c80e3c75a0
Adding to the manual gensym for macros are 2 new macros, but very literal from the CL in letoverlambda. The first is the (with-gensyms ...) macro that can generate a small set of syms for a macro. Works something like: (defmacro adder2 [A B] (with-gensyms [a b] `(let [[~a ~A] [~b ~B]] (+ ~a ~b)))) and ~a and ~b will be replaced with (gensym "a") and (gensym "b") respectively. Then the final macro is a new defmacro that will automatically replace symbols prefaced with "g!" with a new gensym based on the rest of the symbol. So in this final version of 'nif': (defmacro/g! nif4 (expr pos zero neg) `(let [[~g!result ~expr]] (cond [(pos? ~g!result) ~pos] [(zero? ~g!result) ~zero] [(neg? ~g!result) ~neg]))) all uses of ~g!result will be replaced with (gensym "result").
179 lines
4.6 KiB
Hy
179 lines
4.6 KiB
Hy
(defmacro rev [&rest body]
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"Execute the `body` statements in reverse"
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(quasiquote (do (unquote-splice (list (reversed body))))))
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(defn test-rev-macro []
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"NATIVE: test stararged native macros"
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(setv x [])
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(rev (.append x 1) (.append x 2) (.append x 3))
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(assert (= x [3 2 1])))
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; Macros returning constants
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(defmacro an-int [] 42)
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(assert (= (an-int) 42))
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(defmacro a-true [] True)
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(assert (= (a-true) True))
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(defmacro a-false [] False)
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(assert (= (a-false) False))
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(defmacro a-float [] 42.)
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(assert (= (a-float) 42.))
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(defmacro a-complex [] 42j)
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(assert (= (a-complex) 42j))
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(defmacro a-string [] "foo")
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(assert (= (a-string) "foo"))
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(defmacro a-list [] [1 2])
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(assert (= (a-list) [1 2]))
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(defmacro a-dict [] {1 2})
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(assert (= (a-dict) {1 2}))
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(defmacro a-none [])
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(assert (= (a-none) None))
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; A macro calling a previously defined function
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(eval-when-compile
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(defn foo [x y]
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(quasiquote (+ (unquote x) (unquote y)))))
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(defmacro bar [x y]
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(foo x y))
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(defn test-fn-calling-macro []
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"NATIVE: test macro calling a plain function"
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(assert (= 3 (bar 1 2))))
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(defn test-midtree-yield []
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"NATIVE: test yielding with a returnable"
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(defn kruft [] (yield) (+ 1 1)))
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(defn test-midtree-yield-in-for []
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"NATIVE: test yielding in a for with a return"
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(defn kruft-in-for []
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(for [i (range 5)]
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(yield i))
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(+ 1 2)))
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(defn test-midtree-yield-in-while []
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"NATIVE: test yielding in a while with a return"
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(defn kruft-in-while []
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(setv i 0)
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(while (< i 5)
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(yield i)
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(setv i (+ i 1)))
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(+ 2 3)))
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(defn test-multi-yield []
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"NATIVE: testing multiple yields"
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(defn multi-yield []
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(for [i (range 3)]
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(yield i))
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(yield "a")
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(yield "end"))
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(assert (= (list (multi-yield)) [0 1 2 "a" "end"])))
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; Macro that checks a variable defined at compile or load time
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(setv phase "load")
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(eval-when-compile
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(setv phase "compile"))
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(defmacro phase-when-compiling [] phase)
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(assert (= phase "load"))
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(assert (= (phase-when-compiling) "compile"))
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(setv initialized False)
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(eval-and-compile
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(setv initialized True))
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(defmacro test-initialized [] initialized)
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(assert initialized)
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(assert (test-initialized))
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(defn test-yield-from []
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"NATIVE: testing yield from"
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(defn yield-from-test []
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(for [i (range 3)]
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(yield i))
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(yield-from [1 2 3]))
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(assert (= (list (yield-from-test)) [0 1 2 1 2 3])))
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(defn test-if-python2 []
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(import sys)
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(assert (= (get sys.version_info 0)
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(if-python2 2 3))))
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(defn test-gensym-in-macros []
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(import ast)
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(import [astor.codegen [to_source]])
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(import [hy.importer [import_buffer_to_ast]])
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(setv macro1 "(defmacro nif [expr pos zero neg]
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(let [[g (gensym)]]
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`(let [[~g ~expr]]
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(cond [(pos? ~g) ~pos]
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[(zero? ~g) ~zero]
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[(neg? ~g) ~neg]))))
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(print (nif (inc -1) 1 0 -1))
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")
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;; expand the macro twice, should use a different
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;; gensym each time
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(setv _ast1 (import_buffer_to_ast macro1 "foo"))
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(setv _ast2 (import_buffer_to_ast macro1 "foo"))
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(setv s1 (to_source _ast1))
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(setv s2 (to_source _ast2))
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;; and make sure there is something new that starts with :G_
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(assert (in ":G_" s1))
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(assert (in ":G_" s2))
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;; but make sure the two don't match each other
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(assert (not (= s1 s2))))
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(defn test-with-gensym []
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(import ast)
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(import [astor.codegen [to_source]])
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(import [hy.importer [import_buffer_to_ast]])
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(setv macro1 "(defmacro nif [expr pos zero neg]
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(with-gensyms [a]
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`(let [[~a ~expr]]
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(cond [(pos? ~a) ~pos]
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[(zero? ~a) ~zero]
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[(neg? ~a) ~neg]))))
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(print (nif (inc -1) 1 0 -1))
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")
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;; expand the macro twice, should use a different
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;; gensym each time
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(setv _ast1 (import_buffer_to_ast macro1 "foo"))
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(setv _ast2 (import_buffer_to_ast macro1 "foo"))
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(setv s1 (to_source _ast1))
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(setv s2 (to_source _ast2))
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(assert (in ":a_" s1))
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(assert (in ":a_" s2))
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(assert (not (= s1 s2))))
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(defn test-defmacro-g! []
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(import ast)
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(import [astor.codegen [to_source]])
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(import [hy.importer [import_buffer_to_ast]])
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(setv macro1 "(defmacro/g! nif [expr pos zero neg]
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`(let [[~g!res ~expr]]
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(cond [(pos? ~g!res) ~pos]
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[(zero? ~g!res) ~zero]
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[(neg? ~g!res) ~neg])))
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(print (nif (inc -1) 1 0 -1))
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")
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;; expand the macro twice, should use a different
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;; gensym each time
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(setv _ast1 (import_buffer_to_ast macro1 "foo"))
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(setv _ast2 (import_buffer_to_ast macro1 "foo"))
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(setv s1 (to_source _ast1))
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(setv s2 (to_source _ast2))
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(assert (in ":res_" s1))
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(assert (in ":res_" s2))
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(assert (not (= s1 s2))))
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