mirror of
https://github.com/janet-lang/janet
synced 2024-11-09 02:09:54 +00:00
872b39cc32
Number literals can now take an optional "representation" suffix - Use `:n` for normal numbers (IEEE-754 doubles) - Use `:s` for signed 64 bit integers - Use `:u` for unsigned 64 bit integers - Other suffix will fallthrough the usual parseing logic. This means that they will only possibly resolve to symbols if they start with -, +, or . The syntax does not collide with any existing valid Janet and is only enabled with JANET_INTTYPES. This also leaves open a syntax for other number types such as bignums, ratios, decimals, etc.
297 lines
10 KiB
Plaintext
297 lines
10 KiB
Plaintext
# Copyright (c) 2023 Calvin Rose & contributors
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#
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# Permission is hereby granted, free of charge, to any person obtaining a copy
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# of this software and associated documentation files (the "Software"), to
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# deal in the Software without restriction, including without limitation the
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# rights to use, copy, modify, merge, publish, distribute, sublicense, and/or
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# sell copies of the Software, and to permit persons to whom the Software is
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# furnished to do so, subject to the following conditions:
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#
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# The above copyright notice and this permission notice shall be included in
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# all copies or substantial portions of the Software.
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#
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# THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR
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# IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY,
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# FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE
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# AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER
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# LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING
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# FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS
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# IN THE SOFTWARE.
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(import ./helper :prefix "" :exit true)
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(start-suite)
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# some tests for bigint
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# 319575c
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(def i64 int/s64)
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(def u64 int/u64)
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(assert-no-error
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"create some uint64 bigints"
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(do
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# from number
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(def a (u64 10))
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# max double we can convert to int (2^53)
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(def b (u64 0x1fffffffffffff))
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(def b (u64 (math/pow 2 53)))
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# from string
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(def c (u64 "0xffff_ffff_ffff_ffff"))
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(def c (u64 "32rvv_vv_vv_vv"))
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(def d (u64 "123456789"))))
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# Conversion back to an int32
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# 88db9751d
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(assert (= (int/to-number (u64 0xFaFa)) 0xFaFa))
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(assert (= (int/to-number (i64 0xFaFa)) 0xFaFa))
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(assert (= (int/to-number (u64 9007199254740991)) 9007199254740991))
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(assert (= (int/to-number (i64 9007199254740991)) 9007199254740991))
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(assert (= (int/to-number (i64 -9007199254740991)) -9007199254740991))
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# New parser
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(assert (= (u64 "123") 123:u) "u64 parsing")
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(assert (= (u64 "0") 0:u) "u64 parsing")
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(assert (= (u64 "0xFFFF_FFFF_FFFF_FFFF") 0xFFFF_FFFF_FFFF_FFFF:u) "u64 parsing")
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(assert (= (i64 "123") 123:s) "s64 parsing")
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(assert (= (i64 "-123") -123:s) "s64 parsing")
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(assert (= (i64 "0") 0:s) "s64 parsing")
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(assert-error
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"u64 out of bounds for safe integer"
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(int/to-number (u64 "9007199254740993"))
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(assert-error
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"s64 out of bounds for safe integer"
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(int/to-number (i64 "-9007199254740993"))))
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(assert-error
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"int/to-number fails on non-abstract types"
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(int/to-number 1))
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(assert-no-error
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"create some int64 bigints"
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(do
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# from number
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(def a (i64 -10))
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# max double we can convert to int (2^53)
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(def b (i64 0x1fffffffffffff))
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(def b (i64 (math/pow 2 53)))
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# from string
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(def c (i64 "0x7fff_ffff_ffff_ffff"))
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(def d (i64 "123456789"))))
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(assert-error
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"bad initializers"
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(do
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# double to big to be converted to uint64 without truncation (2^53 + 1)
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(def b (u64 (+ 0xffff_ffff_ffff_ff 1)))
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(def b (u64 (+ (math/pow 2 53) 1)))
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# out of range 65 bits
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(def c (u64 "0x1ffffffffffffffff"))
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# just to big
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(def d (u64 "123456789123456789123456789"))))
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(assert (= (:/ (u64 "0xffff_ffff_ffff_ffff") 8 2) (u64 "0xfffffffffffffff"))
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"bigint operations 1")
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(assert (let [a (u64 0xff)] (= (:+ a a a a) (:* a 2 2)))
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"bigint operations 2")
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# 5ae520a2c
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(assert (= (string (i64 -123)) "-123") "i64 prints reasonably")
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(assert (= (string (u64 123)) "123") "u64 prints reasonably")
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# 1db6d0e0b
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(assert-error
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"trap INT64_MIN / -1"
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(:/ (int/s64 "-0x8000_0000_0000_0000") -1))
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# int/s64 and int/u64 serialization
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# 6aea7c7f7
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(assert (deep= (int/to-bytes (u64 0)) @"\x00\x00\x00\x00\x00\x00\x00\x00"))
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(assert (deep= (int/to-bytes (i64 1) :le)
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@"\x01\x00\x00\x00\x00\x00\x00\x00"))
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(assert (deep= (int/to-bytes (i64 1) :be)
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@"\x00\x00\x00\x00\x00\x00\x00\x01"))
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(assert (deep= (int/to-bytes (i64 -1))
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@"\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFF"))
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(assert (deep= (int/to-bytes (i64 -5) :be)
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@"\xFF\xFF\xFF\xFF\xFF\xFF\xFF\xFB"))
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(assert (deep= (int/to-bytes (u64 1) :le)
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@"\x01\x00\x00\x00\x00\x00\x00\x00"))
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(assert (deep= (int/to-bytes (u64 1) :be)
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@"\x00\x00\x00\x00\x00\x00\x00\x01"))
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(assert (deep= (int/to-bytes (u64 300) :be)
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@"\x00\x00\x00\x00\x00\x00\x01\x2C"))
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# int/s64 int/u64 to existing buffer
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# bbb3e16fd
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(let [buf1 @""
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buf2 @"abcd"]
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(assert (deep= (int/to-bytes (i64 1) :le buf1)
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@"\x01\x00\x00\x00\x00\x00\x00\x00"))
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(assert (deep= buf1 @"\x01\x00\x00\x00\x00\x00\x00\x00"))
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(assert (deep= (int/to-bytes (u64 300) :be buf2)
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@"abcd\x00\x00\x00\x00\x00\x00\x01\x2C")))
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# int/s64 and int/u64 parameter type checking
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# 6aea7c7f7
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(assert-error
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"bad value passed to int/to-bytes"
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(int/to-bytes 1))
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# 6aea7c7f7
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(assert-error
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"invalid endianness passed to int/to-bytes"
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(int/to-bytes (u64 0) :little))
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# bbb3e16fd
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(assert-error
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"invalid buffer passed to int/to-bytes"
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(int/to-bytes (u64 0) :little :buffer))
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# Right hand operators
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# 4fe005e3c
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(assert (= (int/s64 (sum (range 10))) (sum (map int/s64 (range 10))))
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"right hand operators 1")
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(assert (= (int/s64
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(product (range 1 10))) (product (map int/s64 (range 1 10))))
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"right hand operators 2")
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(assert (= (int/s64 15) (bor 10 (int/s64 5)) (bor (int/s64 10) 5))
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"right hand operators 3")
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# Integer type checks
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# 11067d7a5
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(assert (compare= 0 (- (int/u64 "1000") 1000)) "subtract from int/u64")
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(assert (odd? (int/u64 "1001")) "odd? 1")
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(assert (not (odd? (int/u64 "1000"))) "odd? 2")
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(assert (odd? (int/s64 "1001")) "odd? 3")
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(assert (not (odd? (int/s64 "1000"))) "odd? 4")
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(assert (odd? (int/s64 "-1001")) "odd? 5")
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(assert (not (odd? (int/s64 "-1000"))) "odd? 6")
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(assert (even? (int/u64 "1000")) "even? 1")
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(assert (not (even? (int/u64 "1001"))) "even? 2")
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(assert (even? (int/s64 "1000")) "even? 3")
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(assert (not (even? (int/s64 "1001"))) "even? 4")
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(assert (even? (int/s64 "-1000")) "even? 5")
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(assert (not (even? (int/s64 "-1001"))) "even? 6")
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# integer type operations
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(defn opcheck [int x y]
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(each op [mod % div]
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(assert (compare= (op x y) (op (int x) y))
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(string int " (" op " " x " " y ") expected " (op x y)
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", got " (op (int x) y)))
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(assert (compare= (op x y) (op x (int y)))
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(string int " (" op " " x " " y ") expected " (op x y)
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", got " (op x (int y))))
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(assert (compare= (op x y) (op (int x) (int y)))
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(string int " (" op " " x " " y ") expected " (op x y)
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", got " (op (int x) (int y))))))
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(loop [x :in [-5 -3 0 3 5]
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y :in [-4 -3 3 4]]
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(opcheck int/s64 x y)
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(if (and (>= x 0) (>= y 0))
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(opcheck int/u64 x y)))
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(each int [int/s64 int/u64]
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(each op [% / div]
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(assert-error "division by zero" (op (int 7) 0))
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(assert-error "division by zero" (op 7 (int 0)))
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(assert-error "division by zero" (op (int 7) (int 0)))))
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(each int [int/s64 int/u64]
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(loop [x :in [-5 -3 0 3 5] :when (or (pos? x) (= int int/s64))]
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# skip check when comparing negative values with unsigned integers.
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(assert (= (int x) (mod (int x) 0)) (string int " mod 0"))
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(assert (= (int x) (mod x (int 0))) (string int " mod 0"))
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(assert (= (int x) (mod (int x) (int 0))) (string int " mod 0"))))
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(loop [x :in [-5 -3 0 3 5]]
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(assert (compare= (bnot x) (bnot (int/s64 x))) "int/s64 bnot"))
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(loop [x :range [0 10]]
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(assert (= (int/u64 "0xFFFF_FFFF_FFFF_FFFF")
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(bxor (int/u64 x) (bnot (int/u64 x))))
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"int/u64 bnot"))
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# Check for issue #1130
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# 7e65c2bda
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(var d (int/s64 7))
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(mod 0 d)
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(var d (int/s64 7))
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(def result (seq [n :in (range -21 0)] (mod n d)))
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(assert (deep= result
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(map int/s64 @[0 1 2 3 4 5 6 0 1 2 3 4 5 6 0 1 2 3 4 5 6]))
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"issue #1130")
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# issue #272 - 81d301a42
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(let [MAX_INT_64_STRING "9223372036854775807"
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MAX_UINT_64_STRING "18446744073709551615"
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MAX_INT_IN_DBL_STRING "9007199254740991"
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NAN (math/log -1)
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INF (/ 1 0)
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MINUS_INF (/ -1 0)
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compare-poly-tests
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[[(int/s64 3) (int/u64 3) 0]
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[(int/s64 -3) (int/u64 3) -1]
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[(int/s64 3) (int/u64 2) 1]
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[(int/s64 3) 3 0] [(int/s64 3) 4 -1] [(int/s64 3) -9 1]
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[(int/u64 3) 3 0] [(int/u64 3) 4 -1] [(int/u64 3) -9 1]
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[3 (int/s64 3) 0] [3 (int/s64 4) -1] [3 (int/s64 -5) 1]
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[3 (int/u64 3) 0] [3 (int/u64 4) -1] [3 (int/u64 2) 1]
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[(int/s64 MAX_INT_64_STRING) (int/u64 MAX_UINT_64_STRING) -1]
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[(int/s64 MAX_INT_IN_DBL_STRING)
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(scan-number MAX_INT_IN_DBL_STRING) 0]
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[(int/u64 MAX_INT_IN_DBL_STRING)
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(scan-number MAX_INT_IN_DBL_STRING) 0]
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[(+ 1 (int/u64 MAX_INT_IN_DBL_STRING))
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(scan-number MAX_INT_IN_DBL_STRING) 1]
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[(int/s64 0) INF -1] [(int/u64 0) INF -1]
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[MINUS_INF (int/u64 0) -1] [MINUS_INF (int/s64 0) -1]
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[(int/s64 1) NAN 0] [NAN (int/u64 1) 0]]]
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(each [x y c] compare-poly-tests
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(assert (= c (compare x y))
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(string/format "compare polymorphic %q %q %d" x y c))))
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# marshal
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(def m1 (u64 3141592654))
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(def m2 (unmarshal (marshal m1)))
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(assert (= m1 m2) "marshal/unmarshal")
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# compare u64/u64
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(assert (= (compare (u64 1) (u64 2)) -1) "compare 1")
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(assert (= (compare (u64 1) (u64 1)) 0) "compare 2")
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(assert (= (compare (u64 2) (u64 1)) +1) "compare 3")
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# compare i64/i64
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(assert (= (compare (i64 -1) (i64 +1)) -1) "compare 4")
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(assert (= (compare (i64 +1) (i64 +1)) 0) "compare 5")
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(assert (= (compare (i64 +1) (i64 -1)) +1) "compare 6")
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# compare u64/i64
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(assert (= (compare (u64 1) (i64 2)) -1) "compare 7")
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(assert (= (compare (u64 1) (i64 -1)) +1) "compare 8")
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(assert (= (compare (u64 0) (i64 -1)) +1) "compare 9")
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# compare i64/u64
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(assert (= (compare (i64 1) (u64 2)) -1) "compare 10")
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(assert (= (compare (i64 -1) (u64 1)) -1) "compare 11")
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(assert (= (compare (i64 -1) (u64 0)) -1) "compare 12")
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# off by 1 error in inttypes
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# a3e812b86
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(assert (= (int/s64 "-0x8000_0000_0000_0000")
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(+ (int/s64 "0x7FFF_FFFF_FFFF_FFFF") 1)) "int types wrap around")
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(assert (= (int/s64 "0x7FFF_FFFF_FFFF_FFFF")
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(- (int/s64 "-0x8000_0000_0000_0000") 1)) "int types wrap around")
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# Issue #1217
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(assert (= (- (int/u64 "0xFFFFFFFF") 1) (int/u64 "0xFFFFFFFE")) "u64 subtract")
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(end-suite)
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