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SICP - "Structure and Interpretation of Computer Programs"

Explanation for the same would be nice

Can some one explain about Metalinguistic Abstraction

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  • stackoverflow.com/questions/1711/… the book i am mentioning is in third
    – yesraaj
    Dec 10, 2008 at 8:48
  • 2
    How the hell do you put a bounty on a subjective question? Especially one that is so closely related to personal experience?
    – AnonJr
    Jan 28, 2009 at 21:05
  • I was wondering the same thing?
    – JesperE
    Jan 28, 2009 at 21:52
  • 2
    there were no answers for this question without bounty
    – yesraaj
    Jan 29, 2009 at 4:00
  • So change the question then. This is like awarding a gold medal to the swimmer with the best personal training story - nice to read, but not worthy of a medal.
    – AnonJr
    Jan 29, 2009 at 17:02

12 Answers 12

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+100

SICP really drove home the point that it is possible to look at code and data as the same thing.

I understood this before when thinking about universal Turing machines (the input to a UTM is just a representation of a program) or the von Neumann architecture (where a single storage structure holds both code and data), but SICP made the idea much more clear. Scheme (Lisp) helped here, as the syntax for a program is exactly the same as the syntax for lists in general, namely S-expressions.

Once you have the "equivalence" of code and data, suddenly a lot of things become easy. For example, you can write programs that have different evaluation methods (lazy, nondeterministic, etc). Previously, I might have thought that this would require an extension to the programming language; in reality, I can just add it on to the language myself, thus allowing the core language to be minimal. As another example, you can similarly implement an object-oriented framework; again, this is something I might have naively thought would require modifying the language.

Incidentally, one thing I wish SICP had mentioned more: types. Type checking at compilation time is an amazing thing. The SICP implementation of object-oriented programming did not have this benefit.

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    Heh… writing in assembly is what made me look at code and data as the same thing. I still miss it, sometimes — rewriting jumps may not have been the most clear way to both store and handle program state, but it was certainly concise. :-)
    – Ben Blank
    Jan 30, 2009 at 18:19
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I didn't read that book yet, I have only looked at the video courses, but it taught me a lot. Functions as first class citizens was mind blowing for me. Executing a "variable" was something very new to me. After watching those videos the way I now see JavaScript and programming in general has greatly changed.

Oh, I think I've lied, the thing that really struck me was that + was a function.

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I think the most surprising thing about SICP is to see how few primitives are actually required to make a Turing complete language--almost anything can be built from almost nothing.

Since we are discussing SICP, I'll put in my standard plug for the video lectures at http://groups.csail.mit.edu/mac/classes/6.001/abelson-sussman-lectures/, which are the best Introduction to Computer Science you could hope to get in 20 hours.

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The one that I thought was really cool was streams with delayed evaluation. The one about generating primes was something I thought was really neat. Like a "PEZ" dispenser that magically dispenses the next prime in the sequence.

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One example of "the data and the code are the same thing" from A. Rex's answer got me in a very deep way.

When I was taught Lisp back in Russia, our teachers told us that the language was about lists: car, cdr, cons. What really amazed me was the fact that you don't need those functions at all - you can write your own, given closures. So, Lisp is not about lists after all! That was a big surprise.

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  • I loved that realization, too.
    – A. Rex
    Jan 27, 2009 at 15:09
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A concept I was completely unfamiliar with was the idea of coroutines, i.e. having two functions doing complementary work and having the program flow control alternate between them.

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I was still in high school when I read SICP, and I had focused on the first and second chapters. For me at the time, I liked that you could express all those mathematical ideas in code, and have the computer do most of the dirty work.

When I was tutoring SICP, I got impressed by different aspects. For one, the conundrum that data and code are really the same thing, because code is executable data. The chapter on metalinguistic abstractions is mind-boggling to many and has many take-home messages. The first is that all the rules are arbitrary. This bothers some students, specially those who are physicists at heart. I think the beauty is not in the rules themselves, but in studying the consequence of the rules. A one-line change in code can mean the difference between lexical scoping and dynamic scoping.

Today, though SICP is still fun and insightful to many, I do understand that it's becoming dated. For one, it doesn't teach debugging skills and tools (I include type systems in there), which is essential for working in today's gigantic systems.

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I was most surprised of how easy it is to implement languages. That one could write interpreter for Scheme onto a blackboard.

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I felt Recursion in different sense after reading some of the chapters of SICP

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I am right now on Section "Sequences as Conventional Interfaces" and have found the concept of procedures as first class citizens quite fascinating. Also, the application of recursion is something I have never seen in any language.

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Closures.

Coming from a primarily imperative background (Java, C#, etc. -- I only read SICP a year or so ago for the first time, and am re-reading it now), thinking in functional terms was a big revelation for me; it totally changed the way I think about my work today.

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I read most part of the book (without exercise). What I have learned is how to abstract the real world at a specific level, and how to implement a language.

Each chapter has ideas surprise me:

The first two chapters show me two ways of abstracting the real world: abstraction with the procedure, and abstraction with data.

Chapter 3 introduces time in the real world. That results in states. We try assignment, which raises problems. Then we try streams.

Chapter 4 is about metalinguistic abstraction, in other words, we implement a new language by constructing an evaluator, which determines the meaning of expressions.

Since the evaluator in Chapter 4 is itself a Lisp program, it inherits the control structure of the underlying Lisp system. So in Chapter 5, we dive into the step-by-step operation of a real computer with the help of an abstract model, register machine.

Thanks.

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