenericArgumentValue(1);
values.AddNamedArgumentValue("2", 2);
values.AddIndexedArgumentValue(3, 3);
Type intType = typeof(int);
ConstructorArgumentValues.ValueHolder one = values.GetArgumentValue(10, string.Empty, intType, used);
Assert.AreEqual(1, one.Value);
used.Add(one);
ConstructorArgumentValues.ValueHolder two = values.GetArgumentValue(10, "2", intType, used);
Assert.AreEqual(2, two.Value);
used.Add(two);
ConstructorArgumentValues.ValueHolder three = values.GetArgumentValue(3, string.Empty, intType, used);
Assert.AreEqual(3, three.Value);
used.Add(three);
ConstructorArgumentValues.ValueHolder four = values.GetArgumentValue(10, string.Empty, intType, used);
Assert.IsNull(four);
}
public void CreateObjectWithMixOfNamedAndIndexedAndAutowiredCtorArguments()
{
string expectedCompany = "Griffin's Foosball Arcade";
MutablePropertyValues autoProps = new MutablePropertyValues();
autoProps.Add(new PropertyValue("Company", expectedCompany));
RootObjectDefinition autowired = new RootObjectDefinition(typeof(NestedTestObject), autoProps);
string expectedName = "Bingo";
int expectedAge = 1023;
ConstructorArgumentValues values = new ConstructorArgumentValues();
values.AddNamedArgumentValue("age", expectedAge);
values.AddIndexedArgumentValue(0, expectedName);
RootObjectDefinition def = new RootObjectDefinition(typeof(TestObject), values, new MutablePropertyValues());
def.AutowireMode = AutoWiringMode.Constructor;
DefaultListableObjectFactory fac = new DefaultListableObjectFactory();
fac.RegisterObjectDefinition("foo", def);
fac.RegisterObjectDefinition("doctor", autowired);
ITestObject foo = fac["foo"] as ITestObject;
Assert.IsNotNull(foo, "Couldn't pull manually registered instance out of the factory.");
Assert.AreEqual(expectedName, foo.Name, "Dependency 'name' was not resolved an indexed ctor arg.");
Assert.AreEqual(expectedAge, foo.Age, "Dependency 'age' was not resolved using a named ctor arg.");
Assert.AreEqual(expectedCompany, foo.Doctor.Company, "Dependency 'doctor.Company' was not resolved using autowiring.");
}
public void GetIndexedArgumentValue()
{
ConstructorArgumentValues values = new ConstructorArgumentValues();
Assert.IsNull(values.GetIndexedArgumentValue(0, typeof (object)), "Mmm... managed to get a non null instance back from an empty instance.");
values.AddIndexedArgumentValue(16, DBNull.Value, typeof (DBNull).FullName);
Assert.IsNull(values.GetIndexedArgumentValue(0, typeof (object)), "Mmm... managed to get a non null instance back from an instance that should have now't at the specified index.");
ConstructorArgumentValues.ValueHolder value =
values.GetIndexedArgumentValue(16, typeof (DBNull));
Assert.IsNotNull(value, "Stored a value at a specified index, but got null when retrieving it.");
Assert.AreSame(DBNull.Value, value.Value, "The value stored at the specified index was not the exact same instance as was added.");
ConstructorArgumentValues.ValueHolder wrongValue =
values.GetIndexedArgumentValue(16, typeof (string));
Assert.IsNull(wrongValue, "Stored a value at a specified index, and got it (or rather something) back when retrieving it with the wrong Type specified.");
}
public void GetArgumentValue()
{
ConstructorArgumentValues values = new ConstructorArgumentValues();
Assert.IsNull(values.GetArgumentValue(0, typeof (object)), "Mmm... managed to get a non null instance back from an empty instance.");
values.AddGenericArgumentValue(DBNull.Value, typeof (DBNull).FullName);
values.AddNamedArgumentValue("foo", DBNull.Value);
values.AddIndexedArgumentValue(16, DBNull.Value, typeof (DBNull).FullName);
Assert.IsNull(values.GetArgumentValue(100, typeof (string)), "Mmm... managed to get a non null instance back from an instance that should have now't with the specified Type.");
ConstructorArgumentValues.ValueHolder value =
values.GetArgumentValue(-3, typeof (DBNull));
Assert.IsNotNull(value, "Stored a value of a specified Type at a specified index, but got null when retrieving it using the wrong index but the correct Type.");
Assert.AreSame(DBNull.Value, value.Value, "The retrieved value was not the exact same instance as was added.");
value = values.GetArgumentValue("foo", typeof (DBNull));
Assert.IsNotNull(value, "Stored a value of a specified Type under a name, but got null when retrieving it using the wrong name but the correct Type.");
Assert.AreSame(DBNull.Value, value.Value, "The retrieved value was not the exact same instance as was added.");
}
/// <summary>
/// Resolves the <see cref="Spring.Objects.Factory.Config.ConstructorArgumentValues"/>
/// of the supplied <paramref name="definition"/>.
/// </summary>
/// <param name="objectName">The name of the object that is being resolved by this factory.</param>
/// <param name="definition">The rod.</param>
/// <param name="wrapper">The wrapper.</param>
/// <param name="cargs">The cargs.</param>
/// <param name="resolvedValues">Where the resolved constructor arguments will be placed.</param>
/// <returns>
/// The minimum number of arguments that any constructor for the supplied
/// <paramref name="definition"/> must have.
/// </returns>
/// <remarks>
/// <p>
/// 'Resolve' can be taken to mean that all of the <paramref name="definition"/>s
/// constructor arguments is resolved into a concrete object that can be plugged
/// into one of the <paramref name="definition"/>s constructors. Runtime object
/// references to other objects in this (or a parent) factory are resolved,
/// type conversion is performed, etc.
/// </p>
/// <p>
/// These resolved values are plugged into the supplied
/// <paramref name="resolvedValues"/> object, because we wouldn't want to touch
/// the <paramref name="definition"/>s constructor arguments in case it (or any of
/// its constructor arguments) is a prototype object definition.
/// </p>
/// <p>
/// This method is also used for handling invocations of static factory methods.
/// </p>
/// </remarks>
private int ResolveConstructorArguments(string objectName, RootObjectDefinition definition, ObjectWrapper wrapper,
ConstructorArgumentValues cargs,
ConstructorArgumentValues resolvedValues)
{
// ObjectDefinitionValueResolver valueResolver = new ObjectDefinitionValueResolver(objectFactory);
int minNrOfArgs = cargs.ArgumentCount;
foreach (KeyValuePair<int, ConstructorArgumentValues.ValueHolder> entry in cargs.IndexedArgumentValues)
{
int index = Convert.ToInt32(entry.Key);
if (index < 0)
{
throw new ObjectCreationException(definition.ResourceDescription, objectName,
"Invalid constructor agrument index: " + index);
}
if (index > minNrOfArgs)
{
minNrOfArgs = index + 1;
}
ConstructorArgumentValues.ValueHolder valueHolder = entry.Value;
string argName = "constructor argument with index " + index;
object resolvedValue =
valueResolver.ResolveValueIfNecessary(objectName, definition, argName, valueHolder.Value);
resolvedValues.AddIndexedArgumentValue(index, resolvedValue,
StringUtils.HasText(valueHolder.Type)
? TypeResolutionUtils.ResolveType(valueHolder.Type).
AssemblyQualifiedName
: null);
}
foreach (ConstructorArgumentValues.ValueHolder valueHolder in definition.ConstructorArgumentValues.GenericArgumentValues)
{
string argName = "constructor argument";
object resolvedValue =
valueResolver.ResolveValueIfNecessary(objectName, definition, argName, valueHolder.Value);
resolvedValues.AddGenericArgumentValue(resolvedValue,
StringUtils.HasText(valueHolder.Type)
? TypeResolutionUtils.ResolveType(valueHolder.Type).
AssemblyQualifiedName
: null);
}
foreach (KeyValuePair<string, object> namedArgumentEntry in definition.ConstructorArgumentValues.NamedArgumentValues)
{
string argumentName = namedArgumentEntry.Key;
string syntheticArgumentName = "constructor argument with name " + argumentName;
ConstructorArgumentValues.ValueHolder valueHolder =
(ConstructorArgumentValues.ValueHolder)namedArgumentEntry.Value;
object resolvedValue =
valueResolver.ResolveValueIfNecessary(objectName, definition, syntheticArgumentName, valueHolder.Value);
resolvedValues.AddNamedArgumentValue(argumentName, resolvedValue);
}
return minNrOfArgs;
}
public void CreateObjectWithMixOfIndexedAndTwoNamedSameTypeCtorArguments()
{
// this object will be passed in as a named constructor argument
string expectedCompany = "Griffin's Foosball Arcade";
MutablePropertyValues autoProps = new MutablePropertyValues();
autoProps.Add(new PropertyValue("Company", expectedCompany));
RootObjectDefinition autowired = new RootObjectDefinition(typeof(NestedTestObject), autoProps);
// this object will be passed in as a named constructor argument
string expectedLawyersCompany = "Pollack, Pounce, & Pulverise";
MutablePropertyValues lawyerProps = new MutablePropertyValues();
lawyerProps.Add(new PropertyValue("Company", expectedLawyersCompany));
RootObjectDefinition lawyer = new RootObjectDefinition(typeof(NestedTestObject), lawyerProps);
// this simple string object will be passed in as an indexed constructor argument
string expectedName = "Bingo";
// this simple integer object will be passed in as a named constructor argument
int expectedAge = 1023;
ConstructorArgumentValues values = new ConstructorArgumentValues();
// lets mix the order up a little...
values.AddNamedArgumentValue("age", expectedAge);
values.AddIndexedArgumentValue(0, expectedName);
values.AddNamedArgumentValue("doctor", new RuntimeObjectReference("a_doctor"));
values.AddNamedArgumentValue("lawyer", new RuntimeObjectReference("a_lawyer"));
RootObjectDefinition def = new RootObjectDefinition(typeof(TestObject), values, new MutablePropertyValues());
DefaultListableObjectFactory fac = new DefaultListableObjectFactory();
// the object we're attempting to resolve...
fac.RegisterObjectDefinition("foo", def);
// the object that will be looked up and passed as a named parameter to a ctor call...
fac.RegisterObjectDefinition("a_doctor", autowired);
// another object that will be looked up and passed as a named parameter to a ctor call...
fac.RegisterObjectDefinition("a_lawyer", lawyer);
ITestObject foo = fac["foo"] as ITestObject;
Assert.IsNotNull(foo, "Couldn't pull manually registered instance out of the factory.");
Assert.AreEqual(expectedName, foo.Name, "Dependency 'name' was not resolved an indexed ctor arg.");
Assert.AreEqual(expectedAge, foo.Age, "Dependency 'age' was not resolved using a named ctor arg.");
Assert.AreEqual(expectedCompany, foo.Doctor.Company, "Dependency 'doctor.Company' was not resolved using autowiring.");
Assert.AreEqual(expectedLawyersCompany, foo.Lawyer.Company, "Dependency 'lawyer.Company' was not resolved using another named ctor arg.");
}
/// <summary>
/// Parse a constructor-arg element.
/// </summary>
/// <param name="name">
/// The name of the object (definition) associated with the ctor arg.
/// </param>
/// <param name="arguments">
/// The list of constructor args associated with the object (definition).
/// </param>
/// <param name="element">
/// The name of the element containing the ctor arg definition.
/// </param>
/// <param name="parserContext">
/// The namespace-aware parser.
/// </param>
protected virtual void ParseConstructorArgElement(
string name, ConstructorArgumentValues arguments, XmlElement element, ParserContext parserContext)
{
object val = ParsePropertyValue(element, name, parserContext);
string indexAttr = GetAttributeValue(element, ObjectDefinitionConstants.IndexAttribute);
string typeAttr = GetAttributeValue(element, ObjectDefinitionConstants.TypeAttribute);
string nameAttr = GetAttributeValue(element, ObjectDefinitionConstants.ArgumentNameAttribute);
// only one of the 'index' or 'name' attributes can be present
if (StringUtils.HasText(indexAttr)
&& StringUtils.HasText(nameAttr))
{
throw new ObjectDefinitionStoreException(
parserContext.ReaderContext.Resource, name,
"Only one of the 'index' or 'name' attributes can be present per constructor argument.");
}
if (StringUtils.HasText(indexAttr))
{
try
{
int index = int.Parse(indexAttr, CultureInfo.CurrentCulture);
if (index < 0)
{
throw new ObjectDefinitionStoreException(
parserContext.ReaderContext.Resource, name,
"'index' cannot be lower than 0");
}
if (StringUtils.HasText(typeAttr))
{
arguments.AddIndexedArgumentValue(index, val, typeAttr);
}
else
{
arguments.AddIndexedArgumentValue(index, val);
}
}
catch (FormatException)
{
throw new ObjectDefinitionStoreException(
parserContext.ReaderContext.Resource, name,
"Attribute 'index' of tag 'constructor-arg' must be an integer value.");
}
}
else if (StringUtils.HasText(nameAttr))
{
if (StringUtils.HasText(typeAttr))
{
if (log.IsWarnEnabled)
{
log.Warn("The 'type' attribute is redundant when the 'name' attribute has been used on a constructor argument element.");
}
}
arguments.AddNamedArgumentValue(nameAttr, val);
}
else
{
if (StringUtils.HasText(typeAttr))
{
arguments.AddGenericArgumentValue(val, typeAttr);
}
else
{
arguments.AddGenericArgumentValue(val);
}
}
}
public void CreateObjectWithMixOfNamedAndIndexedCtorArguments()
{
string expectedName = "Bingo";
int expectedAge = 1023;
ConstructorArgumentValues values = new ConstructorArgumentValues();
values.AddNamedArgumentValue("age", expectedAge);
values.AddIndexedArgumentValue(0, expectedName);
RootObjectDefinition def = new RootObjectDefinition(typeof(TestObject), values, new MutablePropertyValues());
DefaultListableObjectFactory fac = new DefaultListableObjectFactory();
fac.RegisterObjectDefinition("foo", def);
ITestObject foo = fac["foo"] as ITestObject;
Assert.IsNotNull(foo, "Couldn't pull manually registered instance out of the factory.");
Assert.AreEqual(expectedName, foo.Name, "Dependency 'name' was not resolved an indexed ctor arg.");
Assert.AreEqual(expectedAge, foo.Age, "Dependency 'age' was not resolved using a named ctor arg.");
}
public void AddIndexedArgumentValue()
{
ConstructorArgumentValues values = new ConstructorArgumentValues();
values.AddIndexedArgumentValue(1, DBNull.Value);
Assert.IsFalse(values.Empty, "Added one value, but the collection is sayin' it's empty.");
Assert.AreEqual(1, values.ArgumentCount, "Added one value, but the collection ain't sayin' that it's got a single element in it.");
Assert.AreEqual(1, values.IndexedArgumentValues.Count, "Added one indexed value, but the collection of indexed values ain't sayin' that it's got a single element in it.");
}
public void SunnyDay()
{
StaticApplicationContext ac = new StaticApplicationContext();
MutablePropertyValues pvs = new MutablePropertyValues();
pvs.Add("age", "${age}");
RootObjectDefinition def
= new RootObjectDefinition("${fqn}", new ConstructorArgumentValues(), pvs);
ac.RegisterObjectDefinition("tb3", def);
pvs = new MutablePropertyValues();
pvs.Add("age", "${age}");
pvs.Add("name", "name${var}${");
pvs.Add("spouse", new RuntimeObjectReference("${ref}"));
ac.RegisterSingleton("tb1", typeof(TestObject), pvs);
ConstructorArgumentValues cas = new ConstructorArgumentValues();
cas.AddIndexedArgumentValue(1, "${age}");
cas.AddGenericArgumentValue("${var}name${age}");
pvs = new MutablePropertyValues();
ArrayList friends = new ManagedList();
friends.Add("na${age}me");
friends.Add(new RuntimeObjectReference("${ref}"));
pvs.Add("friends", friends);
ISet someSet = new ManagedSet();
someSet.Add("na${age}me");
someSet.Add(new RuntimeObjectReference("${ref}"));
pvs.Add("someSet", someSet);
IDictionary someDictionary = new ManagedDictionary();
someDictionary["key1"] = new RuntimeObjectReference("${ref}");
someDictionary["key2"] = "${age}name";
MutablePropertyValues innerPvs = new MutablePropertyValues();
someDictionary["key3"] = new RootObjectDefinition(typeof(TestObject), innerPvs);
someDictionary["key4"] = new ChildObjectDefinition("tb1", innerPvs);
pvs.Add("someMap", someDictionary);
RootObjectDefinition definition = new RootObjectDefinition(typeof(TestObject), cas, pvs);
ac.DefaultListableObjectFactory.RegisterObjectDefinition("tb2", definition);
pvs = new MutablePropertyValues();
pvs.Add("Properties", "<spring-config><add key=\"age\" value=\"98\"/><add key=\"var\" value=\"${m}var\"/><add key=\"ref\" value=\"tb2\"/><add key=\"m\" value=\"my\"/><add key=\"fqn\" value=\"Spring.Objects.TestObject, Spring.Core.Tests\"/></spring-config>");
ac.RegisterSingleton("configurer", typeof(PropertyPlaceholderConfigurer), pvs);
ac.Refresh();
TestObject tb1 = (TestObject)ac.GetObject("tb1");
TestObject tb2 = (TestObject)ac.GetObject("tb2");
TestObject tb3 = (TestObject)ac.GetObject("tb3");
Assert.AreEqual(98, tb1.Age);
Assert.AreEqual(98, tb2.Age);
Assert.AreEqual(98, tb3.Age);
Assert.AreEqual("namemyvar${", tb1.Name);
Assert.AreEqual("myvarname98", tb2.Name);
Assert.AreEqual(tb2, tb1.Spouse);
Assert.AreEqual(2, tb2.Friends.Count);
IEnumerator ie = tb2.Friends.GetEnumerator();
ie.MoveNext();
Assert.AreEqual("na98me", ie.Current);
ie.MoveNext();
Assert.AreEqual(tb2, ie.Current);
Assert.AreEqual(2, tb2.SomeSet.Count);
Assert.IsTrue(tb2.SomeSet.Contains("na98me"));
Assert.IsTrue(tb2.SomeSet.Contains(tb2));
Assert.AreEqual(4, tb2.SomeMap.Count);
Assert.AreEqual(tb2, tb2.SomeMap["key1"]);
Assert.AreEqual("98name", tb2.SomeMap["key2"]);
TestObject inner1 = (TestObject)tb2.SomeMap["key3"];
TestObject inner2 = (TestObject)tb2.SomeMap["key4"];
Assert.AreEqual(0, inner1.Age);
Assert.AreEqual(null, inner1.Name);
Assert.AreEqual(98, inner2.Age);
Assert.AreEqual("namemyvar${", inner2.Name);
}
public void SunnyDay()
{
StaticApplicationContext ac = new StaticApplicationContext();
MutablePropertyValues pvs = new MutablePropertyValues();
pvs.Add("age", "${age}");
RootObjectDefinition def
= new RootObjectDefinition("${fqn}", new ConstructorArgumentValues(), pvs);
ac.RegisterObjectDefinition("tb3", def);
pvs = new MutablePropertyValues();
pvs.Add("age", "${age}");
pvs.Add("name", "name${var}${");
pvs.Add("spouse", new RuntimeObjectReference("${ref}"));
ac.RegisterSingleton("tb1", typeof (TestObject), pvs);
ConstructorArgumentValues cas = new ConstructorArgumentValues();
cas.AddIndexedArgumentValue(1, "${age}");
cas.AddGenericArgumentValue("${var}name${age}");
pvs = new MutablePropertyValues();
ArrayList friends = new ManagedList();
friends.Add("na${age}me");
friends.Add(new RuntimeObjectReference("${ref}"));
pvs.Add("friends", friends);
ISet someSet = new ManagedSet();
someSet.Add("na${age}me");
someSet.Add(new RuntimeObjectReference("${ref}"));
pvs.Add("someSet", someSet);
IDictionary someDictionary = new ManagedDictionary();
someDictionary["key1"] = new RuntimeObjectReference("${ref}");
someDictionary["key2"] = "${age}name";
MutablePropertyValues innerPvs = new MutablePropertyValues();
someDictionary["key3"] = new RootObjectDefinition(typeof (TestObject), innerPvs);
someDictionary["key4"] = new ChildObjectDefinition("tb1", innerPvs);
pvs.Add("someMap", someDictionary);
RootObjectDefinition definition = new RootObjectDefinition(typeof (TestObject), cas, pvs);
ac.DefaultListableObjectFactory.RegisterObjectDefinition("tb2", definition);
pvs = new MutablePropertyValues();
pvs.Add("Properties", "<spring-config><add key=\"age\" value=\"98\"/><add key=\"var\" value=\"${m}var\"/><add key=\"ref\" value=\"tb2\"/><add key=\"m\" value=\"my\"/><add key=\"fqn\" value=\"Spring.Objects.TestObject, Spring.Core.Tests\"/></spring-config>");
ac.RegisterSingleton("configurer", typeof (PropertyPlaceholderConfigurer), pvs);
ac.Refresh();
TestObject tb1 = (TestObject) ac.GetObject("tb1");
TestObject tb2 = (TestObject) ac.GetObject("tb2");
TestObject tb3 = (TestObject) ac.GetObject("tb3");
Assert.AreEqual(98, tb1.Age);
Assert.AreEqual(98, tb2.Age);
Assert.AreEqual(98, tb3.Age);
Assert.AreEqual("namemyvar${", tb1.Name);
Assert.AreEqual("myvarname98", tb2.Name);
Assert.AreEqual(tb2, tb1.Spouse);
Assert.AreEqual(2, tb2.Friends.Count);
IEnumerator ie = tb2.Friends.GetEnumerator();
ie.MoveNext();
Assert.AreEqual("na98me", ie.Current);
ie.MoveNext();
Assert.AreEqual(tb2, ie.Current);
Assert.AreEqual(2, tb2.SomeSet.Count);
Assert.IsTrue(tb2.SomeSet.Contains("na98me"));
Assert.IsTrue(tb2.SomeSet.Contains(tb2));
Assert.AreEqual(4, tb2.SomeMap.Count);
Assert.AreEqual(tb2, tb2.SomeMap["key1"]);
Assert.AreEqual("98name", tb2.SomeMap["key2"]);
TestObject inner1 = (TestObject) tb2.SomeMap["key3"];
TestObject inner2 = (TestObject) tb2.SomeMap["key4"];
Assert.AreEqual(0, inner1.Age);
Assert.AreEqual(null, inner1.Name);
Assert.AreEqual(98, inner2.Age);
Assert.AreEqual("namemyvar${", inner2.Name);
}
public void GetArgumentValueIgnoresAlreadyUsedValues()
{
ISet used = new ListSet();
ConstructorArgumentValues values = new ConstructorArgumentValues();
values.AddGenericArgumentValue(1);
values.AddNamedArgumentValue("2", 2);
values.AddIndexedArgumentValue(3, 3);
Type intType = typeof (int);
ConstructorArgumentValues.ValueHolder one = values.GetArgumentValue(10, string.Empty, intType, used);
Assert.AreEqual(1, one.Value);
used.Add(one);
ConstructorArgumentValues.ValueHolder two = values.GetArgumentValue(10, "2", intType, used);
Assert.AreEqual(2, two.Value);
used.Add(two);
ConstructorArgumentValues.ValueHolder three = values.GetArgumentValue(3, string.Empty, intType, used);
Assert.AreEqual(3, three.Value);
used.Add(three);
ConstructorArgumentValues.ValueHolder four = values.GetArgumentValue(10, string.Empty, intType, used);
Assert.IsNull(four);
}
public void AddRangeOfIndexedArgumentValues()
{
ConstructorArgumentValues values = new ConstructorArgumentValues();
values.AddIndexedArgumentValue(1, DBNull.Value);
values.AddIndexedArgumentValue(2, "Foo");
values.AddIndexedArgumentValue(3, 3);
new ConstructorArgumentValues(values);
Assert.IsFalse(values.Empty, "Added three indexed values(as a range), but the collection is sayin' it's empty.");
Assert.AreEqual(3, values.ArgumentCount, "Added three indexed values(as a range), but the collection ain't sayin' that it's got 3 elements in it.");
Assert.AreEqual(3, values.IndexedArgumentValues.Count, "Added three indexed values(as a range), but the collection of indexed values ain't sayin' that it's got 3 elements in it.");
}
public void AddAllFromOther()
{
ConstructorArgumentValues other = new ConstructorArgumentValues();
other.AddIndexedArgumentValue(1, DBNull.Value);
other.AddIndexedArgumentValue(2, "Foo");
other.AddIndexedArgumentValue(3, 3);
ConstructorArgumentValues values = new ConstructorArgumentValues();
values.AddAll(other);
Assert.AreEqual(other.ArgumentCount, values.ArgumentCount,
"Must have been the same since one was filled up with the values in the other.");
}
