What is "monadic reflection"?
How can I use it in F#program?
Is the meaning of term "reflection" there same as .NETreflection?
What is "monadic reflection"? How can I use it in F#program? Is the meaning of term "reflection" there same as .NETreflection? 


Monadic reflection is essentially a grammar for describing layered monads or monad layering. In Haskell describing also means constructing monads. This is a higher level system so the code looks like functional but the result is monad composition  meaning that without actual monads (which are nonfunctional) there's nothing real / runnable at the end of the day. Filinski did it originally to try to bring a kind of monad emulation to Scheme but much more to explore theoretical aspects of monads. Correction from the comment  F# has a Monad equivalent named "Computation Expressions" Filinski's paper at POPL 2010  no code but a lot of theory, and of course his original paper from 1994  Representing Monads. Plus one that has some code: Monad Transformers and Modular Interpreters (1995) Oh and for people who like code  Filinski's code is online. I'll list just one  go one step up and see another 7 and readme. Also just a bit of F# code which claims to be inspired by Filinski 


I read through the first Google hit, some slides: http://www.cs.ioc.ee/mpcamast06/msfp/filinskislides.pdf From this, it looks like
Oleg Kiselyov also has an article, but I didn't even try to read it. There's also a paper from Jonathan Sobel (et al). Hit number 5 is this question, so I stopped looking after that. 


As previous answers links describes, Monadic reflection is a concept to bridge call/cc style and Church style programming. To describe these two concepts some more: F# Computation expressions (=monads) are created with custom Builder type. Don Syme has a good blog post about this. If I write code to use a builder and use syntax like:
the syntax is translated to call/cc "callwithcurrentcontinuation" style program:
The last parameter is the nextcommandtobeexecuted until the end. (Schemestyle programming.) F# is based on OCaml. F# has partial function application, but it also is strongly typed and has value restriction. OCaml can be used in Church kind of programming, where combinatorfunctions are used to construct any other functions (or programs):
Church numerals is a way to represent numbers with pure functions.
Here, zero is a function that takes two functions as parameters: f is applied zero times so this represent the number zero, and x is used to function combination in other calculations (like add). succ function is like plusOne so one = zero > plusOne. To execute the functions, the last function will call the other functions with last parameter (x) as null. (Haskellstyle programming.) In F# value restriction makes this hard. Church numerals can be made with C# 4.0 dynamic keyword (which uses .NET reflection inside). I think there are workarounds to do that also in F#. 

