Datasets:

introspector
/

guile-bootstrap

License:

Dataset card Files Files and versions Community

guile-bootstrap / guile /module /sxml /sxml-match.ss

mike dupont

update

3dcad1f 6 months ago

raw

history blame contribute delete

68.3 kB

	;; Library: sxml-match
	;; Author: Jim Bender
	;; Version: 1.1, version for PLT Scheme
	;;
	;; Copyright 2005-9, Jim Bender
	;; sxml-match is released under the MIT License
	;;
	(module sxml-match mzscheme

	(provide sxml-match
	sxml-match-let
	sxml-match-let*)

	(require (rename (lib "fold.ss" "srfi" "1") fold-right fold-right)
	(rename (lib "filter.ss" "srfi" "1") filter filter))

	(define (nodeset? x)
	(or (and (pair? x) (not (symbol? (car x)))) (null? x)))

	(define (xml-element-tag s)
	(if (and (pair? s) (symbol? (car s)))
	(car s)
	(error 'xml-element-tag "expected an xml-element, given" s)))

	(define (xml-element-attributes s)
	(if (and (pair? s) (symbol? (car s)))
	(fold-right (lambda (a b)
	(if (and (pair? a) (eq? '@ (car a)))
	(if (null? b)
	(filter (lambda (i) (not (and (pair? i) (eq? '@ (car i))))) (cdr a))
	(fold-right (lambda (c d)
	(if (and (pair? c) (eq? '@ (car c)))
	d
	(cons c d)))
	b (cdr a)))
	b))
	'()
	(cdr s))
	(error 'xml-element-attributes "expected an xml-element, given" s)))

	(define (xml-element-contents s)
	(if (and (pair? s) (symbol? (car s)))
	(filter (lambda (i)
	(not (and (pair? i) (eq? '@ (car i)))))
	(cdr s))
	(error 'xml-element-contents "expected an xml-element, given" s)))

	(define (match-xml-attribute key l)
	(if (not (pair? l))
	#f
	(if (eq? (car (car l)) key)
	(car l)
	(match-xml-attribute key (cdr l)))))

	(define (filter-attributes keys lst)
	(if (null? lst)
	'()
	(if (member (caar lst) keys)
	(filter-attributes keys (cdr lst))
	(cons (car lst) (filter-attributes keys (cdr lst))))))

	(define-syntax compile-clause
	(lambda (stx)
	(letrec
	([sxml-match-syntax-error
	(lambda (msg exp sub)
	(raise-syntax-error #f msg (with-syntax ([s exp]) (syntax (sxml-match s))) sub))]
	[ellipsis?
	(lambda (stx)
	(and (identifier? stx) (eq? '... (syntax-object->datum stx))))]
	[literal?
	(lambda (stx)
	(let ([x (syntax-object->datum stx)])
	(or (string? x)
	(char? x)
	(number? x)
	(boolean? x))))]
	[keyword?
	(lambda (stx)
	(and (identifier? stx)
	(let ([str (symbol->string (syntax-object->datum stx))])
	(char=? #\: (string-ref str (- (string-length str) 1))))))]
	[extract-cata-fun
	(lambda (cf)
	(syntax-case cf ()
	[#f #f]
	[other cf]))]
	[add-pat-var
	(lambda (pvar pvar-lst)
	(define (check-pvar lst)
	(if (null? lst)
	(void)
	(if (bound-identifier=? (car lst) pvar)
	(sxml-match-syntax-error "duplicate pattern variable not allowed"
	stx
	pvar)
	(check-pvar (cdr lst)))))
	(check-pvar pvar-lst)
	(cons pvar pvar-lst))]
	[add-cata-def
	(lambda (depth cvars cfun ctemp cdefs)
	(cons (list depth cvars cfun ctemp) cdefs))]
	[process-cata-exp
	(lambda (depth cfun ctemp)
	(if (= depth 0)
	(with-syntax ([cf cfun]
	[ct ctemp])
	(syntax (cf ct)))
	(let ([new-ctemp (car (generate-temporaries (list ctemp)))])
	(with-syntax ([ct ctemp]
	[nct new-ctemp]
	[body (process-cata-exp (- depth 1) cfun new-ctemp)])
	(syntax (map (lambda (nct) body) ct))))))]
	[process-cata-defs
	(lambda (cata-defs body)
	(if (null? cata-defs)
	body
	(with-syntax ([(cata-binding ...)
	(map (lambda (def)
	(with-syntax ([bvar (cadr def)]
	[bval (process-cata-exp (car def)
	(caddr def)
	(cadddr def))])
	(syntax (bvar bval))))
	cata-defs)]
	[body-stx body])
	(syntax (let-values (cata-binding ...)
	body-stx)))))]
	[cata-defs->pvar-lst
	(lambda (lst)
	(if (null? lst)
	'()
	(let iter ([items (cadr (car lst))])
	(syntax-case items ()
	[() (cata-defs->pvar-lst (cdr lst))]
	[(fst . rst) (cons (syntax fst) (iter (syntax rst)))]))))]
	[process-output-action
	(lambda (action dotted-vars)
	(define (finite-lst? lst)
	(syntax-case lst ()
	(item
	(identifier? (syntax item))
	#f)
	(()
	#t)
	((fst dots . rst)
	(ellipsis? (syntax dots))
	#f)
	((fst . rst)
	(finite-lst? (syntax rst)))))
	(define (expand-lst lst)
	(syntax-case lst ()
	[() (syntax '())]
	[item
	(identifier? (syntax item))
	(syntax item)]
	[(fst dots . rst)
	(ellipsis? (syntax dots))
	(with-syntax ([exp-lft (expand-dotted-item
	(process-output-action (syntax fst)
	dotted-vars))]
	[exp-rgt (expand-lst (syntax rst))])
	(syntax (append exp-lft exp-rgt)))]
	[(fst . rst)
	(with-syntax ([exp-lft (process-output-action (syntax fst)
	dotted-vars)]
	[exp-rgt (expand-lst (syntax rst))])
	(syntax (cons exp-lft exp-rgt)))]))
	(define (member-var? var lst)
	(let iter ([lst lst])
	(if (null? lst)
	#f
	(if (or (bound-identifier=? var (car lst))
	(free-identifier=? var (car lst)))
	#t
	(iter (cdr lst))))))
	(define (dotted-var? var)
	(member-var? var dotted-vars))
	(define (merge-pvars lst1 lst2)
	(if (null? lst1)
	lst2
	(if (member-var? (car lst1) lst2)
	(merge-pvars (cdr lst1) lst2)
	(cons (car lst1) (merge-pvars (cdr lst1) lst2)))))
	(define (select-dotted-vars x)
	(define (walk-quasi-body y)
	(syntax-case y (unquote unquote-splicing)
	[((unquote a) . rst)
	(merge-pvars (select-dotted-vars (syntax a))
	(walk-quasi-body (syntax rst)))]
	[((unquote-splicing a) . rst)
	(merge-pvars (select-dotted-vars (syntax a))
	(walk-quasi-body (syntax rst)))]
	[(fst . rst)
	(merge-pvars (walk-quasi-body (syntax fst))
	(walk-quasi-body (syntax rst)))]
	[other
	'()]))
	(syntax-case x (quote quasiquote)
	[(quote . rst) '()]
	[(quasiquote . rst) (walk-quasi-body (syntax rst))]
	[(fst . rst)
	(merge-pvars (select-dotted-vars (syntax fst))
	(select-dotted-vars (syntax rst)))]
	[item
	(and (identifier? (syntax item))
	(dotted-var? (syntax item)))
	(list (syntax item))]
	[item '()]))
	(define (expand-dotted-item item)
	(let ([dvars (select-dotted-vars item)])
	(syntax-case item ()
	[x
	(identifier? (syntax x))
	(syntax x)]
	[x (with-syntax ([(dv ...) dvars])
	(syntax (map (lambda (dv ...) x) dv ...)))])))
	(define (expand-quasiquote-body x)
	(syntax-case x (unquote unquote-splicing quasiquote)
	[(quasiquote . rst) (process-quasiquote x)]
	[(unquote item)
	(with-syntax ([expanded-item (process-output-action (syntax item)
	dotted-vars)])
	(syntax (unquote expanded-item)))]
	[(unquote-splicing item)
	(with-syntax ([expanded-item (process-output-action (syntax item)
	dotted-vars)])
	(syntax (unquote-splicing expanded-item)))]
	[((unquote item) dots . rst)
	(ellipsis? (syntax dots))
	(with-syntax ([expanded-item (expand-dotted-item
	(process-output-action (syntax item)
	dotted-vars))]
	[expanded-rst (expand-quasiquote-body (syntax rst))])
	(syntax ((unquote-splicing expanded-item) . expanded-rst)))]
	[(item dots . rst)
	(ellipsis? (syntax dots))
	(with-syntax ([expanded-item (expand-dotted-item
	(process-output-action (syntax (quasiquote item))
	dotted-vars))]
	[expanded-rst (expand-quasiquote-body (syntax rst))])
	(syntax ((unquote-splicing expanded-item) . expanded-rst)))]
	[(fst . rst)
	(with-syntax ([expanded-fst (expand-quasiquote-body (syntax fst))]
	[expanded-rst (expand-quasiquote-body (syntax rst))])
	(syntax (expanded-fst . expanded-rst)))]
	[other x]))
	(define (process-quasiquote x)
	(syntax-case x ()
	[(quasiquote term) (with-syntax ([expanded-body (expand-quasiquote-body (syntax term))])
	(syntax (quasiquote expanded-body)))]
	[else (sxml-match-syntax-error "bad quasiquote-form"
	stx
	x)]))
	(syntax-case action (quote quasiquote)
	[(quote . rst) action]
	[(quasiquote . rst) (process-quasiquote action)]
	[(fst . rst) (if (finite-lst? action)
	(with-syntax ([exp-lft (process-output-action (syntax fst) dotted-vars)]
	[exp-rgt (process-output-action (syntax rst) dotted-vars)])
	(syntax (exp-lft . exp-rgt)))
	(with-syntax ([exp-lft (process-output-action (syntax fst)
	dotted-vars)]
	[exp-rgt (expand-lst (syntax rst))])
	(syntax (apply exp-lft exp-rgt))))]
	[item action]))]
	[compile-element-pat
	(lambda (ele exp nextp fail-k pvar-lst depth cata-fun cata-defs dotted-vars)
	(syntax-case ele (@)
	[(tag (@ . attr-items) . items)
	(identifier? (syntax tag))
	(let ([attr-exp (car (generate-temporaries (list exp)))]
	[body-exp (car (generate-temporaries (list exp)))])
	(let-values ([(tests new-pvar-lst new-cata-defs new-dotted-vars)
	(compile-attr-list (syntax attr-items)
	(syntax items)
	attr-exp
	body-exp
	'()
	nextp
	fail-k
	pvar-lst
	depth
	cata-fun
	cata-defs
	dotted-vars)])
	(values (with-syntax ([x exp]
	[ax attr-exp]
	[bx body-exp]
	[body tests]
	[fail-to fail-k])
	(syntax (if (and (pair? x) (eq? 'tag (xml-element-tag x)))
	(let ([ax (xml-element-attributes x)]
	[bx (xml-element-contents x)])
	body)
	(fail-to))))
	new-pvar-lst
	new-cata-defs
	new-dotted-vars)))]
	[(tag . items)
	(identifier? (syntax tag))
	(let ([body-exp (car (generate-temporaries (list exp)))])
	(let-values ([(tests new-pvar-lst new-cata-defs new-dotted-vars)
	(compile-item-list (syntax items)
	body-exp
	nextp
	fail-k
	#t
	pvar-lst
	depth
	cata-fun
	cata-defs
	dotted-vars)])
	(values (with-syntax ([x exp]
	[bx body-exp]
	[body tests]
	[fail-to fail-k])
	(syntax (if (and (pair? x) (eq? 'tag (xml-element-tag x)))
	(let ([bx (xml-element-contents x)])
	body)
	(fail-to))))
	new-pvar-lst
	new-cata-defs
	new-dotted-vars)))]))]
	[compile-end-element
	(lambda (exp nextp fail-k pvar-lst cata-defs dotted-vars)
	(let-values ([(next-tests new-pvar-lst new-cata-defs new-dotted-vars)
	(nextp pvar-lst cata-defs dotted-vars)])
	(values (with-syntax ([x exp]
	[body next-tests]
	[fail-to fail-k])
	(syntax (if (null? x) body (fail-to))))
	new-pvar-lst
	new-cata-defs
	new-dotted-vars)))]
	[compile-attr-list
	(lambda (attr-lst body-lst attr-exp body-exp attr-key-lst nextp fail-k pvar-lst depth cata-fun cata-defs dotted-vars)
	(syntax-case attr-lst (unquote ->)
	[(unquote var)
	(identifier? (syntax var))
	(let-values ([(tests new-pvar-lst new-cata-defs new-dotted-vars)
	(compile-item-list body-lst
	body-exp
	nextp
	fail-k
	#t
	(add-pat-var (syntax var) pvar-lst)
	depth
	cata-fun
	cata-defs
	dotted-vars)])
	(values (with-syntax ([ax attr-exp]
	[matched-attrs attr-key-lst]
	[body tests])
	(syntax (let ([var (filter-attributes 'matched-attrs ax)])
	body)))
	new-pvar-lst
	new-cata-defs
	new-dotted-vars))]
	[((atag [(unquote [cata -> cvar ...]) default]) . rst)
	(identifier? (syntax atag))
	(let ([ctemp (car (generate-temporaries (syntax ([cvar ...]))))])
	(let-values ([(tests new-pvar-lst new-cata-defs new-dotted-vars)
	(compile-attr-list (syntax rst)
	body-lst
	attr-exp
	body-exp
	(cons (syntax atag) attr-key-lst)
	nextp
	fail-k
	(add-pat-var ctemp pvar-lst)
	depth
	cata-fun
	(add-cata-def depth
	(syntax [cvar ...])
	(syntax cata)
	ctemp
	cata-defs)
	dotted-vars)])
	(values (with-syntax ([ax attr-exp]
	[ct ctemp]
	[body tests])
	(syntax (let ([binding (match-xml-attribute 'atag ax)])
	(let ([ct (if binding
	(cadr binding)
	default)])
	body))))
	new-pvar-lst
	new-cata-defs
	new-dotted-vars)))]
	[((atag [(unquote [cvar ...]) default]) . rst)
	(identifier? (syntax atag))
	(let ([ctemp (car (generate-temporaries (syntax ([cvar ...]))))])
	(if (not cata-fun)
	(sxml-match-syntax-error "sxml-match pattern: catamorphism not allowed in this context"
	stx
	(syntax [cvar ...])))
	(let-values ([(tests new-pvar-lst new-cata-defs new-dotted-vars)
	(compile-attr-list (syntax rst)
	body-lst
	attr-exp
	body-exp
	(cons (syntax atag) attr-key-lst)
	nextp
	fail-k
	(add-pat-var ctemp pvar-lst)
	depth
	cata-fun
	(add-cata-def depth
	(syntax [cvar ...])
	cata-fun
	ctemp
	cata-defs)
	dotted-vars)])
	(values (with-syntax ([ax attr-exp]
	[ct ctemp]
	[body tests])
	(syntax (let ([binding (match-xml-attribute 'atag ax)])
	(let ([ct (if binding
	(cadr binding)
	default)])
	body))))
	new-pvar-lst
	new-cata-defs
	new-dotted-vars)))]
	[((atag [(unquote var) default]) . rst)
	(and (identifier? (syntax atag)) (identifier? (syntax var)))
	(let-values ([(tests new-pvar-lst new-cata-defs new-dotted-vars)
	(compile-attr-list (syntax rst)
	body-lst
	attr-exp
	body-exp
	(cons (syntax atag) attr-key-lst)
	nextp
	fail-k
	(add-pat-var (syntax var) pvar-lst)
	depth
	cata-fun
	cata-defs
	dotted-vars)])
	(values (with-syntax ([ax attr-exp]
	[body tests])
	(syntax (let ([binding (match-xml-attribute 'atag ax)])
	(let ([var (if binding
	(cadr binding)
	default)])
	body))))
	new-pvar-lst
	new-cata-defs
	new-dotted-vars))]
	[((atag (unquote [cata -> cvar ...])) . rst)
	(identifier? (syntax atag))
	(let ([ctemp (car (generate-temporaries (syntax ([cvar ...]))))])
	(let-values ([(tests new-pvar-lst new-cata-defs new-dotted-vars)
	(compile-attr-list (syntax rst)
	body-lst
	attr-exp
	body-exp
	(cons (syntax atag) attr-key-lst)
	nextp
	fail-k
	(add-pat-var ctemp pvar-lst)
	depth
	cata-fun
	(add-cata-def depth
	(syntax [cvar ...])
	(syntax cata)
	ctemp
	cata-defs)
	dotted-vars)])
	(values (with-syntax ([ax attr-exp]
	[ct ctemp]
	[body tests]
	[fail-to fail-k])
	(syntax (let ([binding (match-xml-attribute 'atag ax)])
	(if binding
	(let ([ct (cadr binding)])
	body)
	(fail-to)))))
	new-pvar-lst
	new-cata-defs
	new-dotted-vars)))]
	[((atag (unquote [cvar ...])) . rst)
	(identifier? (syntax atag))
	(let ([ctemp (car (generate-temporaries (syntax ([cvar ...]))))])
	(if (not cata-fun)
	(sxml-match-syntax-error "sxml-match pattern: catamorphism not allowed in this context"
	stx
	(syntax [cvar ...])))
	(let-values ([(tests new-pvar-lst new-cata-defs new-dotted-vars)
	(compile-attr-list (syntax rst)
	body-lst
	attr-exp
	body-exp
	(cons (syntax atag) attr-key-lst)
	nextp
	fail-k
	(add-pat-var ctemp pvar-lst)
	depth
	cata-fun
	(add-cata-def depth
	(syntax [cvar ...])
	cata-fun
	ctemp
	cata-defs)
	dotted-vars)])
	(values (with-syntax ([ax attr-exp]
	[ct ctemp]
	[body tests]
	[fail-to fail-k])
	(syntax (let ([binding (match-xml-attribute 'atag ax)])
	(if binding
	(let ([ct (cadr binding)])
	body)
	(fail-to)))))
	new-pvar-lst
	new-cata-defs
	new-dotted-vars)))]
	[((atag (unquote var)) . rst)
	(and (identifier? (syntax atag)) (identifier? (syntax var)))
	(let-values ([(tests new-pvar-lst new-cata-defs new-dotted-vars)
	(compile-attr-list (syntax rst)
	body-lst
	attr-exp
	body-exp
	(cons (syntax atag) attr-key-lst)
	nextp
	fail-k
	(add-pat-var (syntax var) pvar-lst)
	depth
	cata-fun
	cata-defs
	dotted-vars)])
	(values (with-syntax ([ax attr-exp]
	[body tests]
	[fail-to fail-k])
	(syntax (let ([binding (match-xml-attribute 'atag ax)])
	(if binding
	(let ([var (cadr binding)])
	body)
	(fail-to)))))
	new-pvar-lst
	new-cata-defs
	new-dotted-vars))]
	[((atag (i ...)) . rst)
	(identifier? (syntax atag))
	(sxml-match-syntax-error "bad attribute pattern"
	stx
	(syntax (kwd (i ...))))]
	[((atag i) . rst)
	(and (identifier? (syntax atag)) (identifier? (syntax i)))
	(sxml-match-syntax-error "bad attribute pattern"
	stx
	(syntax (kwd i)))]
	[((atag literal) . rst)
	(and (identifier? (syntax atag)) (literal? (syntax literal)))
	(let-values ([(tests new-pvar-lst new-cata-defs new-dotted-vars)
	(compile-attr-list (syntax rst)
	body-lst
	attr-exp
	body-exp
	(cons (syntax atag) attr-key-lst)
	nextp
	fail-k
	pvar-lst
	depth
	cata-fun
	cata-defs
	dotted-vars)])
	(values (with-syntax ([ax attr-exp]
	[body tests]
	[fail-to fail-k])
	(syntax (let ([binding (match-xml-attribute 'atag ax)])
	(if binding
	(if (equal? (cadr binding) literal)
	body
	(fail-to))
	(fail-to)))))
	new-pvar-lst
	new-cata-defs
	new-dotted-vars))]
	[()
	(compile-item-list body-lst
	body-exp
	nextp
	fail-k
	#t
	pvar-lst
	depth
	cata-fun
	cata-defs
	dotted-vars)]))]
	[compile-item-list
	(lambda (lst exp nextp fail-k ellipsis-allowed? pvar-lst depth cata-fun cata-defs dotted-vars)
	(syntax-case lst (unquote ->)
	[() (compile-end-element exp nextp fail-k pvar-lst cata-defs dotted-vars)]
	[(unquote var)
	(identifier? (syntax var))
	(if (not ellipsis-allowed?)
	(sxml-match-syntax-error "improper list pattern not allowed in this context"
	stx
	(syntax dots))
	(let-values ([(next-tests new-pvar-lst new-cata-defs new-dotted-vars)
	(nextp (add-pat-var (syntax var) pvar-lst) cata-defs dotted-vars)])
	(values (with-syntax ([x exp]
	[body next-tests])
	(syntax (let ([var x]) body)))
	new-pvar-lst
	new-cata-defs
	new-dotted-vars)))]
	[(unquote [cata -> cvar ...])
	(if (not ellipsis-allowed?)
	(sxml-match-syntax-error "improper list pattern not allowed in this context"
	stx
	(syntax dots))
	(let ([ctemp (car (generate-temporaries (syntax ([cvar ...]))))])
	(let-values ([(next-tests new-pvar-lst new-cata-defs new-dotted-vars)
	(nextp (add-pat-var ctemp pvar-lst)
	(add-cata-def depth
	(syntax [cvar ...])
	(syntax cata)
	ctemp
	cata-defs)
	dotted-vars)])
	(values (with-syntax ([ct ctemp]
	[x exp]
	[body next-tests])
	(syntax (let ([ct x]) body)))
	new-pvar-lst
	new-cata-defs
	new-dotted-vars))))]
	[(unquote [cvar ...])
	(let ([ctemp (car (generate-temporaries (syntax ([cvar ...]))))])
	(if (not cata-fun)
	(sxml-match-syntax-error "sxml-match pattern: catamorphism not allowed in this context"
	stx
	(syntax [cvar ...])))
	(let-values ([(next-tests new-pvar-lst new-cata-defs new-dotted-vars)
	(nextp (add-pat-var ctemp pvar-lst)
	(add-cata-def depth
	(syntax [cvar ...])
	cata-fun
	ctemp
	cata-defs)
	dotted-vars)])
	(values (with-syntax ([ct ctemp]
	[x exp]
	[body next-tests])
	(syntax (let ([ct x]) body)))
	new-pvar-lst
	new-cata-defs
	new-dotted-vars)))]
	[(item dots . rst)
	(ellipsis? (syntax dots))
	(if (not ellipsis-allowed?)
	(sxml-match-syntax-error "ellipses not allowed in this context"
	stx
	(syntax dots))
	(compile-dotted-pattern-list (syntax item)
	(syntax rst)
	exp
	nextp
	fail-k
	pvar-lst
	depth
	cata-fun
	cata-defs
	dotted-vars))]
	[(item . rst)
	(compile-item (syntax item)
	exp
	(lambda (new-exp new-pvar-lst new-cata-defs new-dotted-vars)
	(compile-item-list (syntax rst)
	new-exp
	nextp
	fail-k
	ellipsis-allowed?
	new-pvar-lst
	depth
	cata-fun
	new-cata-defs
	new-dotted-vars))
	fail-k
	pvar-lst
	depth
	cata-fun
	cata-defs
	dotted-vars)]))]
	[compile-dotted-pattern-list
	(lambda (item
	tail
	exp
	nextp
	fail-k
	pvar-lst
	depth
	cata-fun
	cata-defs
	dotted-vars)
	(let-values ([(tail-tests tail-pvar-lst tail-cata-defs tail-dotted-vars)
	(compile-item-list tail
	(syntax lst)
	(lambda (new-pvar-lst new-cata-defs new-dotted-vars)
	(values (with-syntax ([(npv ...) new-pvar-lst])
	(syntax (values #t npv ...)))
	new-pvar-lst
	new-cata-defs
	new-dotted-vars))
	(syntax fail)
	#f
	'()
	depth
	'()
	'()
	dotted-vars)]
	[(item-tests item-pvar-lst item-cata-defs item-dotted-vars)
	(compile-item item
	(syntax lst)
	(lambda (new-exp new-pvar-lst new-cata-defs new-dotted-vars)
	(values (with-syntax ([(npv ...) new-pvar-lst])
	(syntax (values #t (cdr lst) npv ...)))
	new-pvar-lst
	new-cata-defs
	new-dotted-vars))
	(syntax fail)
	'()
	(+ 1 depth)
	cata-fun
	'()
	dotted-vars)])
	; more here: check for duplicate pat-vars, cata-defs
	(let-values ([(final-tests final-pvar-lst final-cata-defs final-dotted-vars)
	(nextp (append tail-pvar-lst item-pvar-lst pvar-lst)
	(append tail-cata-defs item-cata-defs cata-defs)
	(append item-pvar-lst
	(cata-defs->pvar-lst item-cata-defs)
	tail-dotted-vars
	dotted-vars))])
	(let ([temp-item-pvar-lst (generate-temporaries item-pvar-lst)])
	(values
	(with-syntax
	([x exp]
	[fail-to fail-k]
	[tail-body tail-tests]
	[item-body item-tests]
	[final-body final-tests]
	[(ipv ...) item-pvar-lst]
	[(gpv ...) temp-item-pvar-lst]
	[(tpv ...) tail-pvar-lst]
	[(item-void ...) (map (lambda (i) (syntax (void))) item-pvar-lst)]
	[(tail-void ...) (map (lambda (i) (syntax (void))) tail-pvar-lst)]
	[(item-null ...) (map (lambda (i) (syntax '())) item-pvar-lst)]
	[(item-cons ...) (map (lambda (a b)
	(with-syntax ([xa a]
	[xb b])
	(syntax (cons xa xb))))
	item-pvar-lst
	temp-item-pvar-lst)])
	(syntax (letrec ([match-tail
	(lambda (lst fail)
	tail-body)]
	[match-item
	(lambda (lst)
	(let ([fail (lambda ()
	(values #f
	lst
	item-void ...))])
	item-body))]
	[match-dotted
	(lambda (x)
	(let-values ([(tail-res tpv ...)
	(match-tail x
	(lambda ()
	(values #f
	tail-void ...)))])
	(if tail-res
	(values item-null ...
	tpv ...)
	(let-values ([(res new-x ipv ...) (match-item x)])
	(if res
	(let-values ([(gpv ... tpv ...)
	(match-dotted new-x)])
	(values item-cons ... tpv ...))
	(let-values ([(last-tail-res tpv ...)
	(match-tail x fail-to)])
	(values item-null ... tpv ...)))))))])
	(let-values ([(ipv ... tpv ...)
	(match-dotted x)])
	final-body))))
	final-pvar-lst
	final-cata-defs
	final-dotted-vars)))))]
	[compile-item
	(lambda (item exp nextp fail-k pvar-lst depth cata-fun cata-defs dotted-vars)
	(syntax-case item (unquote ->)
	; normal pattern var
	[(unquote var)
	(identifier? (syntax var))
	(let ([new-exp (car (generate-temporaries (list exp)))])
	(let-values ([(next-tests new-pvar-lst new-cata-defs new-dotted-vars)
	(nextp new-exp (add-pat-var (syntax var) pvar-lst) cata-defs dotted-vars)])
	(values (with-syntax ([x exp]
	[nx new-exp]
	[body next-tests]
	[fail-to fail-k])
	(syntax (if (pair? x)
	(let ([nx (cdr x)]
	[var (car x)])
	body)
	(fail-to))))
	new-pvar-lst
	new-cata-defs
	new-dotted-vars)))]
	; named catamorphism
	[(unquote [cata -> cvar ...])
	(let ([new-exp (car (generate-temporaries (list exp)))]
	[ctemp (car (generate-temporaries (syntax ([cvar ...]))))])
	(let-values ([(next-tests new-pvar-lst new-cata-defs new-dotted-vars)
	(nextp new-exp
	(add-pat-var ctemp pvar-lst)
	(add-cata-def depth
	(syntax [cvar ...])
	(syntax cata)
	ctemp
	cata-defs)
	dotted-vars)])
	(values (with-syntax ([x exp]
	[nx new-exp]
	[ct ctemp]
	[body next-tests]
	[fail-to fail-k])
	(syntax (if (pair? x)
	(let ([nx (cdr x)]
	[ct (car x)])
	body)
	(fail-to))))
	new-pvar-lst
	new-cata-defs
	new-dotted-vars)))]
	; basic catamorphism
	[(unquote [cvar ...])
	(let ([new-exp (car (generate-temporaries (list exp)))]
	[ctemp (car (generate-temporaries (syntax ([cvar ...]))))])
	(if (not cata-fun)
	(sxml-match-syntax-error "sxml-match pattern: catamorphism not allowed in this context"
	stx
	(syntax [cvar ...])))
	(let-values ([(next-tests new-pvar-lst new-cata-defs new-dotted-vars)
	(nextp new-exp
	(add-pat-var ctemp pvar-lst)
	(add-cata-def depth
	(syntax [cvar ...])
	cata-fun
	ctemp
	cata-defs)
	dotted-vars)])
	(values (with-syntax ([x exp]
	[nx new-exp]
	[ct ctemp]
	[body next-tests]
	[fail-to fail-k])
	(syntax (if (pair? x)
	(let ([nx (cdr x)]
	[ct (car x)])
	body)
	(fail-to))))
	new-pvar-lst
	new-cata-defs
	new-dotted-vars)))]
	[(tag item ...)
	(identifier? (syntax tag))
	(let ([new-exp (car (generate-temporaries (list exp)))])
	(let-values ([(after-tests after-pvar-lst after-cata-defs after-dotted-vars)
	(compile-element-pat (syntax (tag item ...))
	(with-syntax ([x exp])
	(syntax (car x)))
	(lambda (more-pvar-lst more-cata-defs more-dotted-vars)
	(let-values ([(next-tests new-pvar-lst
	new-cata-defs
	new-dotted-vars)
	(nextp new-exp
	more-pvar-lst
	more-cata-defs
	more-dotted-vars)])
	(values (with-syntax ([x exp]
	[nx new-exp]
	[body next-tests])
	(syntax (let ([nx (cdr x)])
	body)))
	new-pvar-lst
	new-cata-defs
	new-dotted-vars)))
	fail-k
	pvar-lst
	depth
	cata-fun
	cata-defs
	dotted-vars)])
	; test that we are not at the end of an item-list, BEFORE
	; entering tests for the element pattern (against the 'car' of the item-list)
	(values (with-syntax ([x exp]
	[body after-tests]
	[fail-to fail-k])
	(syntax (if (pair? x)
	body
	(fail-to))))
	after-pvar-lst
	after-cata-defs
	after-dotted-vars)))]
	[(i ...)
	(sxml-match-syntax-error "bad pattern syntax (not an element pattern)"
	stx
	(syntax (i ...)))]
	[i
	(identifier? (syntax i))
	(sxml-match-syntax-error "bad pattern syntax (symbol not allowed in this context)"
	stx
	(syntax i))]
	[literal
	(literal? (syntax literal))
	(let ([new-exp (car (generate-temporaries (list exp)))])
	(let-values ([(next-tests new-pvar-lst new-cata-defs new-dotted-vars)
	(nextp new-exp pvar-lst cata-defs dotted-vars)])
	(values (with-syntax ([x exp]
	[nx new-exp]
	[body next-tests]
	[fail-to fail-k])
	(syntax (if (and (pair? x) (equal? literal (car x)))
	(let ([nx (cdr x)])
	body)
	(fail-to))))
	new-pvar-lst
	new-cata-defs
	new-dotted-vars)))]))])
	(let ([fail-k (syntax failure)])
	(syntax-case stx (unquote guard ->)
	[(compile-clause ((unquote var) (guard gexp ...) action0 action ...)
	exp
	cata-fun
	fail-exp)
	(identifier? (syntax var))
	(syntax (let ([var exp])
	(if (and gexp ...)
	(begin action0 action ...)
	(fail-exp))))]
	[(compile-clause ((unquote [cata -> cvar ...]) (guard gexp ...) action0 action ...)
	exp
	cata-fun
	fail-exp)
	(syntax (if (and gexp ...)
	(let-values ([(cvar ...) (cata exp)])
	(begin action0 action ...))
	(fail-exp)))]
	[(compile-clause ((unquote [cvar ...]) (guard gexp ...) action0 action ...)
	exp
	cata-fun
	fail-exp)
	(if (not (extract-cata-fun (syntax cata-fun)))
	(sxml-match-syntax-error "sxml-match pattern: catamorphism not allowed in this context"
	stx
	(syntax [cvar ...]))
	(syntax (if (and gexp ...)
	(let-values ([(cvar ...) (cata-fun exp)])
	(begin action0 action ...))
	(fail-exp))))]
	[(compile-clause ((unquote var) action0 action ...) exp cata-fun fail-exp)
	(identifier? (syntax var))
	(syntax (let ([var exp])
	action0 action ...))]
	[(compile-clause ((unquote [cata -> cvar ...]) action0 action ...) exp cata-fun fail-exp)
	(syntax (let-values ([(cvar ...) (cata exp)])
	action0 action ...))]
	[(compile-clause ((unquote [cvar ...]) action0 action ...) exp cata-fun fail-exp)
	(if (not (extract-cata-fun (syntax cata-fun)))
	(sxml-match-syntax-error "sxml-match pattern: catamorphism not allowed in this context"
	stx
	(syntax [cvar ...]))
	(syntax (let-values ([(cvar ...) (cata-fun exp)])
	action0 action ...)))]
	[(compile-clause ((lst . rst) (guard gexp ...) action0 action ...) exp cata-fun fail-exp)
	(and (identifier? (syntax lst)) (eq? 'list (syntax-object->datum (syntax lst))))
	(let-values ([(result pvar-lst cata-defs dotted-vars)
	(compile-item-list (syntax rst)
	(syntax exp)
	(lambda (new-pvar-lst new-cata-defs new-dotted-vars)
	(values
	(with-syntax
	([exp-body (process-cata-defs new-cata-defs
	(process-output-action
	(syntax (begin action0
	action ...))
	new-dotted-vars))]
	[fail-to fail-k])
	(syntax (if (and gexp ...) exp-body (fail-to))))
	new-pvar-lst
	new-cata-defs
	new-dotted-vars))
	fail-k
	#t
	'()
	0
	(extract-cata-fun (syntax cata-fun))
	'()
	'())])
	(with-syntax ([fail-to fail-k]
	[body result])
	(syntax (let ([fail-to fail-exp])
	(if (nodeset? exp)
	body
	(fail-to))))))]
	[(compile-clause ((lst . rst) action0 action ...) exp cata-fun fail-exp)
	(and (identifier? (syntax lst)) (eq? 'list (syntax-object->datum (syntax lst))))
	(let-values ([(result pvar-lst cata-defs dotted-vars)
	(compile-item-list (syntax rst)
	(syntax exp)
	(lambda (new-pvar-lst new-cata-defs new-dotted-vars)
	(values (process-cata-defs new-cata-defs
	(process-output-action
	(syntax (begin action0
	action ...))
	new-dotted-vars))
	new-pvar-lst
	new-cata-defs
	new-dotted-vars))
	fail-k
	#t
	'()
	0
	(extract-cata-fun (syntax cata-fun))
	'()
	'())])
	(with-syntax ([body result]
	[fail-to fail-k])
	(syntax (let ([fail-to fail-exp])
	(if (nodeset? exp)
	body
	(fail-to))))))]
	[(compile-clause ((fst . rst) (guard gexp ...) action0 action ...) exp cata-fun fail-exp)
	(identifier? (syntax fst))
	(let-values ([(result pvar-lst cata-defs dotted-vars)
	(compile-element-pat (syntax (fst . rst))
	(syntax exp)
	(lambda (new-pvar-lst new-cata-defs new-dotted-vars)
	(values
	(with-syntax
	([body (process-cata-defs new-cata-defs
	(process-output-action
	(syntax (begin action0
	action ...))
	new-dotted-vars))]
	[fail-to fail-k])
	(syntax (if (and gexp ...) body (fail-to))))
	new-pvar-lst
	new-cata-defs
	new-dotted-vars))
	fail-k
	'()
	0
	(extract-cata-fun (syntax cata-fun))
	'()
	'())])
	(with-syntax ([fail-to fail-k]
	[body result])
	(syntax (let ([fail-to fail-exp])
	body))))]
	[(compile-clause ((fst . rst) action0 action ...) exp cata-fun fail-exp)
	(identifier? (syntax fst))
	(let-values ([(result pvar-lst cata-defs dotted-vars)
	(compile-element-pat (syntax (fst . rst))
	(syntax exp)
	(lambda (new-pvar-lst new-cata-defs new-dotted-vars)
	(values (process-cata-defs new-cata-defs
	(process-output-action
	(syntax (begin action0
	action ...))
	new-dotted-vars))
	new-pvar-lst
	new-cata-defs
	new-dotted-vars))
	fail-k
	'()
	0
	(extract-cata-fun (syntax cata-fun))
	'()
	'())])
	(with-syntax ([fail-to fail-k]
	[body result])
	(syntax (let ([fail-to fail-exp])
	body))))]
	[(compile-clause ((i ...) (guard gexp ...) action0 action ...) exp cata-fun fail-exp)
	(sxml-match-syntax-error "bad pattern syntax (not an element pattern)"
	stx
	(syntax (i ...)))]
	[(compile-clause ((i ...) action0 action ...) exp cata-fun fail-exp)
	(sxml-match-syntax-error "bad pattern syntax (not an element pattern)"
	stx
	(syntax (i ...)))]
	[(compile-clause (pat (guard gexp ...) action0 action ...) exp cata-fun fail-exp)
	(identifier? (syntax pat))
	(sxml-match-syntax-error "bad pattern syntax (symbol not allowed in this context)"
	stx
	(syntax pat))]
	[(compile-clause (pat action0 action ...) exp cata-fun fail-exp)
	(identifier? (syntax pat))
	(sxml-match-syntax-error "bad pattern syntax (symbol not allowed in this context)"
	stx
	(syntax pat))]
	[(compile-clause (literal (guard gexp ...) action0 action ...) exp cata-fun fail-exp)
	(literal? (syntax literal))
	(syntax (if (and (equal? literal exp) (and gexp ...))
	(begin action0 action ...)
	(fail-exp)))]
	[(compile-clause (literal action0 action ...) exp cata-fun fail-exp)
	(literal? (syntax literal))
	(syntax (if (equal? literal exp)
	(begin action0 action ...)
	(fail-exp)))])))))

	(define-syntax sxml-match1
	(syntax-rules ()
	[(sxml-match1 exp cata-fun clause)
	(compile-clause clause exp cata-fun
	(lambda () (error 'sxml-match "no matching clause found")))]
	[(sxml-match1 exp cata-fun clause0 clause ...)
	(let/ec escape
	(compile-clause clause0 exp cata-fun
	(lambda () (call-with-values
	(lambda () (sxml-match1 exp cata-fun
	clause ...))
	escape))))]))

	(define-syntax sxml-match
	(syntax-rules ()
	((sxml-match val clause0 clause ...)
	(letrec ([cfun (lambda (exp)
	(sxml-match1 exp cfun clause0 clause ...))])
	(cfun val)))))

	(define-syntax sxml-match-let1
	(syntax-rules ()
	[(sxml-match-let1 syntag synform () body0 body ...)
	(let () body0 body ...)]
	[(sxml-match-let1 syntag synform ([pat exp]) body0 body ...)
	(compile-clause (pat (let () body0 body ...))
	exp
	#f
	(lambda () (error 'syntag "could not match pattern ~s" 'pat)))]
	[(sxml-match-let1 syntag synform ([pat0 exp0] [pat exp] ...) body0 body ...)
	(compile-clause (pat0 (sxml-match-let1 syntag synform ([pat exp] ...) body0 body ...))
	exp0
	#f
	(lambda () (error 'syntag "could not match pattern ~s" 'pat0)))]))

	(define-syntax sxml-match-let-help
	(lambda (stx)
	(syntax-case stx ()
	[(sxml-match-let-help syntag synform ([pat exp] ...) body0 body ...)
	(with-syntax ([(temp-name ...) (generate-temporaries (syntax (exp ...)))])
	(syntax (let ([temp-name exp] ...)
	(sxml-match-let1 syntag synform ([pat temp-name] ...) body0 body ...))))])))

	(define-syntax sxml-match-let
	(lambda (stx)
	(syntax-case stx ()
	[(sxml-match-let ([pat exp] ...) body0 body ...)
	(with-syntax ([synform stx])
	(syntax (sxml-match-let-help sxml-match-let synform ([pat exp] ...) body0 body ...)))])))

	(define-syntax sxml-match-let*
	(lambda (stx)
	(syntax-case stx ()
	[(sxml-match-let* () body0 body ...)
	(syntax (let () body0 body ...))]
	[(sxml-match-let* ([pat0 exp0] [pat exp] ...) body0 body ...)
	(with-syntax ([synform stx])
	(syntax (sxml-match-let-help sxml-match-let* synform ([pat0 exp0])
	(sxml-match-let* ([pat exp] ...)
	body0 body ...))))])))

	)