;; AST utilities ;; deparser (define (deparse-arglist l (sep ", ")) (if (has-parameters? l) (string (string.join (map deparse (cdr l)) sep) (if (length= (cdr l) 1) "," "") (deparse (car l))) (string.join (map deparse l) sep))) (define (deparse-prefix-call head args opn cls) (string (if (or (decl? head) (eq? head ':)) (string "(" (deparse head) ")") (deparse head)) opn (deparse-arglist args) cls)) (define (deparse-generator e) (if (eq? (car e) 'flatten) (deparse-flatten e '()) (string (deparse (cadr e)) " for " (deparse-arglist (cddr e) ", ")))) (define (deparse-flatten e iters (flat #t)) (cond ((and flat (pair? e) (eq? (car e) 'generator)) (deparse-flatten (cadr e) (cons (deparse-arglist (cddr e) ", ") iters) #f)) ((and flat (pair? e) (eq? (car e) 'flatten)) (let ((e (cadr e))) (deparse-flatten (cadr e) (cons (deparse-arglist (cddr e) ", ") iters) #t))) (else (string (deparse e) " for " (string.join (reverse iters) " for "))))) (define (indented-block lst ilvl) (string (string.join (map (lambda (ex) (string (string.rep " " (+ ilvl 1)) (deparse ex (+ ilvl 1)))) lst) "\n") (if (null? lst) "" "\n"))) (define (deparse-block head lst ilvl) (string head "\n" (indented-block lst ilvl) (string.rep " " ilvl) "end")) (define (deparse-colon-dot e) (if (dotop? e) (string ":" (deparse e)) (deparse e))) (define (deparse-import-path e) (cond ((and (pair? e) (eq? (car e) '|.|)) (let loop ((lst (cdr e)) (ndots 0)) (if (or (null? lst) (not (eq? (car lst) '|.|))) (string (string.rep "." ndots) (string.join (map deparse lst) ".")) (loop (cdr lst) (+ ndots 1))))) ((and (pair? e) (eq? (car e) ':)) (string (deparse-import-path (cadr e)) ": " (string.join (map deparse-import-path (cddr e)) ", "))) (else (string e)))) (define (deparse e (ilvl 0)) (cond ((or (symbol? e) (number? e)) (string e)) ((string? e) (print-to-string e)) ((eq? (typeof e) 'julia_value) (let ((s (string e))) (if (string.find s "#:|) (eq? (car e) '-->)) (if (length= e 2) (string (car e) (deparse (cadr e))) (string (deparse (cadr e)) " " (car e) " " (deparse (caddr e))))) ((eq? (car e) 'as) (string (deparse-import-path (cadr e)) " as " (deparse (caddr e)))) (else (case (car e) ((null) "nothing") ((true) "true") ((false) "false") ;; calls and operators ((call) (cond ((and (eq? (cadr e) ':) (or (length= e 4) (length= e 5))) (string (deparse (caddr e)) ': (deparse (cadddr e)) (if (length> e 4) (string ': (deparse (caddddr e))) ""))) ((and (length= e 4) (operator? (cadr e))) (string #\( (deparse (caddr e)) " " (cadr e) " " (deparse (cadddr e)) #\) )) (else (deparse-prefix-call (cadr e) (cddr e) #\( #\))))) (($ &) (if (and (pair? (cadr e)) (not (memq (caadr e) '(outerref null true false tuple $ vect braces)))) (string (car e) "(" (deparse (cadr e)) ")") (string (car e) (deparse (cadr e))))) ((|::|) (if (length= e 2) (string (car e) (deparse (cadr e))) (string (deparse (cadr e)) (car e) (deparse (caddr e))))) ((comparison) (string.join (map deparse (cdr e)) " ")) ((macrocall) (string (cadr e) " " (deparse-arglist (cddr e) " "))) ((kw) (string (deparse (cadr e)) " = " (deparse (caddr e)))) ((where) (string (deparse (cadr e)) " where " (if (length= e 3) (deparse (caddr e)) (deparse (cons 'braces (cddr e)))))) ((parameters) (string "; " (deparse-arglist (cdr e)))) ;; bracket forms ((tuple) (string #\( (deparse-arglist (cdr e)) (if (length= e 2) #\, "") #\))) ((ref) (deparse-prefix-call (cadr e) (cddr e) #\[ #\])) ((curly) (deparse-prefix-call (cadr e) (cddr e) #\{ #\})) ((vect) (string #\[ (deparse-arglist (cdr e) ", ") #\])) ((vcat) (string #\[ (deparse-arglist (cdr e) "; ") #\])) ((typed_vcat) (string (deparse (cadr e)) (deparse (cons 'vcat (cddr e))))) ((hcat) (string #\[ (deparse-arglist (cdr e) " ") #\])) ((typed_hcat) (string (deparse (cadr e)) (deparse (cons 'hcat (cddr e))))) ((row) (deparse-arglist (cdr e) " ")) ((braces) (string #\{ (deparse-arglist (cdr e) ", ") #\})) ((bracescat) (string #\{ (deparse-arglist (cdr e) "; ") #\})) ((string) (string #\" (string.join (map (lambda (s) (cond ((string? s) s) ((symbol? s) (string "$" s)) (else (string "$(" (deparse s) ")")))) (cdr e)) "") #\")) ;; comprehensions and generators ((generator) (string "(" (deparse-generator e) ")")) ((flatten) (string "(" (deparse-generator e) ")")) ((filter) (string (deparse (caddr e)) " if " (deparse (cadr e)))) ((comprehension) (string "[ " (deparse-generator (cadr e)) " ]")) ((typed_comprehension) (string (deparse (cadr e)) (deparse (cons 'comprehension (cddr e))))) ;; block forms ((block) (deparse-block "begin" (cdr e) ilvl)) ((toplevel) (string.join (map deparse (cdr e)) "\n")) ((function macro for while) (define (block-stmts e) (if (and (pair? e) (eq? (car e) 'block)) (cdr e) (list e))) (deparse-block (string (car e) " " (deparse (cadr e))) (block-stmts (caddr e)) ilvl)) ((return) (string "return " (deparse (cadr e)))) ((break continue) (string (car e))) ((if elseif) (define (if-cond e) (if (eq? (car e) 'elseif) (caddr (cadr e)) (cadr e))) (if (length= e 3) (deparse-block (string (car e) " " (deparse (if-cond e))) (cdr (caddr e)) ilvl) (string (car e) " " (deparse (if-cond e)) "\n" (indented-block (cdr (caddr e)) ilvl) (let ((els (cadddr e))) (if (and (pair? els) (eq? (car els) 'elseif)) (deparse els) (deparse-block "else" (cdr els) ilvl)))))) ((let) (deparse-block (string "let " (string.join (map deparse (cdadr e)) ", ")) (cdr (caddr e)) ilvl)) ((try) (string "try\n" (indented-block (cdr (cadr e)) ilvl) (if (and (pair? (cadddr e)) (eq? (car (cadddr e)) 'block)) (string (string.rep " " ilvl) "catch" (if (equal? (caddr e) '(false)) "" (string " " (caddr e))) "\n" (indented-block (cdr (cadddr e)) ilvl)) "") (if (length> e 4) (let ((fin (caddddr e))) (if (and (pair? fin) (eq? (car fin) 'block)) (string (string.rep " " ilvl) "finally\n" (indented-block (cdr fin) ilvl)) "")) "") (string.rep " " ilvl) "end")) ((do) (let ((call (cadr e)) (args (cdr (cadr (caddr e)))) (body (caddr (caddr e)))) (deparse-block (string (deparse call) " do" (if (null? args) "" " ") (deparse-arglist args)) (cdr body) ilvl))) ((struct) (string (if (equal? (cadr e) '(true)) "mutable " "") "struct " (deparse-block (deparse (caddr e)) (cdr (cadddr e)) ilvl))) ((abstract) (string "abstract type " (deparse (cadr e)) " end")) ((primitive) (string "primitive type " (deparse (cadr e)) " " (deparse (caddr e)) " end")) ((module) (string (if (equal? (cadr e) '(true)) "module " "baremodule ") (caddr e) "\n" (string.join (map deparse (cdr (cadddr e))) "\n") "\n" "end")) ;; misc syntax forms ((import using) (string (car e) " " (string.join (map deparse-import-path (cdr e)) ", "))) ((global local export) (string (car e) " " (string.join (map deparse (cdr e)) ", "))) ((const) (string "const " (deparse (cadr e)))) ((top) (deparse (cadr e))) ((core) (string "Core." (deparse (cadr e)))) ((globalref) (string (deparse (cadr e)) "." (deparse-colon-dot (caddr e)))) ((outerref) (string (deparse (cadr e)))) ((ssavalue) (string "SSAValue(" (cadr e) ")")) ((line) (if (length= e 2) (string "# line " (cadr e)) (string "# " (caddr e) ", line " (cadr e)))) ((copyast) (deparse (cadr e))) ((quote inert) (if (and (symbol? (cadr e)) (not (memv (string.char (string (cadr e)) 0) '(#\= #\:)))) (string ":" (deparse (cadr e))) (string ":(" (deparse (cadr e)) ")"))) (else (string e)))))) ;; custom gensyms (define *gensyms* '()) (define *current-gensyms* '()) (define *gensy-counter* 1) (define (gensy) (if (null? *current-gensyms*) (let ((g (symbol (string "#s" *gensy-counter*)))) (set! *gensy-counter* (+ *gensy-counter* 1)) (set! *gensyms* (cons g *gensyms*)) g) (begin0 (car *current-gensyms*) (set! *current-gensyms* (cdr *current-gensyms*))))) (define (named-gensy name) (let ((g (symbol (string "#" *gensy-counter* "#" name)))) (set! *gensy-counter* (+ *gensy-counter* 1)) g)) (define (reset-gensyms) (set! *current-gensyms* *gensyms*)) (define make-ssavalue (let ((ssavalue-counter 0)) (lambda () (begin0 `(ssavalue ,ssavalue-counter) (set! ssavalue-counter (+ 1 ssavalue-counter)))))) ;; predicates and accessors (define (quoted? e) (memq (car e) '(quote top core globalref outerref line break inert meta inbounds loopinfo))) (define (quotify e) `',e) (define (unquote e) (if (and (pair? e) (memq (car e) '(quote inert))) (cadr e) e)) (define (quoted-sym? e) (and (length= e 2) (memq (car e) '(quote inert)) (symbol? (cadr e)))) (define (lam:args x) (cadr x)) (define (lam:argnames x) (llist-vars (lam:args x))) (define (lam:vinfo x) (caddr x)) (define (lam:body x) (cadddr x)) (define (lam:sp x) (cadddr (lam:vinfo x))) (define (bad-formal-argument v) (error (string #\" (deparse v) #\" " is not a valid function argument name"))) (define (valid-name? s) (not (memq s '(ccall cglobal)))) (define (arg-name v) (cond ((and (symbol? v) (valid-name? v)) v) ((not (pair? v)) (bad-formal-argument v)) (else (case (car v) ((...) (arg-name (cadr v)) ;; to check for errors (decl-var (cadr v))) ((|::|) (if (not (symbol? (cadr v))) (bad-formal-argument (cadr v))) (decl-var v)) ((meta) ;; allow certain per-argument annotations (if (nospecialize-meta? v #t) (arg-name (caddr v)) (bad-formal-argument v))) ((kw) (arg-name (cadr v))) (else (bad-formal-argument v)))))) (define (arg-type v) (cond ((symbol? v) '(core Any)) ((not (pair? v)) (bad-formal-argument v)) (else (case (car v) ((...) (if (eq? (length v) 3) `(... ,(decl-type (cadr v)) ,(caddr v)) `(... ,(decl-type (cadr v))))) ((|::|) (if (not (symbol? (cadr v))) (bad-formal-argument (cadr v))) (decl-type v)) ((meta) ;; allow certain per-argument annotations (if (nospecialize-meta? v #t) (arg-type (caddr v)) (bad-formal-argument v))) ((kw) (arg-type (cadr v))) (else (bad-formal-argument v)))))) ;; convert a lambda list into a list of just symbols (define (llist-vars lst) (map arg-name (filter (lambda (a) (not (and (pair? a) (eq? (car a) 'parameters)))) lst))) ;; get just argument types (define (llist-types lst) (map arg-type lst)) (define (decl? e) (and (pair? e) (eq? (car e) '|::|))) (define (make-decl n t) `(|::| ,n ,t)) (define (ssavalue? e) (and (pair? e) (eq? (car e) 'ssavalue))) (define (slot? e) (and (pair? e) (eq? (car e) 'slot))) (define (globalref? e) (and (pair? e) (eq? (car e) 'globalref))) (define (outerref? e) (and (pair? e) (eq? (car e) 'outerref))) (define (nothing? e) (and (pair? e) (eq? (car e) 'null))) (define (symbol-like? e) (or (symbol? e) (ssavalue? e))) (define (simple-atom? x) (or (number? x) (string? x) (char? x) (and (pair? x) (memq (car x) '(ssavalue null true false thismodule))) (eq? (typeof x) 'julia_value))) ;; identify some expressions that are safe to repeat (define (effect-free? e) (or (not (pair? e)) (ssavalue? e) (sym-dot? e) (quoted? e) (memq (car e) '(null true false)))) ;; get the variable name part of a declaration, x::int => x (define (decl-var v) (if (decl? v) (cadr v) v)) (define (decl-type v) (if (decl? v) (caddr v) '(core Any))) (define (sym-dot? e) (and (length= e 3) (eq? (car e) '|.|) (symbol-like? (cadr e)))) (define (undot-name e) (if (and (pair? e) (eq? (car e) '|.|)) (cadr (caddr e)) e)) (define (identifier-name e) (cond ((symbol? e) e) ((globalref? e) (caddr e)) (else e))) (define (dotop-named? e) (dotop? (identifier-name e))) ;; convert '.xx to 'xx (define (undotop op) (if (globalref? op) `(globalref ,(cadr op) ,(undotop (caddr op))) (let ((str (string op))) (assert (eqv? (string.char str 0) #\.)) (symbol (string.sub str 1 (length str)))))) ;; raise an error for using .op as a function name (define (check-dotop e) (if (dotop-named? e) (error (string "invalid function name \"" (deparse e) "\"")) (if (pair? e) (if (and (eq? (car e) '|.|) (length= e 3)) (check-dotop (caddr e)) (if (quoted? e) (check-dotop (cadr e)))))) e) (define (vararg? x) (and (pair? x) (eq? (car x) '...))) (define (vararg-type-expr? x) (or (eq? x 'Vararg) (and (length> x 1) (or (and (eq? (car x) 'curly) (vararg-type-expr? (cadr x))) (and (eq? (car x) 'where) (vararg-type-expr? (cadr x))))))) (define (varargexpr? x) (and (pair? x) (eq? (car x) '::) (vararg-type-expr? (caddr x)))) (define (linenum? x) (and (pair? x) (eq? (car x) 'line))) (define (make-assignment l r) `(= ,l ,r)) (define (assignment? e) (and (pair? e) (eq? (car e) '=))) (define (return? e) (and (pair? e) (eq? (car e) 'return))) (define (complex-return? e) (and (return? e) (let ((x (cadr e))) (not (simple-atom? x))))) (define (tuple-call? e) (and (length> e 1) (eq? (car e) 'call) (equal? (cadr e) '(core tuple)))) (define (eq-sym? a b) (or (eq? a b) (and (ssavalue? a) (ssavalue? b) (eqv? (cdr a) (cdr b))))) (define (blockify e) (if (and (pair? e) (eq? (car e) 'block)) (if (null? (cdr e)) `(block (null)) e) `(block ,e))) (define (make-var-info name) (list name '(core Any) 0)) (define vinfo:name car) (define vinfo:type cadr) (define (vinfo:set-type! v t) (set-car! (cdr v) t)) (define (vinfo:capt v) (< 0 (logand (caddr v) 1))) (define (vinfo:asgn v) (< 0 (logand (caddr v) 2))) (define (vinfo:never-undef v) (< 0 (logand (caddr v) 4))) (define (vinfo:read v) (< 0 (logand (caddr v) 8))) (define (vinfo:sa v) (< 0 (logand (caddr v) 16))) (define (set-bit x b val) (if val (logior x b) (logand x (lognot b)))) ;; record whether var is captured (define (vinfo:set-capt! v c) (set-car! (cddr v) (set-bit (caddr v) 1 c))) ;; whether var is assigned (define (vinfo:set-asgn! v a) (set-car! (cddr v) (set-bit (caddr v) 2 a))) ;; whether the assignments to var are known to dominate its usages (define (vinfo:set-never-undef! v a) (set-car! (cddr v) (set-bit (caddr v) 4 a))) ;; whether var is ever read (define (vinfo:set-read! v a) (set-car! (cddr v) (set-bit (caddr v) 8 a))) ;; whether var is assigned once (define (vinfo:set-sa! v a) (set-car! (cddr v) (set-bit (caddr v) 16 a))) ;; occurs undef: mask 32 ;; whether var is called (occurs in function call head position) (define (vinfo:set-called! v a) (set-car! (cddr v) (set-bit (caddr v) 64 a))) (define var-info-for assq) (define (assignment-like? e) (and (pair? e) (is-prec-assignment? (car e)))) (define (kwarg? e) (and (pair? e) (eq? (car e) 'kw))) (define (nospecialize-meta? e (one #f)) (and (if one (length= e 3) (length> e 2)) (eq? (car e) 'meta) (memq (cadr e) '(nospecialize specialize)))) (define (if-generated? e) (and (length= e 4) (eq? (car e) 'if) (equal? (cadr e) '(generated)))) (define (generated-meta? e) (and (length= e 3) (eq? (car e) 'meta) (eq? (cadr e) 'generated))) (define (generated_only-meta? e) (and (length= e 2) (eq? (car e) 'meta) (eq? (cadr e) 'generated_only))) (define (function-def? e) (and (pair? e) (or (eq? (car e) 'function) (eq? (car e) '->) (and (eq? (car e) '=) (length= e 3) (eventually-call? (cadr e)))))) ;; flatten nested expressions with the given head ;; (op (op a b) c) => (op a b c) (define (flatten-ex head e) (if (atom? e) e (cons (car e) (apply append! (map (lambda (x) (if (and (pair? x) (eq? (car x) head)) (cdr (flatten-ex head x)) (list x))) (cdr e)))))) (define (flatten-blocks e) (flatten-ex 'block e))