I am the dummy in this scenario.
I've tried to read on Google what these are but I just don't get it. Can someone give me a simple explanation of what they are and why they're useful?
edit: I'm talking about the LINQ feature in .Net.
closed as too broad by Servy, p.s.w.g, Charles Burns, MattDMo, Steve Robbins Dec 24 '13 at 23:34
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The best explanation about expression trees I ever read is this article by Charlie Calvert.
To sum it up;
Back to my first sentence, Expression trees are an addition to C# that opens up the ability to use the DLR. Prior to this, C# was a much more static language--all variable types had to be declared as a specific type and all code had to be written at compile time.
Using it with Data
Let's say, for example, that you are creating a real-estate site. During the design phase, you know all of the filters that you can apply. To implement this code, you have two choices: you can write a loop that compares each data point to a series of If-Then checks; or you can try to build a query in a dynamic language (SQL) and pass that off to a program that can perform the search for you (the database).
With Expression trees, you can now change the code in your program--on the fly--and perform the search. Specifically, you can do this through LINQ.
I would go a bit more in depth, but this site does a much better job:
The examples listed include creating generic operators for variable types, hand-rolling lambda expressions, high performance shallow cloning, and dynamically copying read/write properties from one object to another.
a better explanation here http://www.jot.fm/issues/issue_2008_03/column4.pdf
Short answer: It's nice to be able to write the same kind of LINQ query and point it at any data source. You couldn't have a "Language Integrated" query without it.
Long answer: As you probably know, when you compile source code, you're transforming it from one language to another. Usually from a high level language (C#) to a lower lever on (IL).
There are basically two ways you can do this:
The latter is what all the programs we know as 'compilers' do.
Once you have a parse tree you can easily translate it into any other language and this is what expression trees allow us to do. Since the code is stored as data you can do anything you want to it but probably you'll just want to translate it into some other language.
Now, in LINQ to SQL the expression trees get turned into a SQL command and then are sent over the wire to the database server. As far as I know they don't do anything really fancy when translating the code but they could. For instance, the query provider could create different SQL code depending on the network conditions.
An expression tree is a mechanism to translate executable code into data. Using an expression tree, you can produce a data structure that represents your program.
In C#, you can work with the expression tree produced by lambda expressions by using the
In a traditional program, you write code like this:
This code causes the compiler to generate an assignment, and that's it. In most cases, that's all you care about.
With conventional code, your application can't go retroactively back and look at
Now, consider a lambda expression like the following:
This is a little different than before. Now
you will get the value
We can use expression trees to explore the block of executable code that was produced. Try this instead:
More advanced techniques and manipulations are possible with expression trees.
Expression trees are an in-memory representation of an expression, e.g. an arithmetic or boolean expression. For example, consider the arithmetic expression
Since * has a higher operator precedence than +, the expression tree is built like that:
Having this tree, it can be evaluated for any values of a and b. Additionally, you can transform it into other expression trees, for example to derive the expression.
When you implement an expression tree, I would suggest to create a base class Expression. Derived from that, the class BinaryExpression would be used for all binary expressions, such as + and * . Then you could introduce a VariableReferenceExpression to reference variables (such as a and b), and another class ConstantExpression (for the 2 from the example).
The expression tree is in many cases built as the result of parsing an input (from the user directly, or from a file). For evaluating the expression tree, I would suggest to use the Visitor pattern.
IIUC, an expression tree is similar to an Abstract Syntax Tree, but an expression usually yiels a single value, whereas an AST can represent an entire program (with classes, packages, function, statements, etc.)
Anyway, for an the expression (2 + 3) * 5, the tree is:
Evaluate each node recursively (bottom-up) to get the value at the root node, i.e. the value of the expression.
You can of course have unary (negation) or trinary (if-then-else) operators too, and functions (n-ary, i.e. any number of ops) if your expression language allows it.
Evaluating types and doing type-control is done over similar trees.
Is the expression tree that you are refering is Expression Evaluation tree?
If yes then it is tree constructed by the parser. Parser used the Lexer/Tokenizer to identify the Tokens from the program. Parser constructs the Binary tree from the tokens.
Here is the detailed explanation