Merge pull request #1800 from Kodiologist/augs

Make augmented assignment operators variadic
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Kodi Arfer 2019-08-08 15:17:53 -04:00 committed by GitHub
commit 7908b663ad
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4 changed files with 70 additions and 217 deletions

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@ -11,6 +11,11 @@ Removals
* Literal keywords are no longer parsed differently in calls to functions
with certain names.
New Features
------------------------------
* All augmented assignment operators (except `%=` and `^=`) now allow
more than two arguments.
Bug Fixes
------------------------------
* Statements in the second argument of `assert` are now executed.

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@ -1265,19 +1265,21 @@ class HyASTCompiler(object):
return ret + asty.Compare(
expr, left=exprs[0], ops=ops, comparators=exprs[1:])
m_ops = {"+": ast.Add,
"/": ast.Div,
"//": ast.FloorDiv,
"*": ast.Mult,
"-": ast.Sub,
"%": ast.Mod,
"**": ast.Pow,
"<<": ast.LShift,
">>": ast.RShift,
"|": ast.BitOr,
"^": ast.BitXor,
"&": ast.BitAnd,
"@": ast.MatMult}
# The second element of each tuple below is an aggregation operator
# that's used for augmented assignment with three or more arguments.
m_ops = {"+": (ast.Add, "+"),
"/": (ast.Div, "*"),
"//": (ast.FloorDiv, "*"),
"*": (ast.Mult, "*"),
"-": (ast.Sub, "+"),
"%": (ast.Mod, None),
"**": (ast.Pow, "**"),
"<<": (ast.LShift, "+"),
">>": (ast.RShift, "+"),
"|": (ast.BitOr, "|"),
"^": (ast.BitXor, None),
"&": (ast.BitAnd, "&"),
"@": (ast.MatMult, "@")}
@special(["+", "*", "|"], [many(FORM)])
@special(["-", "/", "&", "@"], [oneplus(FORM)])
@ -1302,7 +1304,7 @@ class HyASTCompiler(object):
# Return the argument unchanged.
return self.compile(args[0])
op = self.m_ops[root]
op = self.m_ops[root][0]
right_associative = root == "**"
ret = self.compile(args[-1 if right_associative else 0])
for child in args[-2 if right_associative else 1 ::
@ -1318,11 +1320,16 @@ class HyASTCompiler(object):
a_ops = {x + "=": v for x, v in m_ops.items()}
@special(list(a_ops.keys()), [FORM, FORM])
def compile_augassign_expression(self, expr, root, target, value):
op = self.a_ops[root]
@special([x for x, (_, v) in a_ops.items() if v is not None], [FORM, oneplus(FORM)])
@special([x for x, (_, v) in a_ops.items() if v is None], [FORM, times(1, 1, FORM)])
def compile_augassign_expression(self, expr, root, target, values):
if len(values) > 1:
return self.compile(mkexpr(root, [target],
mkexpr(self.a_ops[root][1], rest=values)).replace(expr))
op = self.a_ops[root][0]
target = self._storeize(target, self.compile(target))
ret = self.compile(value)
ret = self.compile(values[0])
return ret + asty.AugAssign(
expr, target=target, value=ret.force_expr, op=op())

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@ -1,199 +0,0 @@
;; Copyright 2019 the authors.
;; This file is part of Hy, which is free software licensed under the Expat
;; license. See the LICENSE.
(setv square (fn [x]
(* x x)))
(setv test_basic_math (fn []
"NATIVE: Test basic math."
(assert (= (+ 2 2) 4))))
(setv test_mult (fn []
"NATIVE: Test multiplication."
(assert (= 4 (square 2)))
(assert (= 8 (* 8)))
(assert (= 1 (*)))))
(setv test_sub (fn []
"NATIVE: Test subtraction"
(assert (= 4 (- 8 4)))
(assert (= -8 (- 8)))))
(setv test_add (fn []
"NATIVE: Test addition"
(assert (= 4 (+ 1 1 1 1)))
(assert (= 8 (+ 8)))
(assert (= 0 (+)))))
(defn test-add-unary []
"NATIVE: test that unary + calls __pos__"
(defclass X [object]
(defn __pos__ [self] "called __pos__"))
(assert (= (+ (X)) "called __pos__"))
; Make sure the shadowed version works, too.
(setv f +)
(assert (= (f (X)) "called __pos__")))
(setv test_div (fn []
"NATIVE: Test division"
(assert (= 25 (/ 100 2 2)))
; Commented out until float constants get implemented
; (assert (= 0.5 (/ 1 2)))
(assert (= 1 (* 2 (/ 1 2))))))
(setv test_int_div (fn []
"NATIVE: Test integer division"
(assert (= 25 (// 101 2 2)))))
(defn test-modulo []
"NATIVE: test mod"
(assert (= (% 10 2) 0)))
(defn test-pow []
"NATIVE: test pow"
(assert (= (** 10 2) 100)))
(defn test-lshift []
"NATIVE: test lshift"
(assert (= (<< 1 2) 4)))
(defn test-rshift []
"NATIVE: test lshift"
(assert (= (>> 8 1) 4)))
(defn test-bitor []
"NATIVE: test lshift"
(assert (= (| 1 2) 3)))
(defn test-bitxor []
"NATIVE: test xor"
(assert (= (^ 1 2) 3)))
(defn test-bitand []
"NATIVE: test lshift"
(assert (= (& 1 2) 0)))
(defn test-augassign-add []
"NATIVE: test augassign add"
(setv x 1)
(+= x 41)
(assert (= x 42)))
(defn test-augassign-sub []
"NATIVE: test augassign sub"
(setv x 1)
(-= x 41)
(assert (= x -40)))
(defn test-augassign-mult []
"NATIVE: test augassign mult"
(setv x 1)
(*= x 41)
(assert (= x 41)))
(defn test-augassign-div []
"NATIVE: test augassign div"
(setv x 42)
(/= x 2)
(assert (= x 21)))
(defn test-augassign-floordiv []
"NATIVE: test augassign floordiv"
(setv x 42)
(//= x 2)
(assert (= x 21)))
(defn test-augassign-mod []
"NATIVE: test augassign mod"
(setv x 42)
(%= x 2)
(assert (= x 0)))
(defn test-augassign-pow []
"NATIVE: test augassign pow"
(setv x 2)
(**= x 3)
(assert (= x 8)))
(defn test-augassign-lshift []
"NATIVE: test augassign lshift"
(setv x 2)
(<<= x 2)
(assert (= x 8)))
(defn test-augassign-rshift []
"NATIVE: test augassign rshift"
(setv x 8)
(>>= x 1)
(assert (= x 4)))
(defn test-augassign-bitand []
"NATIVE: test augassign bitand"
(setv x 8)
(&= x 1)
(assert (= x 0)))
(defn test-augassign-bitor []
"NATIVE: test augassign bitand"
(setv x 0)
(|= x 2)
(assert (= x 2)))
(defn test-augassign-bitxor []
"NATIVE: test augassign bitand"
(setv x 1)
(^= x 1)
(assert (= x 0)))
(defn overflow-int-to-long []
"NATIVE: test if int does not raise an overflow exception"
(assert (integer? (+ 1 1000000000000000000000000))))
(defclass HyTestMatrix [list]
(defn --matmul-- [self other]
(setv n (len self)
m (len (. other [0]))
result [])
(for [i (range m)]
(setv result-row [])
(for [j (range n)]
(setv dot-product 0)
(for [k (range (len (. self [0])))]
(+= dot-product (* (. self [i] [k])
(. other [k] [j]))))
(.append result-row dot-product))
(.append result result-row))
result))
(setv first-test-matrix (HyTestMatrix [[1 2 3]
[4 5 6]
[7 8 9]]))
(setv second-test-matrix (HyTestMatrix [[2 0 0]
[0 2 0]
[0 0 2]]))
(setv product-of-test-matrices (HyTestMatrix [[ 2 4 6]
[ 8 10 12]
[14 16 18]]))
(defn test-matmul []
"NATIVE: test matrix multiplication"
(assert (= (@ first-test-matrix second-test-matrix)
product-of-test-matrices)))
(defn test-augassign-matmul []
"NATIVE: test augmented-assignment matrix multiplication"
(setv matrix first-test-matrix
matmul-attempt (try (@= matrix second-test-matrix)
(except [e [Exception]] e)))
(assert (= product-of-test-matrices matrix)))

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@ -303,3 +303,43 @@
(assert (= (f "hello" 1) "e"))
(assert (= (f [[1 2 3] [4 5 6] [7 8 9]] 1 2) 6))
(assert (= (f {"x" {"y" {"z" 12}}} "x" "y" "z") 12)))
(defn test-augassign []
(setv b 2 c 3 d 4)
(defmacro same-as [expr1 expr2 expected-value]
`(do
(setv a 4)
~expr1
(setv expr1-value a)
(setv a 4)
~expr2
(assert (= expr1-value a ~expected-value))))
(same-as (+= a b c d) (+= a (+ b c d)) 13)
(same-as (-= a b c d) (-= a (+ b c d)) -5)
(same-as (*= a b c d) (*= a (* b c d)) 96)
(same-as (**= a b c) (**= a (** b c)) 65,536)
(same-as (/= a b c d) (/= a (* b c d)) (/ 1 6))
(same-as (//= a b c d) (//= a (* b c d)) 0)
(same-as (<<= a b c d) (<<= a (+ b c d)) 0b10_00000_00000)
(same-as (>>= a b c d) (>>= a (+ b c d)) 0)
(same-as (&= a b c d) (&= a (& b c d)) 0)
(same-as (|= a b c d) (|= a (| b c d)) 0b111)
(defclass C [object]
(defn __init__ [self content] (setv self.content content))
(defn __matmul__ [self other] (C (+ self.content other.content))))
(setv a (C "a") b (C "b") c (C "c") d (C "d"))
(@= a b c d)
(assert (= a.content "abcd"))
(setv a (C "a"))
(@= a (@ b c d))
(assert (= a.content "abcd"))
(setv a 15)
(%= a 9)
(assert (= a 6))
(setv a 0b1100)
(^= a 0b1010)
(assert (= a 0b0110)))