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Deep Null checking, is there a better way?
for example, if you are performing a logic on Foo1.Bar1.Foo2.Bar2 (and each of the properties can be null), you can't just do that to foo.Bar1.Foo2.Bar2 because it is possible that you get null reference exception
Currently this is what I do
if (foo1!=null && foo1.Bar1!=null && foo1.Bar1.Foo2 !=null && foo1.Bar1.Foo2.Bar2!=null)
return DoStuff(foo1.Bar1.Foo2.Bar2); //actually a logic based on the value of Bar2
else return null;
Is there a more elegant or convenient way, to do this?
No, there isn't.
The only thing that might help, is to evaluate if DoStuff is actually defined in the right class.
No, unfortunately there isn't. I too have often wished for a simpler syntax!
However, here's a pretty decent alternative that I came up with: create an Null-Safe-Chain helper method. Here's what it looks like:
var bar2 = NullSafe.Chain(foo1, f1=>f1.Bar1, b1=>b1.Foo2, f2=>f2.Bar2);
Here's the method:
public static TResult Chain<TA,TB,TC,TResult>(TA a, Func<TA,TB> b, Func<TB,TC> c, Func<TC,TResult> r)
where TA:class where TB:class where TC:class {
if (a == null) return default(TResult);
var B = b(a);
if (B == null) return default(TResult);
var C = c(B);
if (C == null) return default(TResult);
return r(C);
}
I also created a bunch of overloads (with 2 to 6 parameters). This works really well for me!
this extention method work but is not cool code or may be can improve it:
public static bool AnyNull<TSource, TResult>(this TSource source, Func<TSource, TResult> selector)
{
try
{
selector(source);
return false; ;
}
catch { return true; }
}
use it:
if(!foo1.AnyNull(p=>p.Bar1.Foo2.Bar2))
DoStuff(foo1.Bar1.Foo2.Bar2)
void MyMethod(string something, params object[] parameters)
{
foreach (object parameter in parameters)
{
// Get the name of each passed parameter
}
}
For example, if I call the method in the following way, I want to get the names "myFirstParam" and "anotherParam".
string myFirstParam = "some kind of text";
string anotherParam = 42;
MyMethod("test", myFirstParam, anotherParam);
Perhaps reflection is the answer? Perhaps it's just not possible? I am aware of the existance of this question, but that solution won't work here.
(Please do not respond with "This is not a good idea". That is not my question.)
This is totally impossible.
Here are just a few cases where it doesn't even make sense:
MyMethod("abc", new object[5]);
MyMethod("abc", "def");
MyMethod("abc", var1 + var2);
MyMethod("abc", SomeMethod());
MyMethod("abc", b ? a : c);
MyMethod("abc", new object());
MyMethod("abc", null);
In fact, local variable names aren't even compiled into the assembly.
Building on #shingo's answer.
Since C#10, you can get the name of the variable passed using CallerArgumentExpressionAttribute Class.
This is .NET6:
using System.Runtime.CompilerServices;
void F(object arg1, [CallerArgumentExpression("arg1")] string arg1Exp = "?")
=> Console.WriteLine($"{arg1Exp} => {arg1}");
var var1 = "C#10";
var var2 = "_";
var b = var1.Length > 7;
F(var1);
F(new object[5]);
F("def");
F(var1 + var2);
F(SomeMethod());
F(b ? var1 : var2);
F(new object());
F(null);
F(int.Parse(var1.Substring(2)) switch {
>= 10 => "Supported",
_ => "Not supported"
});
int SomeMethod() => 7 + 8;
Output (which seems magical):
var1 => C#10
new object[5] => System.Object[]
"def" => def
var1 + var2 => C#10_
SomeMethod() => 15
b ? var1 : var2 => _
new object() => System.Object
null =>
int.Parse(var1.Substring(2)) switch {
>= 10 => "Supported",
_ => "Not supported"
} => Supported
C# 10 has introduced a new attribute CallerArgumentExpressionAttribute.
Getting names from params parameters is still impossible, but if you have fixed number of parameters (like overload methods), then it's possible.
void MyMethod(object p0,
[CallerArgumentExpression("p0") string p0exp = "p0")
{
Console.WriteLine(p0exp);
}
void MyMethod(object p0, object p1,
[CallerArgumentExpression("p0") string p0exp = "p0",
[CallerArgumentExpression("p1") string p1exp = "p1")
{
}
In addition to SLaks's answer - variable names are not available at run-time at all. The variables are represented by stack slots and are addressed by an index. Thus you can't get this information even for the example you provided, not to mention all these examples SLaks provided. Reflection is no help here. Nothing is.
It is not possible, and I wonder why you would need that.
I RAISE THIS QUESTION FROM THE DEAD!
Check out C# 6.0's new nameof() operator. It allows you to do exactly what you want, and it actually isn't always a bad idea.
A good use case is Argument Exceptions, or INotifyPropertyChanged. (Especially when you get inheritance in the mix)
Example:
interface IFooBar
{
void Foo(object bar);
}
public class FooBar : IFooBar
{
public void Foo(object bar)
{
if(bar == null)
{
//Old and Busted
//throw new ArgumentException("bar");
//The new HOTNESS
throw new ArgumentException(nameof(bar)); // nameof(bar) returns "bar"
}
//....
}
}
Now, if you were rename the parameter 'bar' on the method 'Foo' in the interface IFooBar, your argument exceptions would update accordingly (prevents you from forgetting to change the "bar" string)
Pretty neat actually!
What about this;
void MyMethod(string something, object parameters)
{
RouteValueDictionary dic = HtmlHelper.AnonymousObjectToHtmlAttributes(options);
}
MyMethod("test", new { #myFirstParam=""some kind of text", anotherParam=42);
This has already been implemented in System.Web.MVC.Html InputExtension.
I was inspired and using this technique in my code.
It is very flexible.
Dont bother about "Html" naming in the helper methods. There is nothing to do with html, or html attributes inside the helper method.
It just converts named, anonymous arguments to RouteValueDictionary, a special dictionary having IDictionary<string,object> interface where key holds the argument name and object is the value of the argument.
Using reflection, and #Martin's example of null argument testing:
using System.Reflection;
public SomeMethod(ClassA a, ClassB b, ClassC c)
{
CheckNullParams(MethodBase.GetCurrentMethod(), a, b, c);
// do something here
}
accessing the parameter names:
public void CheckNullParams(MethodBase method, params object[] args)
{
for (var i=0; i < args.Count(); i++)
{
if (args[i] == null)
{
throw new ArgumentNullException(method.GetParameters()[i].Name);
}
}
}
This works with constructors and public methods, but I haven't tested beyond unit tests within VS, so possibly there are some runtime JIT issues (reading through articles referenced above).
EDIT: Just noticed, this is essentially the same as linked answer.
I've ran into an issue where code classes outside of my control use strings that are null so when they become referenced for example, "string.Length", causes an error. Rather than write a check for the possible 100 fields on average, with nested classes, I thought maybe I could create something easier. I had an idea...
If you've done any research into copying objects PropertyCopy, along with a few others, is an extremely common find. I currently use the class mentioned above. I was wondering if it could be modified to simply go:
if stringPropertyValue is null then set stringPropertyValue equal to string.Empty.
My understanding is limited. I've been doing research to solve my issue but no real good ideas. Can my idea work? Is there a better way? How would it be done if it could?
Update:
Based on a response below I have created this class which I am currently going to use.
public static void DenullifyStringsToEmpty<T>(this T instance)
{
//handle properties
foreach (var filteredProperties in instance.GetType().GetProperties().Where(p =>
(p.PropertyType.IsClass || p.PropertyType.IsInterface || p.PropertyType == typeof(string))))
{
if (filteredProperties.PropertyType == typeof(string))
{
if (filteredProperties.GetValue(instance, null) == null)
{
filteredProperties.SetValue(instance, string.Empty, null);
}
}
else
{
filteredProperties.GetValue(instance, null).DenullifyStringsToEmpty();
}
}
//handle fields
foreach (var filteredFields in instance.GetType().GetFields().Where(f =>
(f.FieldType.IsClass || f.FieldType.IsInterface || f.FieldType == typeof(string))))
{
if (filteredFields.FieldType == typeof(string))
{
if (filteredFields.GetValue(instance) == null)
{
filteredFields.SetValue(instance, string.Empty);
}
}
else
{
filteredFields.GetValue(instance).DenullifyStringsToEmpty();
}
}
}
I know that reflection can be heavy and until we have an issue I think this solution will work great. This is an extension (thanks to the comments below).
Thanks for the input.
Couldn't you just create a simple extension method?
public static string NullToEmpty(this string possibleNullString)
{
return possibleNullString ?? string.Empty;
}
Use this, when accessing the string properties of that third party classes, e.g.:
var length = instanceOfThirdPartyClass.StringProperty.NullToEmpty().Length;
Update:
Now that I understand what you want ;-)
Have a look at this:
public static void DenullStringProperties<T>(this T instance)
{
foreach(var propertyInfo in instance.GetType().GetProperties().
Where(p => p.PropertyType == typeof(string))
{
var value = propertyInfo.GetValue(instance, null);
if(value == null)
value = string.Empty;
propertyInfo.SetValue(instance, value, null);
}
}
You could call it like this:
instanceOfThirdPartyClass.DenullStringProperties();
But I still think you should go with the first approach, because I really don't see a reason to do such heavy lifting during runtime (reflection isn't cheap), just because you are lazy about typing during development :) Additionally, you can't be sure that the properties will stay non null after you have called DenullStringProperties (multi-threading, calls to methods of the object, ...). The first approach checks for null and handles it just as it is needed.
Note: This question was asked before the introduction of the .? operator in C# 6 / Visual Studio 2015.
We've all been there, we have some deep property like cake.frosting.berries.loader that we need to check if it's null so there's no exception. The way to do is is to use a short-circuiting if statement
if (cake != null && cake.frosting != null && cake.frosting.berries != null) ...
This is not exactly elegant, and there should perhaps be an easier way to check the entire chain and see if it comes up against a null variable/property.
Is it possible using some extension method or would it be a language feature, or is it just a bad idea?
We have considered adding a new operation "?." to the language that has the semantics you want. (And it has been added now; see below.) That is, you'd say
cake?.frosting?.berries?.loader
and the compiler would generate all the short-circuiting checks for you.
It didn't make the bar for C# 4. Perhaps for a hypothetical future version of the language.
Update (2014):
The ?. operator is now planned for the next Roslyn compiler release. Note that there is still some debate over the exact syntactic and semantic analysis of the operator.
Update (July 2015): Visual Studio 2015 has been released and ships with a C# compiler that supports the null-conditional operators ?. and ?[].
I got inspired by this question to try and find out how this kind of deep null checking can be done with an easier / prettier syntax using expression trees. While I do agree with the answers stating that it might be a bad design if you often need to access instances deep in the hierarchy, I also do think that in some cases, such as data presentation, it can be very useful.
So I created an extension method, that will allow you to write:
var berries = cake.IfNotNull(c => c.Frosting.Berries);
This will return the Berries if no part of the expression is null. If null is encountered, null is returned. There are some caveats though, in the current version it will only work with simple member access, and it only works on .NET Framework 4, because it uses the MemberExpression.Update method, which is new in v4. This is the code for the IfNotNull extension method:
using System;
using System.Collections.Generic;
using System.Linq.Expressions;
namespace dr.IfNotNullOperator.PoC
{
public static class ObjectExtensions
{
public static TResult IfNotNull<TArg,TResult>(this TArg arg, Expression<Func<TArg,TResult>> expression)
{
if (expression == null)
throw new ArgumentNullException("expression");
if (ReferenceEquals(arg, null))
return default(TResult);
var stack = new Stack<MemberExpression>();
var expr = expression.Body as MemberExpression;
while(expr != null)
{
stack.Push(expr);
expr = expr.Expression as MemberExpression;
}
if (stack.Count == 0 || !(stack.Peek().Expression is ParameterExpression))
throw new ApplicationException(String.Format("The expression '{0}' contains unsupported constructs.",
expression));
object a = arg;
while(stack.Count > 0)
{
expr = stack.Pop();
var p = expr.Expression as ParameterExpression;
if (p == null)
{
p = Expression.Parameter(a.GetType(), "x");
expr = expr.Update(p);
}
var lambda = Expression.Lambda(expr, p);
Delegate t = lambda.Compile();
a = t.DynamicInvoke(a);
if (ReferenceEquals(a, null))
return default(TResult);
}
return (TResult)a;
}
}
}
It works by examining the expression tree representing your expression, and evaluating the parts one after the other; each time checking that the result is not null.
I am sure this could be extended so that other expressions than MemberExpression is supported. Consider this as proof-of-concept code, and please keep in mind that there will be a performance penalty by using it (which will probably not matter in many cases, but don't use it in a tight loop :-) )
I've found this extension to be quite useful for deep nesting scenarios.
public static R Coal<T, R>(this T obj, Func<T, R> f)
where T : class
{
return obj != null ? f(obj) : default(R);
}
It's an idea I derrived from the null coalescing operator in C# and T-SQL. The nice thing is that the return type is always the return type of the inner property.
That way you can do this:
var berries = cake.Coal(x => x.frosting).Coal(x => x.berries);
...or a slight variation of the above:
var berries = cake.Coal(x => x.frosting, x => x.berries);
It's not the best syntax I know, but it does work.
Besides violating the Law of Demeter, as Mehrdad Afshari has already pointed out, it seems to me you need "deep null checking" for decision logic.
This is most often the case when you want to replace empty objects with default values. In this case you should consider implementing the Null Object Pattern. It acts as a stand-in for a real object, providing default values and "non-action" methods.
Update: Starting with Visual Studio 2015, the C# compiler (language version 6) now recognizes the ?. operator, which makes "deep null checking" a breeze. See this answer for details.
Apart from re-designing your code, like
this deleted answer suggested,
another (albeit terrible) option would be to use a try…catch block to see if a NullReferenceException occurs sometime during that deep property lookup.
try
{
var x = cake.frosting.berries.loader;
...
}
catch (NullReferenceException ex)
{
// either one of cake, frosting, or berries was null
...
}
I personally wouldn't do this for the following reasons:
It doesn't look nice.
It uses exception handling, which should target exceptional situations and not something that you expect to happen often during the normal course of operation.
NullReferenceExceptions should probably never be caught explicitly. (See this question.)
So is it possible using some extension method or would it be a language feature, [...]
This would almost certainly have to be a language feature (which is available in C# 6 in the form of the .? and ?[] operators), unless C# already had more sophisticated lazy evaluation, or unless you want to use reflection (which probably also isn't a good idea for reasons of performance and type-safety).
Since there's no way to simply pass cake.frosting.berries.loader to a function (it would be evaluated and throw a null reference exception), you would have to implement a general look-up method in the following way: It takes in an objects and the names of properties to look up:
static object LookupProperty( object startingPoint, params string[] lookupChain )
{
// 1. if 'startingPoint' is null, return null, or throw an exception.
// 2. recursively look up one property/field after the other from 'lookupChain',
// using reflection.
// 3. if one lookup is not possible, return null, or throw an exception.
// 3. return the last property/field's value.
}
...
var x = LookupProperty( cake, "frosting", "berries", "loader" );
(Note: code edited.)
You quickly see several problems with such an approach. First, you don't get any type safety and possible boxing of property values of a simple type. Second, you can either return null if something goes wrong, and you will have to check for this in your calling function, or you throw an exception, and you're back to where you started. Third, it might be slow. Fourth, it looks uglier than what you started with.
[...], or is it just a bad idea?
I'd either stay with:
if (cake != null && cake.frosting != null && ...) ...
or go with the above answer by Mehrdad Afshari.
P.S.: Back when I wrote this answer, I obviously didn't consider expression trees for lambda functions; see e.g. #driis' answer for a solution in this direction. It's also based on a kind of reflection and thus might not perform quite as well as a simpler solution (if (… != null & … != null) …), but it may be judged nicer from a syntax point-of-view.
While driis' answer is interesting, I think it's a bit too expensive performance wise. Rather than compiling many delegates, I'd prefer to compile one lambda per property path, cache it and then reinvoke it many types.
NullCoalesce below does just that, it returns a new lambda expression with null checks and a return of default(TResult) in case any path is null.
Example:
NullCoalesce((Process p) => p.StartInfo.FileName)
Will return an expression
(Process p) => (p != null && p.StartInfo != null ? p.StartInfo.FileName : default(string));
Code:
static void Main(string[] args)
{
var converted = NullCoalesce((MethodInfo p) => p.DeclaringType.Assembly.Evidence.Locked);
var converted2 = NullCoalesce((string[] s) => s.Length);
}
private static Expression<Func<TSource, TResult>> NullCoalesce<TSource, TResult>(Expression<Func<TSource, TResult>> lambdaExpression)
{
var test = GetTest(lambdaExpression.Body);
if (test != null)
{
return Expression.Lambda<Func<TSource, TResult>>(
Expression.Condition(
test,
lambdaExpression.Body,
Expression.Default(
typeof(TResult)
)
),
lambdaExpression.Parameters
);
}
return lambdaExpression;
}
private static Expression GetTest(Expression expression)
{
Expression container;
switch (expression.NodeType)
{
case ExpressionType.ArrayLength:
container = ((UnaryExpression)expression).Operand;
break;
case ExpressionType.MemberAccess:
if ((container = ((MemberExpression)expression).Expression) == null)
{
return null;
}
break;
default:
return null;
}
var baseTest = GetTest(container);
if (!container.Type.IsValueType)
{
var containerNotNull = Expression.NotEqual(
container,
Expression.Default(
container.Type
)
);
return (baseTest == null ?
containerNotNull :
Expression.AndAlso(
baseTest,
containerNotNull
)
);
}
return baseTest;
}
One option is to use the Null Object Patten, so instead of having null when you don’t have a cake, you have a NullCake that returns a NullFosting etc. Sorry I am not very good at explaining this but other people are, see
An example of the Null Object Patten usage
The wikipedai write up on the Null Object Patten
I too have often wished for a simpler syntax! It gets especially ugly when you have method-return-values that might be null, because then you need extra variables (for example: cake.frosting.flavors.FirstOrDefault().loader)
However, here's a pretty decent alternative that I use: create an Null-Safe-Chain helper method. I realize that this is pretty similar to #John's answer above (with the Coal extension method) but I find it's more straightforward and less typing. Here's what it looks like:
var loader = NullSafe.Chain(cake, c=>c.frosting, f=>f.berries, b=>b.loader);
Here's the implementation:
public static TResult Chain<TA,TB,TC,TResult>(TA a, Func<TA,TB> b, Func<TB,TC> c, Func<TC,TResult> r)
where TA:class where TB:class where TC:class {
if (a == null) return default(TResult);
var B = b(a);
if (B == null) return default(TResult);
var C = c(B);
if (C == null) return default(TResult);
return r(C);
}
I also created several overloads (with 2 to 6 parameters), as well as overloads that allow the chain to end with a value-type or default. This works really well for me!
There is Maybe codeplex project that Implements
Maybe or IfNotNull using lambdas for deep expressions in C#
Example of use:
int? CityId= employee.Maybe(e=>e.Person.Address.City);
The link was suggested in a similar question How to check for nulls in a deep lambda expression?
As suggested in John Leidegren's answer, one approach to work-around this is to use extension methods and delegates. Using them could look something like this:
int? numberOfBerries = cake
.NullOr(c => c.Frosting)
.NullOr(f => f.Berries)
.NullOr(b => b.Count());
The implementation is messy because you need to get it to work for value types, reference types and nullable value types. You can find a complete implementation in Timwi's answer to What is the proper way to check for null values?.
Or you may use reflection :)
Reflection function:
public Object GetPropValue(String name, Object obj)
{
foreach (String part in name.Split('.'))
{
if (obj == null) { return null; }
Type type = obj.GetType();
PropertyInfo info = type.GetProperty(part);
if (info == null) { return null; }
obj = info.GetValue(obj, null);
}
return obj;
}
Usage:
object test1 = GetPropValue("PropertyA.PropertyB.PropertyC",obj);
My Case(return DBNull.Value instead of null in reflection function):
cmd.Parameters.AddWithValue("CustomerContactEmail", GetPropValue("AccountingCustomerParty.Party.Contact.ElectronicMail.Value", eInvoiceType));
Try this code:
/// <summary>
/// check deep property
/// </summary>
/// <param name="obj">instance</param>
/// <param name="property">deep property not include instance name example "A.B.C.D.E"</param>
/// <returns>if null return true else return false</returns>
public static bool IsNull(this object obj, string property)
{
if (string.IsNullOrEmpty(property) || string.IsNullOrEmpty(property.Trim())) throw new Exception("Parameter : property is empty");
if (obj != null)
{
string[] deep = property.Split('.');
object instance = obj;
Type objType = instance.GetType();
PropertyInfo propertyInfo;
foreach (string p in deep)
{
propertyInfo = objType.GetProperty(p);
if (propertyInfo == null) throw new Exception("No property : " + p);
instance = propertyInfo.GetValue(instance, null);
if (instance != null)
objType = instance.GetType();
else
return true;
}
return false;
}
else
return true;
}
I posted this last night and then a friend pointed me to this question. Hope it helps. You can then do something like this:
var color = Dis.OrDat<string>(() => cake.frosting.berries.color, "blue");
using System;
using System.Collections.Generic;
using System.Linq;
using System.Text;
using System.Linq.Expressions;
namespace DeepNullCoalescence
{
public static class Dis
{
public static T OrDat<T>(Expression<Func><T>> expr, T dat)
{
try
{
var func = expr.Compile();
var result = func.Invoke();
return result ?? dat; //now we can coalesce
}
catch (NullReferenceException)
{
return dat;
}
}
}
}
Read the full blog post here.
The same friend also suggested that you watch this.
I slightly modified the code from here to make it work for the question asked:
public static class GetValueOrDefaultExtension
{
public static TResult GetValueOrDefault<TSource, TResult>(this TSource source, Func<TSource, TResult> selector)
{
try { return selector(source); }
catch { return default(TResult); }
}
}
And yes, this is probably not the optimal solution due to try/catch performance implications but it works :>
Usage:
var val = cake.GetValueOrDefault(x => x.frosting.berries.loader);
Where you need to achieve this, do this:
Usage
Color color = someOrder.ComplexGet(x => x.Customer.LastOrder.Product.Color);
or
Color color = Complex.Get(() => someOrder.Customer.LastOrder.Product.Color);
Helper class implementation
public static class Complex
{
public static T1 ComplexGet<T1, T2>(this T2 root, Func<T2, T1> func)
{
return Get(() => func(root));
}
public static T Get<T>(Func<T> func)
{
try
{
return func();
}
catch (Exception)
{
return default(T);
}
}
}
I like approach taken by Objective-C:
"The Objective-C language takes another approach to this problem and does not invoke methods on nil but instead returns nil for all such invocations."
if (cake.frosting.berries != null)
{
var str = cake.frosting.berries...;
}