hy/hy/core/macros.hy

;;; Hy core macros
;;
;; Copyright (c) 2013 Nicolas Dandrimont <nicolas.dandrimont@crans.org>
;; Copyright (c) 2013 Paul Tagliamonte <paultag@debian.org>
;; Copyright (c) 2013 Konrad Hinsen <konrad.hinsen@fastmail.net>
;;
;; Permission is hereby granted, free of charge, to any person obtaining a
;; copy of this software and associated documentation files (the "Software"),
;; to deal in the Software without restriction, including without limitation
;; the rights to use, copy, modify, merge, publish, distribute, sublicense,
;; and/or sell copies of the Software, and to permit persons to whom the
;; Software is furnished to do so, subject to the following conditions:
;;
;; The above copyright notice and this permission notice shall be included in
;; all copies or substantial portions of the Software.
;;
;; THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
;; IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
;; FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT.  IN NO EVENT SHALL
;; THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
;; LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
;; FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER
;; DEALINGS IN THE SOFTWARE.
;;
;;; These macros form the hy language
;;; They are automatically required in every module, except inside hy.core


(import [hy.models.list [HyList]]
        [hy.models.symbol [HySymbol]])



(defmacro for [args &rest body]
  "shorthand for nested for loops:
  (for [x foo
        y bar]
    baz) ->
  (for* [x foo]
    (for* [y bar]
      baz))"

  (if (odd? (len args))
    (macro-error args "`for' requires an even number of args."))

  (if (empty? body)
    (macro-error None "`for' requires a body to evaluate"))

  (if (empty? args)
    `(do ~@body)
    (if (= (len args) 2)
      ; basecase, let's just slip right in.
      `(for* [~@args] ~@body)
      ; otherwise, let's do some legit handling.
      (let [[alist (slice args 0 nil 2)]
            [ilist (slice args 1 nil 2)]]
        `(do
           (import itertools)
           (for* [(, ~@alist) (itertools.product ~@ilist)] ~@body))))))


(defmacro with [args &rest body]
  "shorthand for nested for* loops:
  (with [[x foo] [y bar]] baz) ->
  (with* [x foo]
    (with* [y bar]
      baz))"

  (if (not (empty? args))
    (let [[primary (.pop args 0)]]
      (if (isinstance primary HyList)
        ;;; OK. if we have a list, we can go ahead and unpack that
        ;;; as the argument to with.
        `(with* [~@primary] (with ~args ~@body))
        ;;; OK, let's just give it away. This may not be something we
        ;;; can do, but that's really the programmer's problem.
        `(with* [~primary] (with ~args ~@body))))
      `(do ~@body)))


(defmacro car [thing]
  "Get the first element of a list/cons"
  `(get ~thing 0))


(defmacro cdr [thing]
  "Get all the elements of a thing, except the first"
  `(slice ~thing 1))


(defmacro cond [&rest branches]
  "shorthand for nested ifs:
   (cond [foo bar] [baz quux]) ->
   (if foo
     bar
     (if baz
       quux))"
  (setv branches (iter branches))
  (setv branch (next branches))
  (defn check-branch [branch]
    "check `cond` branch for validity, return the corresponding `if` expr"
    (if (not (= (type branch) HyList))
      (macro-error branch "cond branches need to be a list"))
    (if (!= (len branch) 2)
      (macro-error branch "cond branches need two items: a test and a code branch"))
    (setv (, test thebranch) branch)
    `(if ~test ~thebranch))

  (setv root (check-branch branch))
  (setv latest-branch root)

  (for* [branch branches]
    (setv cur-branch (check-branch branch))
    (.append latest-branch cur-branch)
    (setv latest-branch cur-branch))
  root)


(defmacro -> [head &rest rest]
  ;; TODO: fix the docstring by someone who understands this
  (setv ret head)
  (for* [node rest]
    (if (not (isinstance node HyExpression))
      (setv node `(~node)))
    (.insert node 1 ret)
    (setv ret node))
  ret)


(defmacro ->> [head &rest rest]
  ;; TODO: fix the docstring by someone who understands this
  (setv ret head)
  (for* [node rest]
    (if (not (isinstance node HyExpression))
      (setv node `(~node)))
    (.append node ret)
    (setv ret node))
  ret)


(defmacro when [test &rest body]
  "Execute `body` when `test` is true"
  `(if ~test (do ~@body)))


(defmacro unless [test &rest body]
  "Execute `body` when `test` is false"
  `(if ~test None (do ~@body)))


(defmacro yield-from [iterable]
  "Yield all the items from iterable"
  (let [[x (gensym)]]
  `(for* [~x ~iterable]
     (yield ~x))))

(defmacro with-gensyms [args &rest body]
  `(let ~(HyList (map (fn [x] `[~x (gensym '~x)]) args))
    ~@body))

(defmacro defmacro/g! [name args &rest body]
  (let [[syms (list (distinct (filter (fn [x] (.startswith x "g!")) (flatten body))))]]
    `(defmacro ~name [~@args]
       (let ~(HyList (map (fn [x] `[~x (gensym (slice '~x 2))]) syms))
            ~@body))))


(defmacro kwapply [call kwargs]
  "Use a dictionary as keyword arguments"
  (let [[-fun (car call)]
        [-args (cdr call)]
        [-okwargs `[(list (.items ~kwargs))]]]
    (while (= -fun "kwapply") ;; join any further kw
      (if (not (= (len -args) 2))
        (macro-error
         call
         (.format "Trying to call nested kwapply with {0} args instead of 2"
                  (len -args))))
      (.insert -okwargs 0 `(list (.items ~(car (cdr -args)))))
      (setv -fun (car (car -args)))
      (setv -args (cdr (car -args))))

    `(apply ~-fun [~@-args] (dict (sum ~-okwargs [])))))