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(defstruct match-vars ()
vars
var-exprs
(:method assignments (me)
(mapcar (ret ^(set ,@1 ,@2)) me.vars me.var-exprs)))
(defstruct match-guard (match-vars)
guard-expr)
(defstruct compiled-match (match-vars)
pattern
obj-var
guard-chain
test-expr
(:method get-temps (me)
(mappend .vars me.guard-chain))
(:method get-vars (me)
(append me.(get-temps) me.vars))
(:method wrap-guards (me exp)
(let ((rev-guard-chain (reverse me.guard-chain))
(out exp))
(each ((g rev-guard-chain))
(set out ^(when ,g.guard-expr
(progn
,*g.(assignments)
,out))))
out)))
(defstruct var-list ()
vars
(:method exists (me sym) (member sym me.vars))
(:method record (me sym) (push sym me.vars)))
(defvar *match-form*)
(defun compile-struct-match (struct-pat obj-var var-list)
(mac-param-bind *match-form* (op required-type . pairs) struct-pat
(let* ((loose-p (not (bindable required-type)))
(slot-pairs (plist-to-alist pairs))
(required-slots [mapcar car slot-pairs])
(slot-gensyms [mapcar gensym required-slots])
(type-gensym (if loose-p
(gensym "type-")))
(slot-patterns [mapcar cdr slot-pairs])
(slot-matches [mapcar (lop compile-match var-list)
slot-patterns slot-gensyms])
(type-match (if loose-p
(compile-match required-type type-gensym var-list)))
(all-matches (if loose-p
(cons type-match slot-matches)
slot-matches))
(slot-val-exprs [mapcar (ret ^(slot ,obj-var ',@1)) required-slots])
(guard0 (if loose-p
(new match-guard
vars (list type-gensym)
var-exprs (list ^(struct-type ,obj-var))
guard-expr ^(structp ,obj-var))))
(guard1 (new match-guard
vars slot-gensyms
var-exprs slot-val-exprs
guard-expr (if loose-p
^(and ,*(mapcar
(ret ^(slotp ,type-gensym ',@1))
required-slots))
^(subtypep (typeof ,obj-var)
',required-type)))))
(unless loose-p
(let ((type (find-struct-type required-type)))
(if type
(each ((slot required-slots))
(unless (slotp type slot)
(compile-defr-warning *match-form* ^(slot . ,slot)
"~s has no slot ~s"
required-type slot)))
(compile-defr-warning *match-form* ^(struct-type . ,required-type)
"no such struct type: ~s"
required-type))))
(new compiled-match
pattern struct-pat
obj-var obj-var
guard-chain ^(,*(if guard0 (list guard0)) ,guard1
,*(mappend .guard-chain all-matches))
test-expr ^(and ,*(mapcar .test-expr all-matches))
vars [mappend .vars all-matches]
var-exprs [mappend .var-exprs all-matches]))))
(defun compile-var-match (sym obj-var var-list)
(or (null sym) (bindable sym)
(compile-error *match-form* "~s is not a symbol" sym))
(cond
((or (null sym)
(not var-list.(exists sym)))
var-list.(record sym)
(new compiled-match
pattern sym
obj-var obj-var
test-expr t
vars (if sym (list sym))
var-exprs (if sym (list obj-var))))
(t (new compiled-match
pattern sym
obj-var obj-var
test-expr ^(equal ,obj-var ,sym)))))
(defun compile-vec-match (vec-pat obj-var var-list)
(let* ((elem-gensyms (mapcar (op gensym `elem-@1-`) (range* 0 (len vec-pat))))
(elem-matches (list-vec [mapcar (lop compile-match var-list)
vec-pat elem-gensyms]))
(guard (new match-guard
vars elem-gensyms
var-exprs (mapcar (ret ^[,obj-var ,@1])
(range* 0 (len vec-pat)))
guard-expr ^(and (vectorp ,obj-var)
(eql (len ,obj-var) ,(len vec-pat))))))
(new compiled-match
pattern vec-pat
obj-var obj-var
guard-chain (cons guard (mappend .guard-chain elem-matches))
test-expr ^(and ,*(mapcar .test-expr elem-matches))
vars (mappend .vars elem-matches)
var-exprs (mappend .var-exprs elem-matches))))
(defun compile-atom-match (atom obj-var var-list)
(typecase atom
(vec (compile-vec-match atom obj-var var-list))
(t (new compiled-match
pattern atom
obj-var obj-var
test-expr ^(equal ,obj-var ',atom)))))
(defun compile-op-match (op-expr obj-var var-list)
(let ((var-match (compile-var-match nil obj-var var-list)))
(set var-match.test-expr ^(and ,var-match.test-expr [,op-expr ,obj-var]))
var-match))
(defun compile-predicate-match (pred-expr obj-var var-list)
(mac-param-bind *match-form* (fun : sym) pred-expr
(or (null sym) (bindable sym)
(compile-error *match-form* "~s is not a symbol" sym))
(let ((var-match (compile-var-match sym obj-var var-list)))
(set var-match.test-expr ^(and ,var-match.test-expr (,fun ,obj-var)))
var-match)))
(defun compile-cons-structure (cons-pat obj-var var-list)
(mac-param-bind *match-form* (car . cdr) cons-pat
(let* ((car-gensym (gensym))
(cdr-gensym (gensym))
(car-match (compile-match car car-gensym var-list))
(cdr-match (if (consp cdr)
(caseq (car cdr)
((sys:expr sys:var) (compile-match cdr cdr-gensym
var-list))
(t (compile-cons-structure cdr cdr-gensym var-list)))
(compile-atom-match cdr cdr-gensym var-list)))
(guard (new match-guard
vars ^(,car-gensym ,cdr-gensym)
var-exprs ^((car ,obj-var) (cdr ,obj-var))
guard-expr ^(consp ,obj-var))))
(new compiled-match
pattern cons-pat
obj-var obj-var
guard-chain (cons guard (append car-match.guard-chain
cdr-match.guard-chain))
test-expr ^(and ,car-match.test-expr ,cdr-match.test-expr)
vars (append car-match.vars cdr-match.vars)
var-exprs (append car-match.var-exprs cdr-match.var-exprs)))))
(defun compile-require-match (exp obj-var var-list)
(mac-param-bind *match-form* (op match . conditions) exp
(let ((match (compile-match match obj-var var-list)))
(set match.test-expr ^(and ,match.test-expr ,*conditions))
match)))
(defun compile-let-match (exp obj-var var-list)
(mac-param-bind *match-form* (op sym match) exp
(unless (bindable sym)
(compile-error *match-form* "~s is not a bindable symbol" sym))
(let ((match (compile-match match obj-var var-list)))
(cond
(var-list.(exists sym)
(set match.test-expr
^(and ,match.test-expr (equal ,sym ,match.obj-var))))
(t (push sym match.vars)
(push obj-var match.var-exprs)
var-list.(record sym)))
match)))
(defun compile-loop-match (exp obj-var var-list)
(mac-param-bind *match-form* (op match) exp
(let* ((list-test (if (eq op 'usr:all*) 'consp 'listp))
(some-p (eq op 'some))
(item-var (gensym "item-"))
(cm (compile-match match item-var var-list))
(loop-success-p-var (gensym "loop-success-p-"))
(loop-continue-p-var (gensym "loop-terminate-p"))
(matched-p-var (gensym "matched-p-"))
(iter-var (gensym "iter-"))
(collect-vars [mapcar gensym cm.vars])
(loop ^(for ((,iter-var ,obj-var)
(,loop-continue-p-var t))
((and ,loop-continue-p-var ,iter-var)
,(if some-p
^(not ,loop-continue-p-var)
loop-continue-p-var))
((set ,iter-var (cdr ,iter-var)))
(let ((,cm.obj-var (car ,iter-var))
,matched-p-var
,*(if some-p cm.(get-temps) cm.(get-vars)))
,cm.(wrap-guards
^(progn ,*cm.(assignments)
(if ,cm.test-expr
(progn
(set ,matched-p-var t)
,*(unless some-p
(mapcar (ret ^(push ,@1 ,@2))
cm.vars
collect-vars))))))
(,(if some-p 'when 'unless) ,matched-p-var
(set ,loop-continue-p-var nil)))))
(guard0 (new match-guard
vars (append cm.vars (unless some-p collect-vars))
guard-expr t))
(guard1 (new match-guard
vars (list loop-success-p-var)
var-exprs (list loop)
guard-expr ^(,list-test ,obj-var))))
(new compiled-match
pattern exp
obj-var obj-var
guard-chain (list guard0 guard1)
test-expr (if some-p
loop-success-p-var
^(when ,loop-success-p-var
,*(mapcar (ret ^(set ,@1 (nreverse ,@2)))
cm.vars collect-vars)
t))))))
(defun compile-parallel-match (par-pat obj-var var-list)
(mac-param-bind *match-form* (op . pats) par-pat
(let* ((var-lists (mapcar (ret (copy var-list)) pats))
(par-matches (mapcar (op compile-match @1 obj-var @2)
pats var-lists))
(all-vars (uniq (mappend .vars par-matches))))
(flet ((submatch-fun (pm)
^(let ,pm.(get-temps)
,pm.(wrap-guards
^(progn ,*pm.(assignments)
(when ,pm.test-expr
,*(if (eq op 'or)
(mapcar (ret ^(set ,@1 nil))
(diff all-vars pm.vars)))
t))))))
(let ((guard0 (new match-guard
guard-expr t
vars all-vars))
(guard1 (new match-guard
guard-expr ^(,op ,*[mapcar submatch-fun par-matches]))))
(new compiled-match
pattern par-pat
obj-var obj-var
guard-chain (list guard0 guard1)
test-expr t))))))
(defun compile-not-match (pattern obj-var var-list)
(mac-param-bind *match-form* (op pattern) pattern
(let* ((pm (compile-match pattern obj-var var-list))
(guard (new match-guard
guard-expr ^(not (let ,pm.(get-vars)
,pm.(wrap-guards
^(progn ,*pm.(assignments)
(when ,pm.test-expr
t))))))))
(new compiled-match
pattern pattern
obj-var obj-var
guard-chain (list guard)
test-expr t
vars nil))))
(defun compile-match (pat : (obj-var (gensym)) (var-list (new var-list)))
(cond
((consp pat)
(caseq (car pat)
(sys:expr
(let ((exp (cadr pat)))
(if (consp exp)
(caseq (car exp)
(struct (compile-struct-match exp obj-var var-list))
(require (compile-require-match exp obj-var var-list))
(let (compile-let-match exp obj-var var-list))
(all (compile-loop-match exp obj-var var-list))
(usr:all* (compile-loop-match exp obj-var var-list))
(some (compile-loop-match exp obj-var var-list))
(or (compile-parallel-match exp obj-var var-list))
(and (compile-parallel-match exp obj-var var-list))
(not (compile-not-match exp obj-var var-list))
(op (compile-op-match exp obj-var var-list))
(t (compile-predicate-match exp obj-var var-list)))
(compile-error *match-form*
"unrecognized pattern syntax ~s" pat))))
(sys:var (compile-var-match (cadr pat) obj-var var-list))
(t (compile-cons-structure pat obj-var var-list))))
(t (compile-atom-match pat obj-var var-list))))
(defmacro when-match (:form *match-form* pat obj . body)
(let ((cm (compile-match pat)))
^(let ((,cm.obj-var ,obj)
,*cm.(get-vars))
,cm.(wrap-guards
^(progn ,*cm.(assignments)
(if ,cm.test-expr ,*body))))))
(defmacro if-match (:form *match-form* pat obj then : else)
(let ((cm (compile-match pat))
(match-p (gensym "match-p-"))
(result (gensym "result-")))
^(let ((,cm.obj-var ,obj)
,match-p
,*cm.(get-vars))
(let ((,result ,cm.(wrap-guards
^(progn ,*cm.(assignments)
(when ,cm.test-expr
(set ,match-p t)
,then)))))
(if ,match-p ,result ,else)))))
(defmacro match-case (:form *match-form* obj . clauses)
(unless [all clauses [andf proper-listp [chain len plusp]]]
(compile-error *match-form* "bad clause syntax"))
(let* ((flag (gensym "flag-"))
(result (gensym "result-"))
(clause-matches [mapcar (op compile-match (car @1) obj) clauses])
(clause-code (collect-each ((cl clauses)
(cm clause-matches)
(i 0))
(mac-param-bind *match-form* (match . forms) cl
^(unless ,(unless (zerop i) flag)
(let (,*cm.(get-vars))
(set ,result ,cm.(wrap-guards
^(progn ,*cm.(assignments)
(when ,cm.test-expr
(set ,flag t)
,*forms))))))))))
^(let (,flag ,result)
,*clause-code
,result)))
(defmacro lambda-match (. clauses)
(with-gensyms (args)
^(lambda (. ,args)
(match-case ,args ,*clauses))))
(defmacro defun-match (name . clauses)
(with-gensyms (args)
^(defun ,name (. ,args)
(match-case ,args ,*clauses))))
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