mirror of
https://github.com/janet-lang/janet
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1596511175
janet_vm_return_reg should only be set when janet_continue is called. Otherwise, a panic may dump it's error message in the wrong place, resulting in undefined behavior (often showing the last return value or worse, segfaulting).
369 lines
11 KiB
Clojure
369 lines
11 KiB
Clojure
# Copyright (c) 2019 Calvin Rose
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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 test/helper :prefix "" :exit true)
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(start-suite 3)
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(assert (= (length (range 10)) 10) "(range 10)")
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(assert (= (length (range 1 10)) 9) "(range 1 10)")
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(assert (deep= @{:a 1 :b 2 :c 3} (zipcoll '[:a :b :c] '[1 2 3])) "zipcoll")
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(def- a 100)
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(assert (= a 100) "def-")
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(assert (= :first
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(match @[1 3 5]
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@[x y z] :first
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:second)) "match 1")
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(def val1 :avalue)
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(assert (= :second
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(match val1
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@[x y z] :first
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:avalue :second
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:third)) "match 2")
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(assert (= 100
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(match @[50 40]
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@[x x] (* x 3)
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@[x y] (+ x y 10)
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0)) "match 3")
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# Edge case should cause old compilers to fail due to
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# if statement optimization
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(var var-a 1)
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(var var-b (if false 2 (string "hello")))
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(assert (= var-b "hello") "regression 1")
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# Scan number
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(assert (= 1 (scan-number "1")) "scan-number 1")
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(assert (= -1 (scan-number "-1")) "scan-number -1")
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(assert (= 1.3e4 (scan-number "1.3e4")) "scan-number 1.3e4")
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# Some macros
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(assert (= 2 (if-not 1 3 2)) "if-not 1")
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(assert (= 3 (if-not false 3)) "if-not 2")
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(assert (= 3 (if-not nil 3 2)) "if-not 3")
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(assert (= nil (if-not true 3)) "if-not 4")
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(assert (= 4 (unless false (+ 1 2 3) 4)) "unless")
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(def res @{})
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(loop [[k v] :pairs @{1 2 3 4 5 6}]
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(put res k v))
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(assert (and
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(= (get res 1) 2)
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(= (get res 3) 4)
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(= (get res 5) 6)) "loop :pairs")
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# Another regression test - no segfaults
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(defn afn [x] x)
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(assert (= 1 (try (afn) ([err] 1))) "bad arity 1")
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(assert (= 4 (try ((fn [x y] (+ x y)) 1) ([_] 4))) "bad arity 2")
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(assert (= 1 (try (identity) ([err] 1))) "bad arity 3")
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(assert (= 1 (try (map) ([err] 1))) "bad arity 4")
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(assert (= 1 (try (not) ([err] 1))) "bad arity 5")
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# Assembly test
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# Fibonacci sequence, implemented with naive recursion.
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(def fibasm (asm '{
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arity 1
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bytecode [
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(ltim 1 0 0x2) # $1 = $0 < 2
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(jmpif 1 :done) # if ($1) goto :done
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(lds 1) # $1 = self
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(addim 0 0 -0x1) # $0 = $0 - 1
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(push 0) # push($0), push argument for next function call
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(call 2 1) # $2 = call($1)
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(addim 0 0 -0x1) # $0 = $0 - 1
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(push 0) # push($0)
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(call 0 1) # $0 = call($1)
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(add 0 0 2) # $0 = $0 + $2 (integers)
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:done
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(ret 0) # return $0
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]
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}))
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(assert (= 0 (fibasm 0)) "fibasm 1")
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(assert (= 1 (fibasm 1)) "fibasm 2")
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(assert (= 55 (fibasm 10)) "fibasm 3")
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(assert (= 6765 (fibasm 20)) "fibasm 4")
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# Calling non functions
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(assert (= 1 ({:ok 1} :ok)) "calling struct")
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(assert (= 2 (@{:ok 2} :ok)) "calling table")
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(assert (= :bad (try (@{:ok 2} :ok :no) ([err] :bad))) "calling table too many arguments")
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(assert (= :bad (try (:ok @{:ok 2} :no) ([err] :bad))) "calling keyword too many arguments")
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(assert (= :oops (try (1 1) ([err] :oops))) "calling number fails")
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# Method test
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(def Dog @{:bark (fn bark [self what] (string (self :name) " says " what "!"))})
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(defn make-dog
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[name]
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(table/setproto @{:name name} Dog))
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(assert (= "fido" ((make-dog "fido") :name)) "oo 1")
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(def spot (make-dog "spot"))
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(assert (= "spot says hi!" (:bark spot "hi")) "oo 2")
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# Negative tests
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(assert-error "+ check types" (+ 1 ()))
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(assert-error "- check types" (- 1 ()))
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(assert-error "* check types" (* 1 ()))
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(assert-error "/ check types" (/ 1 ()))
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(assert-error "band check types" (band 1 ()))
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(assert-error "bor check types" (bor 1 ()))
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(assert-error "bxor check types" (bxor 1 ()))
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(assert-error "bnot check types" (bnot ()))
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# Buffer blitting
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(def b (buffer/new-filled 100))
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(buffer/bit-set b 100)
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(buffer/bit-clear b 100)
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(assert (zero? (sum b)) "buffer bit set and clear")
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(buffer/bit-toggle b 101)
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(assert (= 32 (sum b)) "buffer bit set and clear")
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(def b2 @"hello world")
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(buffer/blit b2 "joyto ")
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(assert (= (string b2) "joyto world") "buffer/blit 1")
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(buffer/blit b2 "joyto" 6)
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(assert (= (string b2) "joyto joyto") "buffer/blit 2")
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(buffer/blit b2 "abcdefg" 5 6)
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(assert (= (string b2) "joytogjoyto") "buffer/blit 3")
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# Buffer push word
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(def b3 @"")
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(buffer/push-word b3 0xFF 0x11)
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(assert (= 8 (length b3)) "buffer/push-word 1")
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(assert (= "\xFF\0\0\0\x11\0\0\0" (string b3)) "buffer/push-word 2")
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(buffer/clear b3)
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(buffer/push-word b3 0xFFFFFFFF 0x1100)
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(assert (= 8 (length b3)) "buffer/push-word 3")
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(assert (= "\xFF\xFF\xFF\xFF\0\x11\0\0" (string b3)) "buffer/push-word 4")
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# Peg
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(defn check-match
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[pat text should-match]
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(def result (peg/match pat text))
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(assert (= (not should-match) (not result)) text))
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(defn check-deep
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[pat text what]
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(def result (peg/match pat text))
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(assert (deep= result what) text))
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# Just numbers
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(check-match '(* 4 -1) "abcd" true)
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(check-match '(* 4 -1) "abc" false)
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(check-match '(* 4 -1) "abcde" false)
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# Simple pattern
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(check-match '(* (some (range "az" "AZ")) -1) "hello" true)
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(check-match '(* (some (range "az" "AZ")) -1) "hello world" false)
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(check-match '(* (some (range "az" "AZ")) -1) "1he11o" false)
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(check-match '(* (some (range "az" "AZ")) -1) "" false)
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# Pre compile
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(def pegleg (peg/compile '{:item "abc" :main (* :item "," :item -1)}))
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(peg/match pegleg "abc,abc")
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# Bad Grammars
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(assert-error "peg/compile error 1" (peg/compile nil))
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(assert-error "peg/compile error 2" (peg/compile @{}))
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(assert-error "peg/compile error 3" (peg/compile '{:a "abc" :b "def"}))
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(assert-error "peg/compile error 4" (peg/compile '(blarg "abc")))
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(assert-error "peg/compile error 5" (peg/compile '(1 2 3)))
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# IP address
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(def ip-address
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'{:d (range "09")
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:0-4 (range "04")
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:0-5 (range "05")
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:byte (+
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(* "25" :0-5)
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(* "2" :0-4 :d)
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(* "1" :d :d)
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(between 1 2 :d))
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:main (* :byte "." :byte "." :byte "." :byte)})
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(check-match ip-address "10.240.250.250" true)
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(check-match ip-address "0.0.0.0" true)
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(check-match ip-address "1.2.3.4" true)
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(check-match ip-address "256.2.3.4" false)
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(check-match ip-address "256.2.3.2514" false)
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# Substitution test with peg
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(file/flush stderr)
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(file/flush stdout)
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(def grammar '(accumulate (any (+ (/ "dog" "purple panda") (<- 1)))))
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(defn try-grammar [text]
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(assert (= (string/replace-all "dog" "purple panda" text) (0 (peg/match grammar text))) text))
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(try-grammar "i have a dog called doug the dog. he is good.")
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(try-grammar "i have a dog called doug the dog. he is a good boy.")
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(try-grammar "i have a dog called doug the do")
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(try-grammar "i have a dog called doug the dog")
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(try-grammar "i have a dog called doug the dogg")
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(try-grammar "i have a dog called doug the doggg")
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(try-grammar "i have a dog called doug the dogggg")
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# Peg CSV test
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(def csv
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'{:field (+
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(* `"` (% (any (+ (<- (if-not `"` 1)) (* (constant `"`) `""`)))) `"`)
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(<- (any (if-not (set ",\n") 1))))
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:main (* :field (any (* "," :field)) (+ "\n" -1))})
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(defn check-csv
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[str res]
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(check-deep csv str res))
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(check-csv "1,2,3" @["1" "2" "3"])
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(check-csv "1,\"2\",3" @["1" "2" "3"])
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(check-csv ``1,"1""",3`` @["1" "1\"" "3"])
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# Nested Captures
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(def grmr '(capture (* (capture "a") (capture 1) (capture "c"))))
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(check-deep grmr "abc" @["a" "b" "c" "abc"])
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(check-deep grmr "acc" @["a" "c" "c" "acc"])
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# Functions in grammar
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(def grmr-triple ~(% (any (/ (<- 1) ,(fn [x] (string x x x))))))
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(check-deep grmr-triple "abc" @["aaabbbccc"])
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(check-deep grmr-triple "" @[""])
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(check-deep grmr-triple " " @[" "])
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(def counter ~(/ (group (any (<- 1))) ,length))
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(check-deep counter "abcdefg" @[7])
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# Capture Backtracking
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(check-deep '(+ (* (capture "c") "d") "ce") "ce" @[])
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# Matchtime capture
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(def scanner (peg/compile ~(cmt (capture (some 1)) ,scan-number)))
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(check-deep scanner "123" @[123])
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(check-deep scanner "0x86" @[0x86])
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(check-deep scanner "-1.3e-7" @[-1.3e-7])
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(check-deep scanner "123A" nil)
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# Recursive grammars
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(def g '{:main (+ (* "a" :main "b") "c")})
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(check-match g "c" true)
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(check-match g "acb" true)
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(check-match g "aacbb" true)
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(check-match g "aadbb" false)
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# Back reference
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(def wrapped-string
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~{:pad (any "=")
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:open (* "[" (<- :pad :n) "[")
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:close (* "]" (cmt (* (-> :n) (<- :pad)) ,=) "]")
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:main (* :open (any (if-not :close 1)) :close -1)})
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(check-match wrapped-string "[[]]" true)
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(check-match wrapped-string "[==[a]==]" true)
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(check-match wrapped-string "[==[]===]" false)
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(check-match wrapped-string "[[blark]]" true)
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(check-match wrapped-string "[[bl[ark]]" true)
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(check-match wrapped-string "[[bl]rk]]" true)
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(check-match wrapped-string "[[bl]rk]] " false)
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(check-match wrapped-string "[=[bl]]rk]=] " false)
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(check-match wrapped-string "[=[bl]==]rk]=] " false)
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(check-match wrapped-string "[===[]==]===]" true)
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(def janet-longstring
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~{:delim (some "`")
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:open (capture :delim :n)
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:close (cmt (* (not (> -1 "`")) (-> :n) (<- :delim)) ,=)
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:main (* :open (any (if-not :close 1)) :close -1)})
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(check-match janet-longstring "`john" false)
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(check-match janet-longstring "abc" false)
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(check-match janet-longstring "` `" true)
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(check-match janet-longstring "` `" true)
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(check-match janet-longstring "`` ``" true)
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(check-match janet-longstring "``` `` ```" true)
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(check-match janet-longstring "`` ```" false)
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# Optional
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(check-match '(* (opt "hi") -1) "" true)
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(check-match '(* (opt "hi") -1) "hi" true)
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(check-match '(* (opt "hi") -1) "no" false)
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(check-match '(* (? "hi") -1) "" true)
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(check-match '(* (? "hi") -1) "hi" true)
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(check-match '(* (? "hi") -1) "no" false)
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# Drop
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(check-deep '(drop '"hello") "hello" @[])
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(check-deep '(drop "hello") "hello" @[])
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# Regression #24
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(def t (put @{} :hi 1))
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(assert (deep= t @{:hi 1}) "regression #24")
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# Peg swallowing errors
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(assert (try (peg/match ~(/ '1 ,(fn [x] (nil x))) "x") ([err] err))
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"errors should not be swallowed")
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(assert (try ((fn [x] (nil x))) ([err] err))
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"errors should not be swallowed 2")
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# Tuple types
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(assert (= (tuple/type '(1 2 3)) :parens) "normal tuple")
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(assert (= (tuple/type [1 2 3]) :parens) "normal tuple 1")
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(assert (= (tuple/type '[1 2 3]) :brackets) "bracketed tuple 2")
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(assert (= (tuple/type (-> '(1 2 3) marshal unmarshal)) :parens) "normal tuple marshalled/unmarshalled")
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(assert (= (tuple/type (-> '[1 2 3] marshal unmarshal)) :brackets) "normal tuple marshalled/unmarshalled")
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(end-suite)
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