Reduce scope of symbol replacement for anaphoric macros
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NEWS.rst
5
NEWS.rst
@ -8,6 +8,11 @@ Other Breaking Changes
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* `parse-args` is no longer implemented with `eval`; so e.g. you should
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now say `:type int` instead of `:type 'int`.
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Bug Fixes
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------------------------------
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* Improved support for nesting anaphoric macros by only applying
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symbol replacement where absolutely necessary.
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0.18.0
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==============================
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@ -19,9 +19,11 @@ To use these macros you need to require the ``hy.extra.anaphoric`` module like s
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These macros are implemented by replacing any use of the designated
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anaphoric symbols (``it``, in most cases) with a gensym. Consequently,
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it's unwise to nest these macros, or to use an affected symbol as
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something other than a variable name, as in ``(print "My favorite
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Stephen King book is" 'it)``.
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it's unwise to nest these macros where symbol replacement is happening.
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Symbol replacement typically takes place in ``body`` or ``form``
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parameters, where the output of the expression may be returned. It is also
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recommended to avoid using an affected symbol as something other than a
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variable name, as in ``(print "My favorite Stephen King book is" 'it)``.
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.. _ap-if:
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@ -3,49 +3,62 @@
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;; This file is part of Hy, which is free software licensed under the Expat
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;; license. See the LICENSE.
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;;; Macro to help write anaphoric macros
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(defmacro rit [&rest body]
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"""Supply `it` as a gensym and R as a function to replace `it` with the
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given gensym throughout expressions."""
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`(do
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(setv it (gensym))
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(defn R [form]
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"Replace `it` with a gensym throughout `form`."
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(recur-sym-replace {'it it} form))
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~@body))
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;;; These macros make writing functional programs more concise
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(defmacro ap-if [test-form then-form &optional else-form]
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(rit `(do
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(setv it ~test-form)
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(if it ~then-form ~else-form))))
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(setv ~it ~test-form)
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(if ~it ~(R then-form) ~(R else-form)))))
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(defmacro ap-each [xs &rest body]
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(rit `(for [it ~xs] ~@body)))
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(rit `(for [~it ~xs] ~@(R body))))
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(defmacro ap-each-while [xs form &rest body]
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(rit `(for [it ~xs]
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(unless ~form
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(rit `(for [~it ~xs]
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(unless ~(R form)
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(break))
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~@body)))
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~@(R body))))
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(defmacro ap-map [form xs]
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(rit `(gfor it ~xs ~form)))
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(rit `(gfor ~it ~xs ~(R form))))
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(defmacro ap-map-when [predfn rep xs]
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(rit `(gfor it ~xs (if (~predfn it) ~rep it))))
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(rit `(gfor ~it ~xs (if (~predfn ~it) ~(R rep) ~it))))
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(defmacro ap-filter [form xs]
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(rit `(gfor it ~xs :if ~form it)))
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(rit `(gfor ~it ~xs :if ~(R form) ~it)))
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(defmacro ap-reject [form xs]
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(rit `(gfor it ~xs :if (not ~form) it)))
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(rit `(gfor ~it ~xs :if (not ~(R form)) ~it)))
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(defmacro ap-dotimes [n &rest body]
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(rit `(for [it (range ~n)]
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~@body)))
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(rit `(for [~it (range ~n)]
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~@(R body))))
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(defmacro ap-first [form xs]
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(rit `(next
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(gfor it ~xs :if ~form it)
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(gfor ~it ~xs :if ~(R form) ~it)
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None)))
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@ -53,21 +66,25 @@
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(setv x (gensym))
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(rit `(do
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(setv ~x None)
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(for [it ~xs :if ~form]
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(setv ~x it))
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(for [~it ~xs :if ~(R form)]
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(setv ~x ~it))
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~x)))
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(defmacro! ap-reduce [form o!xs &optional [initial-value None]]
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(recur-sym-replace {'it (gensym) 'acc (gensym)} `(do
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(setv acc ~(if (none? initial-value)
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(setv
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it (gensym)
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acc (gensym))
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(defn R [form]
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(recur-sym-replace {'it it 'acc acc} form))
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`(do
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(setv ~acc ~(if (none? initial-value)
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`(do
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(setv ~g!xs (iter ~g!xs))
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(next ~g!xs))
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initial-value))
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(for [it ~g!xs]
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(setv acc ~form))
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acc)))
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(for [~it ~g!xs]
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(setv ~acc ~(R form)))
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~acc))
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(deftag % [expr]
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@ -106,8 +123,3 @@
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((type form) (gfor x form (recur-sym-replace d x)))]
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[True
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form]))
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(defn rit [form]
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"Replace `it` with a gensym throughout `form`."
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(recur-sym-replace {'it (gensym)} form))
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@ -13,17 +13,40 @@
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(setv it "orig")
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(setv out (ap-if (+ 1 1) (+ it 1) (+ it 10)))
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(assert (= out 3))
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(assert (= it "orig")))
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(assert (= it "orig"))
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(ap-if
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(->> [1 2 3 4 5]
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(ap-filter (= (% it 2) 0))
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(list))
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(assert (= it [2 4]))))
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(defn test-ap-each []
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(setv res [])
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(assert (is (ap-each [1 2 3 4] (.append res it)) None))
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(assert (= res [1 2 3 4])))
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(assert (= res [1 2 3 4]))
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(setv res [])
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(ap-each
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(->> [1 2 3 4]
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(ap-map (+ 1 it))
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(list))
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(.append res it))
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(assert (= res [2 3 4 5])))
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(defn test-ap-each-while []
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(setv res [])
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(ap-each-while [2 2 4 3 4 5 6] (even? it) (.append res it))
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(assert (= res [2 2 4])))
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(assert (= res [2 2 4]))
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(setv res [])
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(ap-each-while
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(->> [2 2 4 3 4 5 6]
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(ap-map (+ 1 it))
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(list))
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(odd? it) (.append res it))
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(assert (= res [3 3 5])))
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(defn test-ap-map []
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(assert (= (list (ap-map (* it 3) [1 2 3]))
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@ -31,23 +54,51 @@
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(assert (= (list (ap-map (* it 3) []))
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[]))
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(assert (= (do (setv v 1 f 1) (list (ap-map (it v f) [(fn [a b] (+ a b))])))
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[2])))
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[2]))
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(assert (=
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(->> [1 2 3]
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(ap-filter (even? it))
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(ap-map (* 3 it))
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(list))
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[6])))
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(defn test-ap-map-when []
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(assert (= (list (ap-map-when even? (* it 2) [1 2 3 4]))
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[1 4 3 8])))
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[1 4 3 8]))
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(assert (=
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(->> [1 2 3 4]
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(ap-map (+ 1 it))
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(ap-map-when even? (* 2 it))
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(list))
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[4 3 8 5])))
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(defn test-ap-filter []
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(assert (= (list (ap-filter (> it 2) [1 2 3 4]))
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[3 4]))
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(assert (= (list (ap-filter (even? it) [1 2 3 4]))
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[2 4])))
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[2 4]))
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(assert (=
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(->> [1 2 3 4]
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(ap-map (+ 3 it))
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(ap-filter (even? it))
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(list))
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[4 6])))
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(defn test-ap-reject []
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(assert (= (list (ap-reject (> it 2) [1 2 3 4]))
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[1 2]))
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(assert (= (list (ap-reject (even? it) [1 2 3 4]))
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[1 3])))
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[1 3]))
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(assert (=
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(->> [1 2 3 4]
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(ap-map (+ 3 it))
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(ap-reject (even? it))
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(list))
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[5 7])))
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(defn test-ap-dotimes []
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(assert (= (do (setv n []) (ap-dotimes 3 (.append n 3)) n)
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@ -59,17 +110,38 @@
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(setv n 5)
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(setv x "")
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(ap-dotimes n (+= x "."))
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(assert (= x ".....")))
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(assert (= x "....."))
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(assert (=
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(do
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(setv n [])
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(ap-dotimes
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(ap-first (odd? it) [2 4 5 6 3 8])
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(.append n it))
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n)
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[0 1 2 3 4])))
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(defn test-ap-first []
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(assert (= (ap-first (> it 5) (range 10)) 6))
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(assert (= (ap-first (even? it) [1 2 3 4]) 2))
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(assert (= (ap-first (> it 10) (range 10)) None)))
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(assert (= (ap-first (> it 10) (range 10)) None))
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(assert (=
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(->> [1 2 3 4]
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(ap-map (+ 4 it))
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(ap-first (even? it)))
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6)))
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(defn test-ap-last []
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(assert (= (ap-last (> it 5) (range 10)) 9))
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(assert (= (ap-last (even? it) [1 2 3 4]) 4))
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(assert (= (ap-last (> it 10) (range 10)) None)))
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(assert (= (ap-last (> it 10) (range 10)) None))
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(assert (=
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(->> [1 2 3 4]
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(ap-map (+ 4 it))
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(ap-last (odd? it)))
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7)))
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(defn test-ap-reduce []
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(assert (= (ap-reduce (* acc it) [1 2 3]) 6))
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@ -86,7 +158,13 @@
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(assert (=
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(ap-reduce (* acc it) (do (+= expr-evaluated 1) [4 5 6])))
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120)
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(assert (= expr-evaluated 1)))
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(assert (= expr-evaluated 1))
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(assert (=
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(->> [1 2 3]
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(ap-map (+ 2 it))
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(ap-reduce (* acc it)))
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60)))
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(defn test-tag-fn []
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;; test ordering
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