internal static CallPattern FromMethodBase(MocksRepository repository, object instance, MethodBase method, object[] arguments)
{
var callPattern = new CallPattern
{
InstanceMatcher =
method.IsStatic ? new ReferenceMatcher(null)
: instance == null ? (IMatcher) new AnyMatcher()
: new ReferenceMatcher(instance),
};
callPattern.SetMethod(method, checkCompatibility: true);
using (repository != null ? repository.StartArrangeArgMatching() : null)
{
var parameters = method.GetParameters();
if (arguments == null || arguments.Length == 0)
{
callPattern.ArgumentMatchers.AddRange(method.GetParameters().Select(p => (IMatcher) new TypeMatcher(p.ParameterType)));
}
else
{
if (arguments.Length != method.GetParameters().Length)
{
throw new MockException("Argument count mismatch.");
}
callPattern.ArgumentMatchers.AddRange(arguments.Select(arg => MocksRepository.CreateMatcherForArgument(arg)));
}
}
callPattern.AdjustForExtensionMethod();
return(callPattern);
}
internal static CallPattern CreateUniversalCallPattern(MethodBase method)
{
var result = new CallPattern();
result.SetMethod(method, checkCompatibility: true);
result.InstanceMatcher = new AnyMatcher();
result.ArgumentMatchers.AddRange(Enumerable.Repeat((IMatcher) new AnyMatcher(), method.GetParameters().Length));
result.AdjustForExtensionMethod();
return(result);
}
internal CallPattern Clone()
{
var newCallPattern = new CallPattern();
newCallPattern.method = this.method;
newCallPattern.InstanceMatcher = this.InstanceMatcher;
for (int i = 0; i < this.ArgumentMatchers.Count; i++)
{
newCallPattern.ArgumentMatchers.Add(this.ArgumentMatchers[i]);
}
return(newCallPattern);
}
internal static CallPattern FromInvocation(Invocation invocation)
{
CallPattern callPattern = new CallPattern();
callPattern.SetMethod(invocation.Method, checkCompatibility: false);
callPattern.InstanceMatcher = new ReferenceMatcher(invocation.Instance);
foreach (var argument in invocation.Args)
{
callPattern.ArgumentMatchers.Add(new ValueMatcher(argument));
}
callPattern.AdjustForExtensionMethod();
return(callPattern);
}
internal static CallPattern FromAction(MocksRepository repository, Action memberAction, bool dispatchToMethodMocks = false)
{
var callPattern = new CallPattern();
Invocation lastInvocation = null;
var recorder = new DelegatingRecorder();
recorder.Record += invocation => lastInvocation = invocation;
using (repository.StartRecording(recorder, dispatchToMethodMocks))
{
memberAction();
}
if (lastInvocation == null)
{
throw new MockException("The specified action did not call a mocked method.");
}
callPattern.SetMethod(lastInvocation.Method, checkCompatibility: true);
callPattern.InstanceMatcher = new ReferenceMatcher(lastInvocation.Instance);
// Because it's impossible to distinguish between a literal value passed as an argument and
// one coming from a matcher, it is impossible to tell exactly which arguments are literal and which are matchers.
// So, we assume that the user always first specifies some literal values, and then some matchers.
// We assume that the user will never pass a literal after a matcher.
using (repository.StartArrangeArgMatching())
{
for (int i = 0; i < lastInvocation.Args.Length; ++i)
{
var indexInMatchers = i - (lastInvocation.Args.Length - repository.MatchersInContext.Count);
var matcher = indexInMatchers >= 0 ? repository.MatchersInContext[indexInMatchers] : new ValueMatcher(lastInvocation.Args[i]);
callPattern.ArgumentMatchers.Add(matcher);
}
}
repository.MatchersInContext.Clear();
callPattern.AdjustForExtensionMethod();
return(callPattern);
}
internal static CallPattern FromExpression(MocksRepository repository, Expression expr)
{
var callPattern = new CallPattern();
expr = ((LambdaExpression)expr).Body;
// the expression may end with a boxing conversion, remove that
while (expr.NodeType == ExpressionType.Convert)
{
expr = ((UnaryExpression)expr).Operand;
}
Expression target;
MethodBase method = null;
Expression[] args;
// We're parsing either a property/field expression or a method call.
// parse the top of the expression tree and extract the expressions
// that will turn into the constituents of the call pattern.
if (expr is MemberExpression)
{
var memberExpr = (MemberExpression)expr;
if (!(memberExpr.Member is PropertyInfo))
{
throw new MockException("Fields cannot be mocked, only properties.");
}
var property = (PropertyInfo)memberExpr.Member;
target = memberExpr.Expression;
method = property.GetGetMethod(true);
args = null;
}
else if (expr is MethodCallExpression)
{
var methodCall = (MethodCallExpression)expr;
method = methodCall.Method;
target = methodCall.Object;
args = methodCall.Arguments.ToArray();
if (target != null && !target.Type.IsInterface && !target.Type.IsProxy() && target.Type != method.DeclaringType)
{
method = MockingUtil.GetConcreteImplementer((MethodInfo)method, target.Type);
}
}
else if (expr is NewExpression)
{
#if !PORTABLE
if (ProfilerInterceptor.IsReJitEnabled)
{
throw new MockException("Mocking the new operator is not avaiable with OnDemand option enabled. Please use .IgnoreInstance()");
}
#endif
var newExpr = (NewExpression)expr;
method = newExpr.Constructor;
if (method == null && newExpr.Type.IsValueType)
{
throw new MockException("Empty constructor of value type is not associated with runnable code and cannot be intercepted.");
}
target = null;
args = newExpr.Arguments.ToArray();
}
else if (expr is InvocationExpression)
{
var invocation = (InvocationExpression)expr;
target = invocation.Expression;
args = invocation.Arguments.ToArray();
}
else if (expr.NodeType == ExpressionType.Assign)
{
var binary = (BinaryExpression)expr;
if (binary.Left is MemberExpression)
{
MemberExpression memberExpr = (MemberExpression)binary.Left;
if (!(memberExpr.Member is PropertyInfo))
{
throw new MockException("Fields cannot be mocked, only properties.");
}
var property = (PropertyInfo)memberExpr.Member;
target = memberExpr.Expression;
method = property.GetSetMethod(true);
args = new[] { binary.Right };
}
else if (binary.Left is IndexExpression)
{
IndexExpression indexExpr = (IndexExpression)binary.Left;
target = indexExpr.Object;
method = indexExpr.Indexer.GetSetMethod(true);
args = indexExpr.Arguments.Concat(new[] { binary.Right }).ToArray();
}
else
{
throw new MockException("Left-hand of assignment is not a member or indexer.");
}
}
else if (expr is IndexExpression)
{
var index = (IndexExpression)expr;
target = index.Object;
var property = index.Indexer;
method = property.GetGetMethod(true);
args = index.Arguments.ToArray();
}
else
{
throw new MockException("The expression does not represent a method call, property access, new expression or a delegate invocation.");
}
// Create the matcher for the instance part of the call pattern.
// If the base of the target expression is a new expression (new T()),
// or null (e.g. (null as T) or ((T) null)), then use AnyMatcher for the instance part,
// otherwise evaluate the instance expression and use a value matcher with the evaluated result.
var rootTarget = expr;
Expression prevToRoot = null;
while (true)
{
var memberExpr = rootTarget as MemberExpression;
if (memberExpr != null && memberExpr.Expression != null && memberExpr.Member is PropertyInfo)
{
prevToRoot = rootTarget;
rootTarget = memberExpr.Expression;
continue;
}
var callExpr = rootTarget as MethodCallExpression;
if (callExpr != null && callExpr.Object != null)
{
prevToRoot = rootTarget;
rootTarget = callExpr.Object;
continue;
}
if (rootTarget != null && (rootTarget.NodeType == ExpressionType.Convert || rootTarget.NodeType == ExpressionType.TypeAs))
{
rootTarget = ((UnaryExpression)rootTarget).Operand;
continue;
}
if (rootTarget is InvocationExpression)
{
prevToRoot = rootTarget;
rootTarget = ((InvocationExpression)rootTarget).Expression;
continue;
}
if (rootTarget is BinaryExpression)
{
prevToRoot = rootTarget;
rootTarget = ((BinaryExpression)rootTarget).Left;
continue;
}
if (rootTarget is IndexExpression)
{
prevToRoot = rootTarget;
rootTarget = ((IndexExpression)rootTarget).Object;
continue;
}
break;
}
object targetMockObject = null;
Type targetMockType = null;
bool isStatic = false;
var rootMatcher = MocksRepository.TryCreateMatcherFromArgMember(rootTarget);
if (rootMatcher != null)
{
callPattern.InstanceMatcher = rootMatcher;
}
else if (rootTarget is MemberExpression)
{
var memberExpr = (MemberExpression)rootTarget;
targetMockObject = memberExpr.Member is FieldInfo?memberExpr.EvaluateExpression()
: memberExpr.Expression != null?memberExpr.Expression.EvaluateExpression()
: null;
targetMockType = memberExpr.Member is FieldInfo ? memberExpr.Type : memberExpr.Member.DeclaringType;
var asPropertyInfo = memberExpr.Member as PropertyInfo;
isStatic = asPropertyInfo != null
? (asPropertyInfo.GetGetMethod(true) ?? asPropertyInfo.GetSetMethod(true)).IsStatic
: false;
}
else if (rootTarget is MethodCallExpression)
{
var methodCallExpr = (MethodCallExpression)rootTarget;
targetMockObject = methodCallExpr.Object != null?methodCallExpr.Object.EvaluateExpression() : null;
targetMockType = methodCallExpr.Method.DeclaringType;
isStatic = methodCallExpr.Method.IsStatic;
}
else if (rootTarget is NewExpression)
{
callPattern.InstanceMatcher = new AnyMatcher();
}
else if (rootTarget is ConstantExpression)
{
var constant = (ConstantExpression)rootTarget;
if (constant.Value == null)
{
callPattern.InstanceMatcher = new AnyMatcher();
}
else
{
if (constant.Type.IsCompilerGenerated() && prevToRoot != null && prevToRoot.Type != typeof(void))
{
targetMockObject = prevToRoot.EvaluateExpression();
targetMockType = prevToRoot.Type;
}
else
{
targetMockObject = constant.Value;
targetMockType = constant.Type;
}
}
}
if (targetMockObject != null)
{
targetMockType = targetMockObject.GetType();
}
if (callPattern.InstanceMatcher != null && prevToRoot != expr && prevToRoot != null)
{
throw new MockException("Using a matcher for the root member together with recursive mocking is not supported. Arrange the property or method of the root member in a separate statement.");
}
if (callPattern.InstanceMatcher == null)
{
// TODO: implicit creation of mock mixins shouldn't explicitly refer to behaviors, but
// should get them from some configuration made outside the Core.
Debug.Assert(targetMockObject != null || targetMockType != null);
MockingUtil.UnwrapDelegateTarget(ref targetMockObject);
var mixin = MocksRepository.GetMockMixin(targetMockObject, targetMockType);
if (mixin == null)
{
if (isStatic)
{
MockCreationSettings settings = MockCreationSettings.GetSettings(Behavior.CallOriginal);
repository.InterceptStatics(targetMockType, settings, false);
}
else if (targetMockObject != null)
{
MockCreationSettings settings = MockCreationSettings.GetSettings(Behavior.CallOriginal);
repository.CreateExternalMockMixin(targetMockType, targetMockObject, settings);
}
}
var targetValue = target != null?target.EvaluateExpression() : null;
var delgMethod = MockingUtil.UnwrapDelegateTarget(ref targetValue);
if (delgMethod != null)
{
method = delgMethod.GetInheritanceChain().First(m => !m.DeclaringType.IsProxy());
}
callPattern.InstanceMatcher = new ReferenceMatcher(targetValue);
}
// now we have the method part of the call pattern
Debug.Assert(method != null);
callPattern.SetMethod(method, checkCompatibility: true);
//Finally, construct the arguments part of the call pattern.
using (repository.StartArrangeArgMatching())
{
bool hasParams = false;
bool hasSingleValueInParams = false;
if (args != null && args.Length > 0)
{
var lastParameter = method.GetParameters().Last();
if (Attribute.IsDefined(lastParameter, typeof(ParamArrayAttribute)) && args.Last() is NewArrayExpression)
{
hasParams = true;
var paramsArg = (NewArrayExpression)args.Last();
args = args.Take(args.Length - 1).Concat(paramsArg.Expressions).ToArray();
if (paramsArg.Expressions.Count == 1)
{
hasSingleValueInParams = true;
}
}
foreach (var argument in args)
{
callPattern.ArgumentMatchers.Add(MocksRepository.CreateMatcherForArgument(argument));
}
if (hasParams)
{
int paramsCount = method.GetParameters().Count();
if (hasSingleValueInParams)
{
IMatcher matcher = callPattern.ArgumentMatchers[paramsCount - 1];
ITypedMatcher typeMatcher = matcher as ITypedMatcher;
if (typeMatcher != null && typeMatcher.Type != method.GetParameters().Last().ParameterType)
{
callPattern.ArgumentMatchers[paramsCount - 1] = new ParamsMatcher(new IMatcher[] { matcher });
}
}
else
{
IEnumerable <IMatcher> paramMatchers = callPattern.ArgumentMatchers.Skip(paramsCount - 1).Take(callPattern.ArgumentMatchers.Count - paramsCount + 1);
callPattern.ArgumentMatchers = callPattern.ArgumentMatchers.Take(paramsCount - 1).ToList();
callPattern.ArgumentMatchers.Add(new ParamsMatcher(paramMatchers.ToArray()));
}
}
}
}
MethodBase methodFromCallPattern = repository.GetMethodFromCallPattern(callPattern);
callPattern.AdjustForExtensionMethod();
callPattern.SetMethod(methodFromCallPattern, checkCompatibility: false);
return(callPattern);
}
internal static CallPattern CreateUniversalCallPattern(MethodBase method)
{
var result = new CallPattern();
result.SetMethod(method, checkCompatibility: true);
result.InstanceMatcher = new AnyMatcher();
result.ArgumentMatchers.AddRange(Enumerable.Repeat((IMatcher)new AnyMatcher(), method.GetParameters().Length));
result.AdjustForExtensionMethod();
return result;
}
internal CallPattern Clone()
{
var newCallPattern = new CallPattern();
newCallPattern.method = this.method;
newCallPattern.InstanceMatcher = this.InstanceMatcher;
for (int i = 0; i < this.ArgumentMatchers.Count; i++)
{
newCallPattern.ArgumentMatchers.Add(this.ArgumentMatchers[i]);
}
return newCallPattern;
}
