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@ -4,21 +4,47 @@
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(module+ test (require rackunit))
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(provide (all-defined-out))
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(provide ptree-node? ptree? parent children previous next)
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;; Load ptree file & return ptree
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(define/contract (ptree-source->ptree path)
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(define/contract (ptree-node? x)
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(any/c . -> . boolean?)
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(and (stringish? x) (not (whitespace? (->string x)))))
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(define/contract (ptree-node?/error x)
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(any/c . -> . boolean?)
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(or (ptree-node? x) (error "Not a valid ptree node:" x)))
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(module+ test
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(check-true (ptree-node? "foo-bar"))
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(check-true (ptree-node? "Foo_Bar_0123"))
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(check-true (ptree-node? 'foo-bar))
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(check-true (ptree-node? "foo-bar.p"))
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(check-true (ptree-node? "/Users/MB/foo-bar"))
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(check-false (ptree-node? #f))
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(check-false (ptree-node? ""))
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(check-false (ptree-node? " ")))
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(define/contract (ptree? x)
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(any/c . -> . boolean?)
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(and (tagged-xexpr? x) (andmap (λ(i) (or (ptree-node? i) (ptree? i))) x)))
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(module+ test
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(check-true (ptree? '(foo)))
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(check-true (ptree? '(foo (hee))))
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(check-true (ptree? '(foo (hee (uncle "foo"))))))
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(define/contract (file->ptree path)
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(pathish? . -> . ptree?)
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;; dynamic require of a ptree source file gets you a full ptree.
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(message "Loading ptree file" (->string (file-name-from-path path)))
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(message "Loading ptree file" (file-name-from-path path))
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(dynamic-require path POLLEN_ROOT))
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;; Synthesize ptree from directory listing.
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;; Fallback in case ptree file isn't available.
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(define/contract (directory->ptree dir)
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(directory-pathish? . -> . ptree?)
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(let ([files (map remove-ext (filter (λ(x) (has-ext? x POLLEN_DECODER_EXT)) (directory-list dir)))])
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(message "Generating ptree from file listing")
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(message "Generating ptree from file listing of" dir)
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(ptree-root->ptree (cons POLLEN_TREE_ROOT_NAME files))))
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@ -27,7 +53,7 @@
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(() (directory-pathish?) . ->* . ptree?)
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(define ptree-source (build-path project-dir DEFAULT_POLLEN_TREE))
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(if (file-exists? ptree-source)
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(ptree-source->ptree ptree-source)
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(file->ptree ptree-source)
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(directory->ptree project-dir)))
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@ -37,14 +63,12 @@
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`(POLLEN_TREE_ROOT_NAME "foo" "bar" (one (two "three"))))))
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;; return the parent of a given name
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(define/contract (parent name [ptree current-ptree])
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(((or/c ptree-name? false?)) (ptree?) . ->* . (or/c ptree-name? false?))
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(and name
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(if (member (->string name) (map (λ(x) (->string (if (list? x) (car x) x))) (cdr ptree)))
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(define/contract (parent node [ptree (current-ptree)])
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(((or/c ptree-node? false?)) (ptree?) . ->* . (or/c ptree-node? false?))
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(and node
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(if (member (->string node) (map (λ(x) (->string (if (list? x) (car x) x))) (cdr ptree)))
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(->string (car ptree))
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(ormap (λ(x) (parent name x)) (filter list? ptree)))))
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(ormap (λ(x) (parent node x)) (filter list? ptree)))))
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(module+ test
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@ -56,13 +80,12 @@
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(check-false (parent 'nonexistent-name test-ptree)))
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; get children of a particular name
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(define/contract (children name [ptree current-ptree])
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(((or/c ptree-name? false?)) (ptree?) . ->* . (or/c (listof ptree-name?) false?))
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(and name
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(if (equal? (->string name) (->string (car ptree)))
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(define/contract (children node [ptree (current-ptree)])
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(((or/c ptree-node? false?)) (ptree?) . ->* . (or/c (listof ptree-node?) false?))
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(and node
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(if (equal? (->string node) (->string (car ptree)))
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(map (λ(x) (->string (if (list? x) (car x) x))) (cdr ptree))
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(ormap (λ(x) (children name x)) (filter list? ptree)))))
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(ormap (λ(x) (children node x)) (filter list? ptree)))))
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(module+ test
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(check-equal? (children 'one test-ptree) (list "two"))
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@ -72,128 +95,51 @@
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(check-false (children 'fooburger test-ptree)))
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;; find all siblings on current level: go up to parent and ask for children
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(define/contract (siblings name [ptree current-ptree])
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;; this never returns false: name is always a sibling of itself.
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;; todo: how to use input value in contract? e.g., to check that name is part of output list
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((ptree-name?) (ptree?) . ->* . (or/c (listof string?) false?))
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(children (parent name ptree) ptree))
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(define/contract (siblings node [ptree (current-ptree)])
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(((or/c ptree-node? false?)) (ptree?) . ->* . (or/c (listof string?) false?))
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(children (parent node ptree) ptree))
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(module+ test
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(check-equal? (siblings 'one test-ptree) '("foo" "bar" "one"))
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(check-equal? (siblings 'foo test-ptree) '("foo" "bar" "one"))
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(check-equal? (siblings 'two test-ptree) '("two"))
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(check-false (siblings #f test-ptree))
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(check-false (siblings 'invalid-key test-ptree)))
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(define/contract (siblings-split name [ptree current-ptree])
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((ptree-name?) (ptree?) . ->* . (values (or/c (listof ptree-name?) false?)
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(or/c (listof ptree-name?) false?)))
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(let-values ([(left right) (splitf-at (siblings name ptree)
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(λ(e) (not (equal? (->string e) (->string name)))))])
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(values (if (empty? left) #f left) (if (empty? (cdr right)) #f (cdr right)))))
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(module+ test
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(check-equal? (values->list (siblings-split 'one test-ptree)) '(("foo" "bar") #f))
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(check-equal? (values->list (siblings-split 'bar test-ptree)) (list '("foo") '("one"))))
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;; siblings to the left of target name (i.e., precede in tree order)
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(define (siblings-left name [ptree current-ptree])
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(let-values ([(left right) (siblings-split name ptree)])
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left))
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(module+ test
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(check-equal? (siblings-left 'one test-ptree) '("foo" "bar"))
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(check-false (siblings-left 'foo test-ptree)))
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;; siblings to the right of target name (i.e., follow in tree order)
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(define (siblings-right name [ptree current-ptree])
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(let-values ([(left right) (siblings-split name ptree)])
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right))
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(module+ test
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(check-false (siblings-right 'one test-ptree))
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(check-equal? (siblings-right 'foo test-ptree) '("bar" "one")))
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;; get name immediately to the left in tree
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(define/contract (sibling-previous name [ptree current-ptree])
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((ptree-name?) (ptree?) . ->* . (or/c ptree-name? false?))
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(let ([siblings (siblings-left name ptree)])
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(and siblings (last siblings))))
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(module+ test
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(check-equal? (sibling-previous 'bar test-ptree) "foo")
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(check-false (sibling-previous 'foo test-ptree)))
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;; get name immediately to the right in tree
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(define/contract (sibling-next name [ptree current-ptree])
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((ptree-name?) (ptree?) . ->* . (or/c ptree-name? false?))
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(let ([siblings (siblings-right name ptree)])
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(and siblings (first siblings))))
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(module+ test
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(check-equal? (sibling-next 'foo test-ptree) "bar")
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(check-false (sibling-next 'one test-ptree)))
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;; flatten tree to sequence
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(define/contract (all-names [ptree current-ptree])
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(define/contract (ptree->list [ptree (current-ptree)])
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(ptree? . -> . (listof string?))
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; use cdr to get rid of root tag at front
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(map ->string (cdr (flatten ptree))))
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(module+ test
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(check-equal? (all-names test-ptree) '("foo" "bar" "one" "two" "three")))
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(check-equal? (ptree->list test-ptree) '("foo" "bar" "one" "two" "three")))
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;; helper function for get-previous-names and get-next-names
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(define/contract (adjacent-names side name [ptree current-ptree])
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((symbol? ptree-name?) (ptree?) . ->* . (or/c (listof ptree-name?) false?))
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(let ([result ((if (equal? side 'left)
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takef
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takef-right) (all-names ptree)
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(λ(y) (not (equal? (->string name) (->string y)))))])
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(and (not (empty? result)) result)))
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(module+ test
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(check-equal? (adjacent-names 'left 'one test-ptree) '("foo" "bar"))
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(check-equal? (adjacent-names 'left 'three test-ptree) '("foo" "bar" "one" "two"))
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(check-false (adjacent-names 'left 'foo test-ptree)))
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;; get sequence of earlier names
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(define/contract (previous* name [ptree current-ptree])
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((ptree-name?) (ptree?) . ->* . (or/c (listof ptree-name?) false?))
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(adjacent-names 'left name ptree))
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(define/contract (adjacents side node [ptree (current-ptree)])
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((symbol? (or/c ptree-node? false?)) (ptree?) . ->* . (or/c (listof ptree-node?) false?))
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(and node
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(let ([result ((if (equal? side 'left)
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takef
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takef-right) (ptree->list ptree)
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(λ(y) (not (equal? (->string node) (->string y)))))])
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(and (not (empty? result)) result))))
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(module+ test
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(check-equal? (previous* 'one test-ptree) '("foo" "bar"))
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(check-equal? (previous* 'three test-ptree) '("foo" "bar" "one" "two"))
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(check-false (previous* 'foo test-ptree)))
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(check-equal? (adjacents 'left 'one test-ptree) '("foo" "bar"))
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(check-equal? (adjacents 'left 'three test-ptree) '("foo" "bar" "one" "two"))
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(check-false (adjacents 'left 'foo test-ptree)))
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(define (left-adjacents node [ptree (current-ptree)]) (adjacents 'left node ptree))
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(define (right-adjacents node [ptree (current-ptree)]) (adjacents 'right node ptree))
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;; get sequence of next names
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(define (next* name [ptree current-ptree])
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((ptree-name?) (ptree?) . ->* . (or/c (listof ptree-name?) false?))
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(adjacent-names 'right name ptree))
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(module+ test
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(check-equal? (next* 'foo test-ptree) '("bar" "one" "two" "three"))
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(check-equal? (next* 'one test-ptree) '("two" "three"))
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(check-false (next* 'three test-ptree)))
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;; get name immediately previous
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(define/contract (previous name [ptree current-ptree])
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((ptree-name?) (ptree?) . ->* . (or/c ptree-name? false?))
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(let ([result (previous* name ptree)])
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(define/contract (previous node [ptree (current-ptree)])
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(((or/c ptree-node? false?)) (ptree?) . ->* . (or/c ptree-node? false?))
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(let ([result (left-adjacents node ptree)])
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(and result (last result))))
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(module+ test
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@ -201,10 +147,10 @@
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(check-equal? (previous 'three test-ptree) "two")
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(check-false (previous 'foo test-ptree)))
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;; get name immediately next
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(define (next name [ptree current-ptree])
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((ptree-name?) (ptree?) . ->* . (or/c ptree-name? false?))
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(let ([result (next* name ptree)])
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(define (next node [ptree (current-ptree)])
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(((or/c ptree-node? false?)) (ptree?) . ->* . (or/c ptree-node? false?))
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(let ([result (right-adjacents node ptree)])
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(and result (first result))))
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(module+ test
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@ -214,10 +160,8 @@
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(define/contract (name->url name [files current-url-context])
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((ptree-name?) ((listof pathish?)) . ->* . (or/c ptree-name? false?))
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((ptree-node?) ((listof pathish?)) . ->* . (or/c ptree-node? false?))
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;; upconvert all files to their output path
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;; then remove duplicates because some sources might have already been rendered
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(define output-paths (remove-duplicates (map ->output-path files) equal?))
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@ -259,7 +203,7 @@
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;; contract for ptree-source-decode
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(define/contract (valid-names? x)
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(any/c . -> . boolean?)
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(andmap (λ(x) (ptree-name? #:loud #t x)) (filter-not whitespace? (flatten x))))
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(andmap ptree-node?/error (filter-not whitespace? (flatten x))))
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;; contract for ptree-source-decode
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(define/contract (unique-names? x)
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@ -274,32 +218,13 @@
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#:xexpr-elements-proc (λ(xs) (filter-not whitespace? xs)))))
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(define current-ptree (make-parameter `(,POLLEN_TREE_ROOT_NAME)))
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(define current-url-context (make-parameter PROJECT_ROOT))
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(define current-ptree '())
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(define/contract (set-current-ptree ptree)
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(ptree? . -> . void?)
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(set! current-ptree ptree))
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(set-current-ptree '(ptree-root))
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;; create the state variable
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(define current-url-context '())
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;; create the state variable setter
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(define/contract (set-current-url-context x)
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((or/c directory-pathish? (listof pathish?)) . -> . void)
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;; try treating x as a directory,
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;; otherwise treat it as a list of paths
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(set! current-url-context (with-handlers ([exn:fail? (λ(e) x)])
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(visible-files (->path x)))))
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;; set the state variable using the setter
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(set-current-url-context PROJECT_ROOT)
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;; used to convert here-path into here
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(define/contract (path->ptree-name path)
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(pathish? . -> . ptree-name?)
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(define/contract (path->ptree-node path)
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(pathish? . -> . ptree-node?)
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(->string (->output-path (find-relative-path PROJECT_ROOT (->path path)))))
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