;;; print-exps.scm -- print expression AST structures ;;; ;;; author : Sandra Loosemore ;;; date : 10 Jan 1992 ;;; ;;; This file corresponds to ast/exp-structs.scm. ;;; (define-ast-printer lambda (object xp) (with-ast-block (xp) (write-string "\\ " xp) (write-delimited-list (lambda-pats object) xp (function write-apat) "" "" "") (write-string " ->" xp) (write-whitespace xp) (write (lambda-body object) xp))) (define-ast-printer let (object xp) (write-lets-body "let " (let-decls object) (let-body object) xp)) (define (write-lets-body let-name decls body xp) (pprint-logical-block (xp '() "" "") ; no extra indentation (write-string let-name xp) (write-layout-rule (remove-recursive-grouping decls) xp (function write)) (write-whitespace xp) (write-string "in " xp) (write body xp))) (define-ast-printer if (object xp) (with-ast-block (xp) (write-string "if " xp) (write (if-test-exp object) xp) (write-whitespace xp) (with-ast-block (xp) (write-string "then" xp) (write-whitespace xp) (write (if-then-exp object) xp)) (write-whitespace xp) (with-ast-block (xp) (write-string "else" xp) (write-whitespace xp) (write (if-else-exp object) xp)))) (define-ast-printer case (object xp) (with-ast-block (xp) (write-string "case " xp) (write (case-exp object) xp) (write-string " of" xp) (write-whitespace xp) (write-layout-rule (case-alts object) xp (function write)))) (define-ast-printer alt (object xp) (with-ast-block (xp) (write (alt-pat object) xp) (dolist (r (alt-rhs-list object)) (write-whitespace xp) (unless (is-type? 'omitted-guard (guarded-rhs-guard r)) (write-string "| " xp) (write (guarded-rhs-guard r) xp)) (write-string " -> " xp) (write (guarded-rhs-rhs r) xp)) (write-wheredecls (alt-where-decls object) xp))) (define-ast-printer exp-sign (object xp) (with-ast-block (xp) (write (exp-sign-exp object) xp) (write-string " ::" xp) (write-whitespace xp) (write (exp-sign-signature object) xp))) ;;; Have to look for application of special-case constructors before ;;; doing the normal prefix/infix cases. (define-ast-printer app (object xp) (let* ((fn (app-fn object)) (arg (app-arg object))) (multiple-value-bind (con args) (extract-constructor fn (list arg)) (cond ;; ((eq? con (core-symbol "UnitConstructor")) ;; *** Does this ever happen? ;; (write-string "()" xp)) ((and con (is-tuple-constructor? con)) (write-commaized-list args xp)) (else (multiple-value-bind (fixity op arg1) (extract-infix-operator fn) (if fixity (write-infix-application fixity op arg1 arg xp) (write-prefix-application fn arg xp)))) )))) (define (write-infix-application fixity op arg1 arg2 xp) (let ((precedence (fixity-precedence fixity)) (associativity (fixity-associativity fixity))) (with-ast-block (xp) (write-exp-with-precedence arg1 (1+ precedence) (if (eq? associativity 'l) 'l '#f) xp) (write-whitespace xp) (write op xp) (write-whitespace xp) (write-exp-with-precedence arg2 (1+ precedence) (if (eq? associativity 'r) 'r '#f) xp)))) (define (write-prefix-application fn arg xp) (with-ast-block (xp) (write-exp-with-precedence fn 10 '#f xp) (write-whitespace xp) (write-aexp arg xp))) ;;; Write an expression with at least the given precedence. If the ;;; actual precedence is lower, put parens around it. (define *print-exp-parens* '#f) (define (write-exp-with-precedence exp precedence associativity xp) (if *print-exp-parens* (write-aexp exp xp) (if (< (precedence-of-exp exp associativity) precedence) (begin (write-char #\( xp) (write exp xp) (write-char #\) xp)) (write exp xp)))) ;;; Similar to the above: write an aexp. (define *print-original-code* '#t) (define (write-aexp object xp) (if (is-type? 'save-old-exp object) (write-aexp (if *print-original-code* (save-old-exp-old-exp object) (save-old-exp-new-exp object)) xp) (if (or (is-type? 'aexp object) (pp-exp-list-section? object) (is-type? 'negate object)) (write object xp) (begin (write-char #\( xp) (write object xp) (write-char #\) xp))))) ;;; The infix? slot on var-ref and con-ref structs refers to whether ;;; the thing appears as an infix operator or not, not whether the name ;;; has operator or identifier syntax. (define-ast-printer var-ref (object xp) (let ((name (var-ref-name object))) (if (var-ref-infix? object) (write-varop name xp) (write-varid name xp)))) (define-ast-printer con-ref (object xp) (if (eq? (con-ref-con object) (core-symbol "UnitConstructor")) (write-string "()" xp) (let ((name (con-ref-name object))) (if (con-ref-infix? object) (write-conop name xp) (write-conid name xp))))) (define-ast-printer integer-const (object xp) (write (integer-const-value object) xp)) (define-ast-printer float-const (object xp) (let* ((numerator (float-const-numerator object)) (denominator (float-const-denominator object)) (exponent (float-const-exponent object)) (whole (quotient numerator denominator)) (fraction (remainder numerator denominator))) (write whole xp) (write-char #\. xp) (write-precision-integer fraction denominator xp) (unless (zero? exponent) (write-char #\E xp) (write exponent xp)))) (define (write-precision-integer fraction denominator xp) (cond ((eqv? denominator 1) ; no fraction ) ((eqv? denominator 10) (write-digit fraction xp)) (else (write-digit (quotient fraction 10) xp) (write-precision-integer (remainder fraction 10) (quotient denominator 10) xp)) )) (define (write-digit n xp) (write-char (string-ref "0123456789" n) xp)) ;;; Character and string printers need to handle weird escapes. ;;; Fortunately we can just choose one canonical style for printing ;;; unprintable characters. (define-ast-printer char-const (object xp) (write-char #\' xp) (write-char-literal (char-const-value object) xp #\') (write-char #\' xp)) (define-ast-printer string-const (object xp) (write-char #\" xp) (let ((s (string-const-value object))) (dotimes (i (string-length s)) (write-char-literal (string-ref s i) xp #\"))) (write-char #\" xp)) (define (write-char-literal c xp special) (cond ((eqv? c special) (write-char #\\ xp) (write c xp)) ((eqv? c #\newline) (write-char #\\ xp) (write-char #\n xp)) (else (let ((code (char->integer c))) (if (and (>= code 32) (< code 128)) ;; printing ascii characters (write-char c xp) ;; "control" characters print in \ddd notation (begin (write-char #\\ xp) (write code xp))))) )) (define-ast-printer list-exp (object xp) (write-delimited-list (list-exp-exps object) xp (function write) "," "[" "]")) (define-ast-printer sequence (object xp) (with-ast-block (xp) (write-string "[" xp) (write (sequence-from object) xp) (write-string "..]" xp))) (define-ast-printer sequence-to (object xp) (with-ast-block (xp) (write-string "[" xp) (write (sequence-to-from object) xp) (write-string " .." xp) (write-whitespace xp) (write (sequence-to-to object) xp) (write-string "]" xp))) (define-ast-printer sequence-then (object xp) (with-ast-block (xp) (write-string "[" xp) (write (sequence-then-from object) xp) (write-string "," xp) (write-whitespace xp) (write (sequence-then-then object) xp) (write-string "..]" xp))) (define-ast-printer sequence-then-to (object xp) (with-ast-block (xp) (write-string "[" xp) (write (sequence-then-to-from object) xp) (write-string "," xp) (write-whitespace xp) (write (sequence-then-to-then object) xp) (write-string " .." xp) (write-whitespace xp) (write (sequence-then-to-to object) xp) (write-string "]" xp))) (define-ast-printer list-comp (object xp) (with-ast-block (xp) (write-string "[" xp) (write (list-comp-exp object) xp) (write-string " |" xp) (write-whitespace xp) (write-delimited-list (list-comp-quals object) xp (function write) "," "" "") (write-string "]" xp))) (define-ast-printer section-l (object xp) (let* ((exp (section-l-exp object)) (op (section-l-op object)) (fixity (operator-fixity op)) (precedence (fixity-precedence fixity))) (with-ast-block (xp) (write-string "(" xp) (write op xp) (write-whitespace xp) (write-exp-with-precedence exp (1+ precedence) '#f xp) (write-string ")" xp)))) (define-ast-printer section-r (object xp) (let* ((exp (section-r-exp object)) (op (section-r-op object)) (fixity (operator-fixity op)) (precedence (fixity-precedence fixity))) (with-ast-block (xp) (write-string "(" xp) (write-exp-with-precedence exp (1+ precedence) '#f xp) (write-whitespace xp) (write op xp) (write-string ")" xp)))) (define-ast-printer qual-generator (object xp) (with-ast-block (xp) (write (qual-generator-pat object) xp) (write-string " <-" xp) (write-whitespace xp) (write (qual-generator-exp object) xp))) (define-ast-printer qual-filter (object xp) (write (qual-filter-exp object) xp)) ;;; A pp-exp-list with an op as the first or last element is really ;;; a section. These always get parens and are treated like aexps. ;;; Other pp-exp-lists are treated as exps with precedence 0. ;;; Bleah... Seems like the parser ought to recognize this up front.... ;;; Yeah but I'm lazy ... (define-ast-printer pp-exp-list (object xp) (let ((section? (pp-exp-list-section? object))) (if section? (write-char #\( xp)) (write-delimited-list (pp-exp-list-exps object) xp (function write-aexp) "" "" "") (if section? (write-char #\) xp)))) (define-ast-printer negate (object xp) (declare (ignore object)) (write-string "-" xp)) (define-ast-printer def (object xp) (write-string (symbol->string (def-name object)) xp)) (define-ast-printer con (object xp) (write-string (remove-con-prefix (symbol->string (def-name object))) xp)) (define-ast-printer con-number (object xp) (with-ast-block (xp) (write-string "con-number/" xp) (write (con-number-type object) xp) (write-whitespace xp) (write-aexp (con-number-value object) xp))) (define-ast-printer sel (object xp) (with-ast-block (xp) (write-string "sel/" xp) (write (sel-constructor object) xp) (write-whitespace xp) (write (sel-slot object) xp) (write-whitespace xp) (write-aexp (sel-value object) xp))) (define-ast-printer is-constructor (object xp) (with-ast-block (xp) (write-string "is-constructor/" xp) (write (is-constructor-constructor object) xp) (write-whitespace xp) (write-aexp (is-constructor-value object) xp))) (define-ast-printer void (object xp) (declare (ignore object)) (write-string "Void" xp)) ;;; Special cfn constructs (define-ast-printer case-block (object xp) (with-ast-block (xp) (write-string "case-block " xp) (write (case-block-block-name object) xp) (write-whitespace xp) (write-layout-rule (case-block-exps object) xp (function write)))) (define-ast-printer return-from (object xp) (with-ast-block (xp) (write-string "return-from " xp) (write (return-from-block-name object) xp) (write-whitespace xp) (write (return-from-exp object) xp))) (define-ast-printer and-exp (object xp) (with-ast-block (xp) (write-string "and " xp) (write-layout-rule (and-exp-exps object) xp (function write)))) ;;; Expression types used by the type checker. (define-ast-printer dict-placeholder (object xp) (cond ((not (eq? (dict-placeholder-exp object) '#f)) (write (dict-placeholder-exp object) xp)) (else (write-string "%" xp) (write-string (symbol->string (def-name (dict-placeholder-class object))) xp)))) (define-ast-printer recursive-placeholder (object xp) (cond ((not (eq? (recursive-placeholder-exp object) '#f)) (write (recursive-placeholder-exp object) xp)) (else (write-varid (def-name (recursive-placeholder-var object)) xp)))) ;;; This should probably have a flag to allow the dictionary converted code ;;; to be printed during debugging. (define-ast-printer save-old-exp (object xp) (write (save-old-exp-old-exp object) xp))