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Can a language have Lisp's powerful macros without the parentheses?

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I think a better way to phrase this would be: Can a language have Lisp's powerful macros without the code being written as a bunch of datastructures and offering the the same uniform api to manipulate those datastructures as offered in "regular" code? – dnolen Apr 27 '10 at 12:42
R does this. See… – Noah Lavine Apr 27 '10 at 16:37
@DNolen That involves showing the same can be accomplished by the use of e.g. whitespace or some other means of structuring the code. – Mark C Feb 18 '11 at 5:45
Yes, in particular sweet-expressions are probably what you want. Take a look at – user2097477 Feb 21 '13 at 23:18
Strictly speaking, you could endure a whole different realm of pain and write all of your code in dynamic .net expression trees... :) – JerKimball Mar 14 '13 at 22:54

15 Answers 15

up vote 40 down vote accepted

sure, the question is whether it is convenient to use.

Let's first look how Lisp is slightly different.

Lisp has a two-stage syntax.

A) there is the data syntax for s-expressions


(mary called tim to tell him the price of the book)

(sin ( x ) + cos ( x ))

s-expressions are lists of atoms or lists (lists of lists).

B) then there is the Lisp language syntax on top of s-expressions. Not every s-expression is a valid Lisp program.

(3 + 4)

is not a valid Lisp program.

(+ 3 4)

is a valid Lisp program.

The interesting part is now that s-expressions can be read and then Lisp uses the normal data structures to represent them.

Most other programming languages don't have a primitive representation for internalized source - other than strings.

The internalized source code now makes it easy to calculate code.

Let's look at the invalid Lisp code:

(3 + 4)

The program

(defun convert (code)
   (list (second code) (first code) (third code)))

(convert '(3 + 4)) -> (+ 3 4)

has converted an infix expression into the valid prefix expression.

(eval (convert '(3 + 4))) -> 7

EVAL evaluates the converted source code.

Programming languages now have at least three choices to make such calculations possible:

  1. base the source code transformations on string transformations

  2. use a similar primitive data structure like Lisp. A more complex variant of this is a syntax based on XML. One could then transform XML expressions. There are other possible external formats combined with internalized data.

  3. use a real syntax description format and represent the source code internalized as a syntax tree using data structures that represent syntactic categories.

For all these approaches you will find programming languages. Lisp is more or less in camp 2. The consequence: it is theoretically not really satisfying and makes it impossible to statically parse source code (if the code transformations are based on arbitrary Lisp functions). The Lisp community struggles with this for decades (see for example the myriad of approaches that the Scheme community has tried). Fortunately it is relatively easy to use, compared to some of the alternatives and quite powerful. Variant 1 is plain ugly. Variant 3 leads to a lot complexity in simple AND complex transformations.

Another problem is HOW to transform the code. One approach would be based on transformation rules (like in some Scheme macro variants). Another approach would be a special transformation language (like a template language which can do arbitrary computations). The Lisp approach is to use Lisp itself. That makes it possible to write arbitrary transformations using the full Lisp language. In Lisp there is not a separate parsing stage, but at any time expressions can be read, transformed and evaluated.

Lisp is kind of a local maximum of simplicity for code transformations.

Also note that READ reads s-expressions to internal data. In Lisp one could either use a different READer for a different external syntax or reuse the Lisp built-in reader and reprogram it using the read macro mechanism. There are examples for both approaches to provide a different external syntax in Lisp.

The current Lisp syntax is popular among Lisp programmers for two reasons:

1) the data is code is data idea makes it easy to write all kinds of code transformations based on the internalized data. There is also a relatively direct way from reading code, over manipulating code to printing code.

2) the text editor can be programmed in a straight forward way to manipulate s-expressions. That makes code and data transformations in the editor relatively easy.

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Hi Rainer. Can you elaborate on The consequence: it is theoretically not really satisfying and makes it impossible to statically parse source code (if the code transformations are based on arbitrary Lisp functions). If this is theoretically not really satisfying, what would be satisfying then? – Faheem Mitha Mar 19 '12 at 9:12
@Faheem Mitha: using a real syntax description language would theoretically be better than using plain Lisp datastructures (lists, symbols, ...). – Rainer Joswig Mar 19 '12 at 9:31
Interesting. I'd like to learn more about what you have in mind here. Would you can to expand on this? Or do you have a relevant link? – Faheem Mitha Mar 19 '12 at 16:13

Absolutely. It's just a couple orders of magnitude more complex, if you have to deal with a complex grammar. As Peter Norvig noted:

Python does have access to the abstract syntax tree of programs, but this is not for the faint of heart. On the plus side, the modules are easy to understand, and with five minutes and five lines of code I was able to get this:

>>> parse("2 + 2")

['eval_input', ['testlist', ['test', ['and_test', ['not_test', ['comparison', ['expr', ['xor_expr', ['and_expr', ['shift_expr', ['arith_expr', ['term', ['factor', ['power', ['atom', [2, '2']]]]], [14, '+'], ['term', ['factor', ['power', ['atom', [2, '2']]]]]]]]]]]]]]], [4, ''], [0, '']]

This was rather a disapointment to me. The Lisp parse of the equivalent expression is (+ 2 2). It seems that only a real expert would want to manipulate Python parse trees, whereas Lisp parse trees are simple for anyone to use. It is still possible to create something similar to macros in Python by concatenating strings, but it is not integrated with the rest of the language, and so in practice is not done.

Since I'm not a super-genius (or even a Peter Norvig), I'll stick with (+ 2 2).

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+1, for providing me with a link to a very interesting read :) – wasatz Apr 27 '10 at 17:19
Nonetheless, it's very easy to parse Lisp expressions using Python, so it's feasible to translate Lisp expressions into Python source code. – Anderson Green Mar 12 '14 at 3:11

Here's a shorter version of Rainer's answer:

In order to have lisp-style macros, you need a way of representing source-code in data structures. In most languages, the only "source code data structure" is a string, which doesn't have nearly enough structure to allow you to do real macros on. Some languages offer a real data structure, but it's too complex, like Python, so that writing real macros is stupidly complicated and not really worth it.

Lisp's lists and parentheses hit the sweet spot in the middle. Just enough structure to make it easy to handle, but not too much so you drown in complexity. As a bonus, when you nest lists you get a tree, which happens to be precisely the structure that programming languages naturally adopt (nearly all programming languages are first parsed into an "abstract syntax tree", or AST, before being actually interpreted/compiled).

Basically, programming Lisp is writing an AST directly, rather than writing some other language that then gets turned into an AST by the computer. You could possibly forgo the parens, but you'd just need some other way to group things into a list/tree. You probably wouldn't gain much from doing so.

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Nice explanation. – Faheem Mitha Mar 19 '12 at 9:15
1 is an experiment showing string-based macros are not horrific, given the minimum structure of knowing where the parameter ends. TCL is similar - with a bit of support for {...} nested delimiting and some escaping, it makes it easy to write higher-order commands which are really string-based macros. TCL is also quite homoiconic - it uses same nested braces structure for data. Still, it's not exactly pretty (or fast) compared to Lisp's real trees - it's been abserved that "TCL is Lisp on drugs". – Beni Cherniavsky-Paskin Apr 4 '13 at 16:37

Parentheses are irrelevant to macros. It's just Lisp's way of doing things.

For example, Prolog has a very powerful macros mechanism called "term expansion". Basically, whenever Prolog reads a term T, if tries a special rule term_expansion(T, R). If it is successful, the content of R is interpreted instead of T.

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I'm curious does this mechanism have access to the entire Prolog language to do the expansion? Wikipedia makes it sounds like something that happens at some preprocessor step making it a lot less useful than Lisp macros if that is true. – dnolen Apr 27 '10 at 12:33
Term expansion, at least in SWI-Prolog, has access to the entire Prolog language and to every preceding term. It's not a preprocessor, it is a part of the interpreter/compiler itself. – Little Bobby Tables Apr 27 '10 at 13:33

Not to mention the Dylan language, which has a pretty powerful syntactic macro system, which features (among other things) referential transparency, while being an infix (Algol-style) language.

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Looks a lot more complicated than Common Lisp style macros. I suppose that's the thing about CL style macros- they hit a sweet spot of simplicity (in being able to understand how to write them) and power. Perhaps one day more programmers will understand CL style macros and we'll get to the next level. – dnolen Apr 27 '10 at 12:37
@dnolen: Common Lisp isn't the only Lisp. Dylan's macros are based on Scheme's hygienic macros, which have a slightly more complcated syntax but carry other benefits. – Chuck Apr 27 '10 at 17:57

Yes. Parentheses in Lisp are used in the classic way, as a grouping mechanism. Indentation is an alternative way to express groups. E.g. the following structures are equivalent:

A ((B C) D)


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SRFI 49: – Ken Apr 27 '10 at 20:10
Is there any dialect of Lisp that actually allows parentheses to be replaced with indentation in this way? – Anderson Green Sep 13 '13 at 19:21
@AndersonGreen I wrote a simple preprocessor which does exactly that - for any lisp: – Arne Babenhauserheide Jan 9 '14 at 9:58

Have a look at Sweet-expressions. Wheeler makes a very good case that the reason things like infix notation have not worked before is that typical notation also tries to add precedence, which then adds complexity, which causes difficulties in writing macros.

For this reason, he proposes infix syntax like {1 + 2 + 3} and {1 + {2 * 3}} (note the spaces between symbols), that are translated to (+ 1 2) and (+ 1 (* 2 3)) respectively. He adds that if someone writes {1 + 2 * 3}, it should become (nfx 1 + 2 * 3), which could be captured, if you really want to provide precedence, but would, as a default, be an error.

He also suggests that indentation should be significant, proposes that functions could be called as fn(A B C) as well as (fn A B C), would like data[A] to translate to (bracketaccess data A), and that the entire system should be compatible with s-expressions.

Overall, it's an interesting set of proposals I'd like to experiment with extensively. (But don't tell anyone at comp.lang.lisp: they'll burn you at the stake for your curiosity :-).

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Note that there now is an SRFI for Sweet expressions: – Arne Babenhauserheide Jan 9 '14 at 10:00

Erlang's parse transforms are similar in power to Lisp macros, though they are much trickier to write and use (they are applied to the entire source file, rather than being invoked on demand).

Lisp itself had a brief dalliance with non-parenthesised syntax in the form of M-expressions. It didn't take with the community, though variants of the idea found their way into modern Lisps, so you get Lisp's powerful macros without the parentheses ... in Lisp!

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Code rewriting in Tcl in a manner recognizably similar to Lisp macros is a common technique. For example, this is (trivial) code that makes it easier to write procedures that always import a certain set of global variables:

proc gproc {name arguments body} {
    set realbody "global foo bar boo;$body"
    uplevel 1 [list proc $name $arguments $realbody]

With that, all procedures declared with gproc xyz rather than proc xyz will have access to the foo, bar and boo globals. The whole key is that uplevel takes a command and evaluates it in the caller's context, and list is (among other things) an ideal constructor for substitution-safe code fragments.

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Yes, you can definitely have Lisp macros without all the parentheses.

Take a look at "sweet-expressions", which provides a set of additional abbreviations for traditional s-expressions. They add indentation, a way to do infix, and traditional function calls like f(x), but in a way that is backwards-compatible (you can freely mix well-formatted s-expressions and sweet-expressions), generic, and homoiconic.

Sweet-expressions were developed on and there is a sample implementation.

For Scheme there is a SRFI for sweet-expressions, SRFI-110:

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No, it's not necessary. Anything that gives you some sort of access to a parse tree would be enough to allow you to manipulate the macro body in hte same way as is done in Common Lisp. However, as the manipulation of the AST in lisp is identical to the manipulation of lists (something that is bordering on easy in the lisp family), it's possibly not nearly as natural without having the "parse tree" and "written form" be essentially the same.

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Yes, it is certainly possible. Especially if it is still a Lisp under the bonnet:

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Boo has a nice "quoted" macro syntax that uses [| |] as delimiters, and has certain substitutions which are actually verified syntactically by the compiler pipeline using $variables. While simple and relatively painless to use, it's much more complicated to implement on the compiler side than s-expressions. Boo's solution may have a few limitations that haven't affected my own code. There's also an alternate syntax that reads more like ordinary OO code, but that falls into the "not for the faint of heart" category like dealing with Ruby or Python parse trees.

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I think this was not mentioned.

C++ templates are Turing-complete and perform processing at compile-time.

There is the well-known expression templates mechanism that allow transformations, not from arbitrary code, but at least, from the subset of c++ operators.

So imagine you have 3 vectors of 1000 elements and you must perform:

(A + B + C)[0] 

You can capture this tree in a expression template and arbitrarily manipulate it at compile-time.

With this tree, at compile time, you can transform the expression. For example, if that expression means A[0] + B[0] + C[0] for your domain, you could avoid the normal c++ processing which would be:

  1. Add A and B, adding 1000 elements.
  2. Create a temporary for the result, and add with the 1000 elements of C.
  3. Index the result to get the first element.

And replace with another transformed expression template tree that does:

  1. Capture A[0]
  2. Capture B[0]
  3. Capture C[0]
  4. Add all 3 results together in the result to return with += avoiding temporaries.

It is not better than lisp, I think, but it is still very powerful.

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Javascript's template strings offer yet another approach to this sort of thing. For instance, Mark S. Miller's quasiParserGenerator implements a grammar syntax for parsers.

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