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Much more on iteration in all forms.
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@ -324,40 +324,30 @@ m ; => '#hash((b . 2) (a . 1) (c . 3)) <-- no `d'
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;;; Loops
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;; looping can be done through recursion
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;; Looping can be done through (tail-) recursion
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(define (loop i)
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(when (< i 10)
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(printf "i:~a\n" i)
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(printf "i=~a\n" i)
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(loop (add1 i))))
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(loop 5) ; => i=5, i=6, ...
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(loop 5) ; => i:5 i:6 ...
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;; similarly, with a named let
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;; Similarly, with a named let
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(let loop ((i 0))
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(when (< i 10)
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(printf "i:~a\n" i)
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(loop (add1 i)))) ; => i:0 i:1 ...
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(printf "i=~a\n" i)
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(loop (add1 i)))) ; => i=0, i=1, ...
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;;; Comprehensions
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;; See below how to add a new `loop' form, but Racket already has a very
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;; flexible `for' form for loops:
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(for ([i 10])
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(printf "i=~a\n" i)) ; => i=0, i=1, ...
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(for ([i (in-range 5 10)])
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(printf "i=~a\n" i)) ; => i=5, i=6, ...
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(for/list ([i '(1 2 3)])
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(add1 i)) ; => '(2 3 4)
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(for/list ([i '(1 2 3)] #:when (even? i))
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i) ; => '(2)
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(for/hash ([i '(1 2 3)])
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(values i (number->string i)))
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; => '#hash((1 . "1") (2 . "2") (3 . "3"))
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;; To combine iteration results, use `for/fold'
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(for/fold ([sum 0]) ([i '(1 2 3 4)])
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(+ sum i)) ; => 10
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;;; Sequences
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;; `for' allows iteration over sequences:
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;;; Other Sequences
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;; `for' allows iteration over many other kinds of sequences:
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;; lists, vectors, strings, sets, hash tables, etc...
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(for ([i (in-list '(l i s t))])
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(displayln i))
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@ -373,6 +363,52 @@ m ; => '#hash((b . 2) (a . 1) (c . 3)) <-- no `d'
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(for ([(k v) (in-hash (hash 'a 1 'b 2 'c 3 ))])
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(printf "key:~a value:~a\n" k v))
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;;; More Complex Iterations
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;; Parallel scan of multiple sequences (stops on shortest)
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(for ([i 10] [j '(x y z)]) (printf "~a:~a\n" i j))
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; => 0:x 1:y 2:z
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;; Nested loops
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(for* ([i 2] [j '(x y z)]) (printf "~a:~a\n" i j))
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; => 0:x, 0:y, 0:z, 1:x, 1:y, 1:z
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;; Conditions
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(for ([i 1000]
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#:when (> i 5)
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#:unless (odd? i)
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#:break (> i 10))
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(printf "i=~a\n" i))
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; => i=6, i=8, i=10
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;;; Comprehensions
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;; Very similar to `for' loops -- just collect the results
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(for/list ([i '(1 2 3)])
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(add1 i)) ; => '(2 3 4)
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(for/list ([i '(1 2 3)] #:when (even? i))
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i) ; => '(2)
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(for/list ([i 10] [j '(x y z)])
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(list i j)) ; => '((0 x) (1 y) (2 z))
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(for/list ([i 1000] #:when (> i 5) #:unless (odd? i) #:break (> i 10))
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i) ; => '(6 8 10)
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(for/hash ([i '(1 2 3)])
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(values i (number->string i)))
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; => '#hash((1 . "1") (2 . "2") (3 . "3"))
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;; There are many kinds of other built-in ways to collect loop values:
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(for/sum ([i 10]) (* i i)) ; => 285
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(for/product ([i (in-range 1 11)]) (* i i)) ; => 13168189440000
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(for/and ([i 10] [j (in-range 10 20)]) (< i j)) ; => #t
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(for/or ([i 10] [j (in-range 0 20 2)]) (= i j)) ; => #t
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;; And to use any arbitrary combination, use `for/fold'
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(for/fold ([sum 0]) ([i '(1 2 3 4)]) (+ sum i)) ; => 10
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;; (This can often replace common imperative loops)
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;;; Exceptions
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;; To catch exceptions, use the `with-handlers' form
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