One of the tools that I absolutely adore during my day-to-day development is LINQPad . If you are not familiar with this tool and you are a .NET developer, you should go to www.linqpad.net right now and install it. The basic version is free and feature-packed, though I recommend upgrading to the professional version. Not only is it inexpensive, but it also adds some great features like Intellisense1 and Nuget package support.
I generally use LINQPad as a simple coding environment for poking around my data sources, crafting quick coding experiments, and debugging. Because LINQPad does not have the overhead of a solution or project, like a development-oriented tool such as Visual Studio, it is easy to get stuck into a task. I no longer write throwaway console or WinForms apps; instead I just throw together a quick LinqPad query. I could continue on the virtues of this tool2, but I would like to touch on one of its utility features.
As part of LINQPad , you get some useful methods and types for extending LINQPad , dumping information to LINQPad's output window, and more. Two of these methods are LINQPad.Extensions.Cache and Utils.Cache. Using either Cache method, you can execute some code and cache the result locally, then use the cached value for all subsequent runs of that query. This is incredibly useful for caching the results of an expensive database query or computationally-intensive calculation. To cache an IEnumerable<T> or IObservable<T> you can do something like this:
var thingThatTakesALongTime = from x in myDB.Thingymabobs where x.Whatsit == "thingy" select x; var myThing = LINQPad.Extensions.Cache(thingThatTakesALongTime);
Or, since it's an extension method,
var myThing = thingThatTakesALongTime.Cache();
For other types, Util.Cache will cache the result of an expression.
var x = Util.Cache(()=> { /* Something expensive */ });
The first time I run my LINQPad code, my lazily evaluated query or the expression is executed by the Cache method and the result is cached. From then on, each subsequent run of the code uses the cached value. Both Cache methods also take an optional name for the cached item, in case you want to differentiate items that might otherwise be indistinguishable (such as caching a loop computation).
This is, as I alluded earlier, one of many utilities provided within LINQPad that make it a joy to use. What tools do you find invaluable? Do you already use LINQPad ? What makes it a must have tool for you? I would love to hear your responses in the comments.
Updated to correct casing of LINQPad, draw attention to Cache being an extension method for some uses, and adding note of Util.Cache3.