;;; open-coding primitive procedures
-;; Copyright (C) 2009, 2010, 2011, 2012, 2013 Free Software Foundation, Inc.
+;; Copyright (C) 2009, 2010, 2011, 2012, 2013, 2014 Free Software Foundation, Inc.
;;;; This library is free software; you can redistribute it and/or
;;;; modify it under the terms of the GNU Lesser General Public
#:export (resolve-primitives add-interesting-primitive!
expand-primitives
effect-free-primitive? effect+exception-free-primitive?
- constructor-primitive? accessor-primitive?
+ constructor-primitive?
singly-valued-primitive? equality-primitive?
bailout-primitive?
negate-primitive))
values
eq? eqv? equal?
memq memv
- = < > <= >= zero?
+ = < > <= >= zero? positive? negative?
+ * - / 1- 1+ quotient remainder modulo
ash logand logior logxor lognot
not
caaaar caaadr caadar caaddr cadaar cadadr caddar cadddr
cdaaar cdaadr cdadar cdaddr cddaar cddadr cdddar cddddr
- vector-length vector-ref vector-set!
- variable-ref variable-set!
+ length
+
+ make-vector vector-length vector-ref vector-set!
+ variable? variable-ref variable-set!
variable-bound?
+ current-module define!
+
fluid-ref fluid-set! with-fluid*
call-with-prompt
string-length string-ref string-set!
- struct-vtable make-struct struct-ref struct-set!
+ allocate-struct struct-vtable make-struct struct-ref struct-set!
bytevector-u8-ref bytevector-u8-set!
bytevector-s8-ref bytevector-s8-set!
(define *primitive-constructors*
;; Primitives that return a fresh object.
- '(acons cons cons* list vector make-struct make-struct/no-tail
+ '(acons cons cons* list vector make-vector
+ allocate-struct make-struct make-struct/no-tail
make-prompt-tag))
(define *primitive-accessors*
;; Primitives that are pure, but whose result depends on the mutable
;; memory pointed to by their operands.
+ ;;
+ ;; Note: if you add an accessor here, be sure to add a corresponding
+ ;; case in (language tree-il effects)!
'(vector-ref
car cdr
memq memv
(define *effect-free-primitives*
`(values
eq? eqv? equal?
- = < > <= >= zero?
+ = < > <= >= zero? positive? negative?
ash logand logior logxor lognot
+ * - / 1- 1+ quotient remainder modulo
not
- pair? null? list? symbol? vector? struct? string? number? char? nil
+ pair? null? nil? list?
+ symbol? variable? vector? struct? string? number? char?
complex? real? rational? inf? nan? integer? exact? inexact? even? odd?
char<? char<=? char>=? char>?
integer->char char->integer number->string string->number
struct-vtable
- string-length vector-length
+ length string-length vector-length
;; These all should get expanded out by expand-primitives.
caar cadr cdar cddr
caaar caadr cadar caddr cdaar cdadr cddar cdddr
'(values
eq? eqv? equal?
not
- pair? null? list? symbol? vector? struct? string? number? char?
+ pair? null? nil? list?
+ symbol? variable? vector? struct? string? number? char?
procedure? thunk?
acons cons cons* list vector))
(define (constructor-primitive? prim)
(memq prim *primitive-constructors*))
-(define (accessor-primitive? prim)
- (memq prim *primitive-accessors*))
(define (effect-free-primitive? prim)
(hashq-ref *effect-free-primitive-table* prim))
(define (effect+exception-free-primitive? prim)
(define local-definitions
(make-hash-table))
- (let collect-local-definitions ((x x))
- (record-case x
- ((<toplevel-define> name)
- (hashq-set! local-definitions name #t))
- ((<seq> head tail)
- (collect-local-definitions head)
- (collect-local-definitions tail))
- (else #f)))
+ ;; Assume that any definitions with primitive names in the root module
+ ;; have the same semantics as the primitives.
+ (unless (eq? mod the-root-module)
+ (let collect-local-definitions ((x x))
+ (record-case x
+ ((<toplevel-define> name)
+ (hashq-set! local-definitions name #t))
+ ((<seq> head tail)
+ (collect-local-definitions head)
+ (collect-local-definitions tail))
+ (else #f))))
(post-order
(lambda (x)
(define-primitive-expander zero? (x)
(= x 0))
+(define-primitive-expander positive? (x)
+ (> x 0))
+
+(define-primitive-expander negative? (x)
+ (< x 0))
+
;; FIXME: All the code that uses `const?' is redundant with `peval'.
(define-primitive-expander +
(define-primitive-expander f64vector-set! (vec i x)
(bytevector-ieee-double-native-set! vec (* i 8) x))
+(define (chained-comparison-expander prim-name)
+ (case-lambda
+ ((src) (make-const src #t))
+ ((src a) #f)
+ ((src a b) #f)
+ ((src a b . rest)
+ (let* ((b-sym (gensym "b"))
+ (b* (make-lexical-ref src 'b b-sym)))
+ (make-let src
+ '(b)
+ (list b-sym)
+ (list b)
+ (make-conditional src
+ (make-primcall src prim-name (list a b*))
+ (make-primcall src prim-name (cons b* rest))
+ (make-const src #f)))))))
+
+(for-each (lambda (prim-name)
+ (hashq-set! *primitive-expand-table* prim-name
+ (chained-comparison-expander prim-name)))
+ '(< > <= >= =))
+
;; Appropriate for use with either 'eqv?' or 'equal?'.
(define (maybe-simplify-to-eq prim)
(case-lambda