248

Is there a method built into .NET that can write all the properties and such of an object to the console?

One could make use of reflection of course, but I'm curious if this already exists...especially since you can do it in Visual Studio in the Immediate Window. There you can type an object name (while in debug mode), press enter, and it is printed fairly prettily with all its stuff.

Does a method like this exist?

3

9 Answers 9

386

You can use the TypeDescriptor class to do this:

foreach(PropertyDescriptor descriptor in TypeDescriptor.GetProperties(obj))
{
    string name = descriptor.Name;
    object value = descriptor.GetValue(obj);
    Console.WriteLine("{0}={1}", name, value);
}

TypeDescriptor lives in the System.ComponentModel namespace and is the API that Visual Studio uses to display your object in its property browser. It's ultimately based on reflection (as any solution would be), but it provides a pretty good level of abstraction from the reflection API.

6
  • Cool! Didn't know about that. How is using this PropertyDescriptor and GetValue, compared to using obj.GetType().GetProperties() and GetValue and SetValue? Is it kind of the same just a different "interface"?
    – Svish
    May 12, 2009 at 11:55
  • It's a high level API over the reflection API. It's geared towards displaying properties in a user-friendly manner. The PropertyDescriptor class has various methods to allow you to easily edit, change and reset the property value, if you wan to.
    – Sean
    May 12, 2009 at 12:02
  • 20
    Good job mentioning the namespace in your answer!
    – Lawyerson
    Nov 24, 2016 at 16:13
  • 1
    I have modified above answer to support nested properties: stackoverflow.com/questions/360277/… Feb 16, 2017 at 3:13
  • 5
    @Best_Where_Gives - So you could extend the code to handle this, at engineforce has done. Sometimes you've got to write a bit of code yourself..!
    – Sean
    Feb 7, 2018 at 9:14
117

Based on the ObjectDumper of the LINQ samples I created a version that dumps each of the properties on its own line.

This Class Sample

namespace MyNamespace
{
    public class User
    {
        public string FirstName { get; set; }
        public string LastName { get; set; }
        public Address Address { get; set; }
        public IList<Hobby> Hobbies { get; set; }
    }

    public class Hobby
    {
        public string Name { get; set; }
    }

    public class Address
    {
        public string Street { get; set; }
        public int ZipCode { get; set; }
        public string City { get; set; }    
    }
}

has an output of

{MyNamespace.User}
  FirstName: "Arnold"
  LastName: "Schwarzenegger"
  Address: { }
    {MyNamespace.Address}
      Street: "6834 Hollywood Blvd"
      ZipCode: 90028
      City: "Hollywood"
  Hobbies: ...
    {MyNamespace.Hobby}
      Name: "body building"

Here is the code.

using System;
using System.Collections;
using System.Collections.Generic;
using System.Reflection;
using System.Text;

public class ObjectDumper
{
    private int _level;
    private readonly int _indentSize;
    private readonly StringBuilder _stringBuilder;
    private readonly List<int> _hashListOfFoundElements;

    private ObjectDumper(int indentSize)
    {
        _indentSize = indentSize;
        _stringBuilder = new StringBuilder();
        _hashListOfFoundElements = new List<int>();
    }

    public static string Dump(object element)
    {
        return Dump(element, 2);
    }

    public static string Dump(object element, int indentSize)
    {
        var instance = new ObjectDumper(indentSize);
        return instance.DumpElement(element);
    }

    private string DumpElement(object element)
    {
        if (element == null || element is ValueType || element is string)
        {
            Write(FormatValue(element));
        }
        else
        {
            var objectType = element.GetType();
            if (!typeof(IEnumerable).IsAssignableFrom(objectType))
            {
                Write("{{{0}}}", objectType.FullName);
                _hashListOfFoundElements.Add(element.GetHashCode());
                _level++;
            }

            var enumerableElement = element as IEnumerable;
            if (enumerableElement != null)
            {
                foreach (object item in enumerableElement)
                {
                    if (item is IEnumerable && !(item is string))
                    {
                        _level++;
                        DumpElement(item);
                        _level--;
                    }
                    else
                    {
                        if (!AlreadyTouched(item))
                            DumpElement(item);
                        else
                            Write("{{{0}}} <-- bidirectional reference found", item.GetType().FullName);
                    }
                }
            }
            else
            {
                MemberInfo[] members = element.GetType().GetMembers(BindingFlags.Public | BindingFlags.Instance);
                foreach (var memberInfo in members)
                {
                    var fieldInfo = memberInfo as FieldInfo;
                    var propertyInfo = memberInfo as PropertyInfo;

                    if (fieldInfo == null && propertyInfo == null)
                        continue;

                    var type = fieldInfo != null ? fieldInfo.FieldType : propertyInfo.PropertyType;
                    object value = fieldInfo != null
                                       ? fieldInfo.GetValue(element)
                                       : propertyInfo.GetValue(element, null);

                    if (type.IsValueType || type == typeof(string))
                    {
                        Write("{0}: {1}", memberInfo.Name, FormatValue(value));
                    }
                    else
                    {
                        var isEnumerable = typeof(IEnumerable).IsAssignableFrom(type);
                        Write("{0}: {1}", memberInfo.Name, isEnumerable ? "..." : "{ }");

                        var alreadyTouched = !isEnumerable && AlreadyTouched(value);
                        _level++;
                        if (!alreadyTouched)
                            DumpElement(value);
                        else
                            Write("{{{0}}} <-- bidirectional reference found", value.GetType().FullName);
                        _level--;
                    }
                }
            }

            if (!typeof(IEnumerable).IsAssignableFrom(objectType))
            {
                _level--;
            }
        }

        return _stringBuilder.ToString();
    }

    private bool AlreadyTouched(object value)
    {
        if (value == null)
            return false;

        var hash = value.GetHashCode();
        for (var i = 0; i < _hashListOfFoundElements.Count; i++)
        {
            if (_hashListOfFoundElements[i] == hash)
                return true;
        }
        return false;
    }

    private void Write(string value, params object[] args)
    {
        var space = new string(' ', _level * _indentSize);

        if (args != null)
            value = string.Format(value, args);

        _stringBuilder.AppendLine(space + value);
    }

    private string FormatValue(object o)
    {
        if (o == null)
            return ("null");

        if (o is DateTime)
            return (((DateTime)o).ToShortDateString());

        if (o is string)
            return string.Format("\"{0}\"", o);

        if (o is char && (char)o == '\0') 
            return string.Empty; 

        if (o is ValueType)
            return (o.ToString());

        if (o is IEnumerable)
            return ("...");

        return ("{ }");
    }
}

and you can use it like that:

var dump = ObjectDumper.Dump(user);

Edit

  • Bi - directional references are now stopped. Therefore the HashCode of an object is stored in a list.
  • AlreadyTouched fixed (see comments)
  • FormatValue fixed (see comments)
12
  • 1
    Be careful with this, if you have bi-directional object references you can hit a stackoverflow exception
    – reustmd
    Nov 20, 2012 at 16:51
  • why use a hash? Wouldn't referential integrity be enough?
    – reustmd
    Dec 2, 2012 at 1:18
  • may want to set a max level (going 10 objects deep is probably not desirable) and if the element is a stream this will throw an exception
    – Mario
    Feb 13, 2013 at 22:59
  • 3
    AlreadyTouched throws an exception if the object is null. You'll want to add if (value == null) return false; to the beginning of this method.
    – Benbob
    Jun 4, 2013 at 4:52
  • 23
    I used your code with some changes and put it up on github.com/mcshaz/BlowTrial/blob/master/GenericToDataFile/… - this handles more complex objects, including recursion depth, skips indexers and properties without getters, and avoids unnecessary calls to StringBuiler ToString. It also changes the 'bidirectional reference' message to 'reference already dumped', as a reference found in the hashtable is not always bidirectional (eg a list with the same instance repeated).
    – Brent
    Sep 15, 2014 at 4:15
73

The ObjectDumper class has been known to do that. I've never confirmed, but I've always suspected that the immediate window uses that.

EDIT: I just realized, that the code for ObjectDumper is actually on your machine. Go to:

C:/Program Files/Microsoft Visual Studio 9.0/Samples/1033/CSharpSamples.zip

This will unzip to a folder called LinqSamples. In there, there's a project called ObjectDumper. Use that.

10
  • Woah, that totally worked. All though some depth control would have been nice to have, haha. Thanks for great tip! =)
    – Svish
    May 12, 2009 at 11:23
  • See my edit. The one in the samples actually has an overload that takes depth.
    – BFree
    May 12, 2009 at 11:28
  • Hm, is it just me, or is this outputting everything on a single line?
    – Svish
    May 12, 2009 at 12:39
  • 6
    This is probably obvious but VS2010 users will (most likely) find it here: C:\Program Files (x86)\Microsoft Visual Studio 10.0\Samples\1033
    – Lee Oades
    Jul 19, 2011 at 12:27
  • 11
    nuget package for ObjectDumper is now available. It also provides an extension method DumpToString and Dump to Object class. Handy.
    – IsmailS
    Jun 17, 2015 at 9:43
35

Maybe via JavaScriptSerializer.Serialize?

7
  • 2
    Interesting... how would you use that?
    – Svish
    May 12, 2009 at 11:00
  • You'd need to tidy the JSON blob up so its presentable.. and i'd say it would take as many lines doing that as writing your own reflection code. But that's my 2c.
    – Matt Kocaj
    May 12, 2009 at 11:04
  • 3
    This works great; I use a JSON formatter to make it readable.
    – phloopy
    Nov 7, 2011 at 20:37
  • 1
    Add Reference in Solution Explorer: System.Web.Extentions Then, in the code: using System.Web.Script.Serialization; ... private static JavaScriptSerializer jss = new JavaScriptSerializer(); ... Console.Out.WriteLine(jss.Serialize(someObject));
    – Andrew
    May 18, 2018 at 19:05
  • 2
    I like this approach. It's quite light and the output is clear. In my case, I go with Newtonsoft's JSON.net like below, var respJson = JsonConvert.SerializeObject(objResponse, Formatting.Indented); Console.WriteLine(respJson);
    – Sphinx
    Dec 15, 2021 at 15:16
23

Following snippet will do the desired function:

Type t = obj.GetType(); // Where obj is object whose properties you need.
PropertyInfo [] pi = t.GetProperties();
foreach (PropertyInfo p in pi)
{
    System.Console.WriteLine(p.Name + " : " + p.GetValue(obj));
}

I think if you write this as extension method you could use it on all type of objects.

4
  • 3
    This wouldn't handle objects consisting of other objects though. It also does not output the values of the properties. Only the names. And I already know those :P
    – Svish
    May 12, 2009 at 11:19
  • 2
    @Svish but your question doesnt give that idea at all. Kindly edit.
    – nawfal
    Jun 14, 2013 at 8:24
  • 3
    @nawfal Others seemed to get the idea fine.
    – Svish
    Jun 15, 2013 at 17:08
  • 1
    Type t = typeof(T); foreach (var p in t.GetProperties()) { System.Console.WriteLine(p.Name + " " + p.GetType().ToString()); }
    – boctulus
    Apr 14, 2015 at 20:35
8

Regarding TypeDescriptor from Sean's reply (I can't comment because I have a bad reputation)... one advantage to using TypeDescriptor over GetProperties() is that TypeDescriptor has a mechanism for dynamically attaching properties to objects at runtime and normal reflection will miss these.

For example, when working with PowerShell's PSObject, which can have properties and methods added at runtime, they implemented a custom TypeDescriptor which merges these members in with the standard member set. By using TypeDescriptor, your code doesn't need to be aware of that fact.

Components, controls, and I think maybe DataSets also make use of this API.

0
2

This is exactly what reflection is for. I don't think there's a simpler solution, but reflection isn't that code intensive anyway.

1

Any other solution/library is in the end going to use reflection to introspect the type...

1
  • 3
    Of course, but I would still like to not code it myself if I don't have to ;)
    – Svish
    May 12, 2009 at 11:20
1

Don't think so. I've always had to write them or use someone else's work to get that info. Has to be reflection as far as i'm aware.

EDIT:
Check this out. I was investigating some debugging on long object graphs and noticed this when i Add Watches, VS throws in this class: Mscorlib_CollectionDebugView<>. It's an internal type for displaying collections nicely for viewing in the watch windows/code debug modes. Now coz it's internal you can reference it, but u can use Reflector to copy (from mscorlib) the code and have your own (the link above has a copy/paste example). Looks really useful.

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