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In .NET world, when it comes to object serialization, it usually goes into inspecting the object's fields and properties at runtime. Using reflection for this job is usually slow and is undesirable when dealing with large sets of objects. The other way is using IL emit or building expression trees that provide significant performance gain over reflection. And the latter is most modern libraries pick when dealing with serialization. However building and emitting IL at runtime takes time, and the investment is only paid back if this information is cached and reused for objects of the same type.

When using Json.NET, it is not clear to me which method described above is used, and if the latter is indeed used, whether the caching is used.

For example, when I do:

JsonConvert.SerializeObject(new Foo { value = 1 });

Does Json.NET build the Foo's member access info and cache to reuse it later?

  • 5
    I don't have a definitive answer for you, but the source for Json.NET is on github and It does say that "Json.NET is a popular high-performance JSON framework for .NET". If you do a quick search for cache on the source you will find that there is indeed quite a bit of caching going on. – KiwiPiet Nov 6 '15 at 1:36
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Json.NET caches type serialization information inside its IContractResolver classes DefaultContractResolver and CamelCasePropertyNamesContractResolver. Unless you specify a custom contract resolver, this information is cached and reused.

For DefaultContractResolver a global static instance is maintained internally that Json.NET uses whenever the application does not specify its own contract resolver. CamelCasePropertyNamesContractResolver, on the other hand, maintains static tables that are shared across all instances. (I believe the inconsistency arises from legacy issues; see here for details.)

Both of these types are designed to be fully thread-safe so sharing between threads should not be a problem.

If you choose to make your own contract resolver, then type information will only be cached and reused if you cache and reuse the contract resolver instance itself. Thus, Newtonsoft recommends:

For performance you should create a contract resolver once and reuse instances when possible. Resolving contracts is slow and implementations of IContractResolver typically cache contracts.

One strategy for guaranteeing caching in a subclass of DefaultContractResolver is to make its constructor be protected or private, and provide a global static instance. (Of course this is only appropriate if the resolver is "stateless" and will always return the same results.) E.g., inspired by this question, here's a pascal case to underscore contract resolver:

public class PascalCaseToUnderscoreContractResolver : DefaultContractResolver
{
    protected PascalCaseToUnderscoreContractResolver() : base() { }

    // As of 7.0.1, Json.NET suggests using a static instance for "stateless" contract resolvers, for performance reasons.
    // http://www.newtonsoft.com/json/help/html/ContractResolver.htm
    // http://www.newtonsoft.com/json/help/html/M_Newtonsoft_Json_Serialization_DefaultContractResolver__ctor_1.htm
    // "Use the parameterless constructor and cache instances of the contract resolver within your application for optimal performance."
    static PascalCaseToUnderscoreContractResolver instance;

    // Using an explicit static constructor enables lazy initialization.
    static PascalCaseToUnderscoreContractResolver() { instance = new PascalCaseToUnderscoreContractResolver(); }

    public static PascalCaseToUnderscoreContractResolver Instance { get { return instance; } }

    static string PascalCaseToUnderscore(string name)
    {
        if (name == null || name.Length < 1)
            return name;
        var sb = new StringBuilder(name);
        for (int i = 0; i < sb.Length; i++)
        {
            var ch = char.ToLowerInvariant(sb[i]);
            if (ch != sb[i])
            {
                if (i > 0) // Handle flag delimiters
                {
                    sb.Insert(i, '_');
                    i++;
                }
                sb[i] = ch;
            }
        }
        return sb.ToString();
    }

    protected override string ResolvePropertyName(string propertyName)
    {
        return PascalCaseToUnderscore(propertyName);
    }
}

Which you would use like:

var json = JsonConvert.SerializeObject(someObject, new JsonSerializerSettings { ContractResolver = PascalCaseToUnderscoreContractResolver.Instance });

(N.B. - the utility of this particular resolver has been reduced with the introduction of SnakeCaseNamingStrategy. It has been left only as an illustrative example.)

If memory consumption is a problem and for whatever reason you need to minimize the memory permanently taken by cached contracts, you can construct your own local instance of DefaultContractResolver (or some custom subclass), serialize using that, and then immediately remove all references to it, e.g.:

public class JsonExtensions
{
    public static string SerializeObjectNoCache<T>(T obj, JsonSerializerSettings settings = null)
    {
        settings = settings ?? new JsonSerializerSettings();
        if (settings.ContractResolver == null)
            // To reduce memory footprint, do not cache contract information in the global contract resolver.
            settings.ContractResolver = new DefaultContractResolver();
        return JsonConvert.SerializeObject(obj, settings);
    }
}

The majority of cached contract memory will eventually get garbage collected. Of course, by doing this, serialization performance may suffer substantially.

For further information see Newtonsoft's Performance Tips: Reuse Contract Resolver.

|improve this answer|||||
  • We see across UTs that the contracts saved in our MyContractResolver : CamelCasePropertyNamesContractResolver type are cached statically, even across multiple MyContractResolver types. This si causing suprising falures when some UTs run together as they don't set up the contracts as needed. Is the pointer to reuse the same ContractResolver instance still valid? – ElFik Apr 1 at 1:26

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