output bus experiment

pull/2/head
Matthew Butterick 9 years ago
parent 7617fbb94d
commit 76d1e0ef69

@ -19,8 +19,8 @@ CHIP DMux4Way {
OUT a, b, c, d;
PARTS:
DMux(in=in, sel[0]=sel, a=a, b=b);
DMux(in=in, sel[1]=sel, a=c, b=d);
DMux(in=in, sel=sel[0], a=a, b=b);
DMux(in=in, sel=sel[1], a=c, b=d);
/*
// the right answer: note that subscripting on right always means "read this bit";
// subscripting on left means "write this bit"

@ -1,10 +1,7 @@
#lang br
(require "helper.rkt" (for-syntax racket/base racket/syntax "helper.rkt" racket/list racket/require-transform))
(provide #%top-interaction (rename-out [mb #%module-begin]) #%app #%datum and or (all-defined-out))
(provide #%top-interaction #%module-begin #%app #%datum and or (all-defined-out))
(define #'(mb _arg ...)
#'(#%module-begin
_arg ...))
(define #'(chip-program _chipname
(in-spec (_input-pin _input-width ...) ...)

@ -40,11 +40,18 @@
(bitwise-bit-field int i (add1 i)))))
(define max-bus-width 16)
(define default-bus-width 1)
(define (check-bit-against-width bus-name bit width)
(unless (< bit width)
(raise-argument-error bus-name (format "bit less than bus width ~a" width) bit)))
(define (check-val-against-width bus-name val width)
(when (and val (> val (sub1 (expt 2 width))))
(raise-argument-error bus-name
(format "~a-bit value (0 to ~a inclusive)" width (sub1 (expt 2 width))) val)))
(require sugar/debug)
(define (make-input-bus bus-name [width 1])
(impersonate-procedure
@ -53,10 +60,7 @@
[bus-val 0])
(unless (<= bus-width max-bus-width)
(raise-argument-error bus-name (format "bus width <= max width ~a" max-bus-width) bus-width))
(define (check-val-against-width val width)
(when (and val (> val (sub1 (expt 2 width))))
(raise-argument-error bus-name
(format "~a-bit value (0 to ~a inclusive)" width (sub1 (expt 2 width))) val)))
(define func
(case-lambda
[() bus-val]
@ -88,10 +92,21 @@
bus-name)
#f input-bus #t))
(define-syntax-rule (define-input-bus id arg ...)
(define id (make-input-bus 'id arg ...)))
(module+ test
(require (for-syntax racket/base racket/syntax))
(define-syntax (define-input-bus stx)
(syntax-case stx ()
[(macro-name id)
#'(macro-name id void default-bus-width)]
[(macro-name id width)
#'(macro-name id void width)]
[(macro-name id thunk width)
(with-syntax ([id-write (format-id #'id "~a-write" #'id)])
#'(begin
(define-output-bus id thunk width)
))]))
#;(module+ test
(define-input-bus in-bus)
(define other (λ () (+ 2 2)))
(check-true (input-bus? in-bus))
@ -99,83 +114,124 @@
(define-input-bus ib 4)
(check-exn exn:fail? (λ () (define-input-bus ib 17) ib)) ; exceeds 16-bit width
(check-equal? (ib) 0)
(ib 11) ; set whole value
(check-exn exn:fail? (λ () (ib #b11111))) ; overflow
(ib 2 1) ; set bit
(check-equal? (ib-read) 0)
(ib-write 11) ; set whole value
(check-exn exn:fail? (λ () (ib-write #b11111))) ; overflow
(ib-write 2 1) ; set bit
(check-equal? (ib) #b1111)
(ib 0 #b0) ; set bit
(ib 1 #b0) ; set bit
(ib 2 #b0) ; set bit
(check-equal? (ib) #b1000)
(check-exn exn:fail? (λ () (ib 5 1 #b0))) ; last index smaller than first
(check-exn exn:fail? (λ () (ib 1 300 #b0))) ; overlarge bit index
(check-exn exn:fail? (λ () (ib 300 500 #b0))) ; overlarge bit index
(check-exn exn:fail? (λ () (ib 1 #b11111))) ; overflow value
(ib 0)
(ib 1 2 #b11)
(check-equal? (ib) #b0110)
(ib 3 3 #b1)
(ib 0 0 #b1)
(check-equal? (ib) #b1111)
(check-exn exn:fail? (λ () (ib 0 300 #b0))) ; overlarge bit index
(check-exn exn:fail? (λ () (ib 1 1 #b11111))) ; overflow value
(ib 0)
(ib 1 2 #t) ; using #t to fill certain bits
(check-equal? (ib) #b0110)
(ib 2 2 #f) ; using #f to fill certain bits
(check-equal? (ib) #b0010)
(ib 0)
(ib #t) ; using #t to fill all bits
(check-equal? (ib) #b1111)
(ib #f) ; using #f to fill all bits
(check-equal? (ib) #b0000)
(ib-write 0 #b0) ; set bit
(ib-write 1 #b0) ; set bit
(ib-write 2 #b0) ; set bit
(check-equal? (ib-read) #b1000)
(check-exn exn:fail? (λ () (ib-write 5 1 #b0))) ; last index smaller than first
(check-exn exn:fail? (λ () (ib-write 1 300 #b0))) ; overlarge bit index
(check-exn exn:fail? (λ () (ib-write 300 500 #b0))) ; overlarge bit index
(check-exn exn:fail? (λ () (ib-write 1 #b11111))) ; overflow value
(ib-write 0)
(ib-write 1 2 #b11)
(check-equal? (ib-read) #b0110)
(ib-write 3 3 #b1)
(ib-write 0 0 #b1)
(check-equal? (ib-read) #b1111)
(check-exn exn:fail? (λ () (ib-write 0 300 #b0))) ; overlarge bit index
(check-exn exn:fail? (λ () (ib-write 1 1 #b11111))) ; overflow value
(ib-write 0)
(ib-write 1 2 #t) ; using #t to fill certain bits
(check-equal? (ib-read) #b0110)
(ib-write 2 2 #f) ; using #f to fill certain bits
(check-equal? (ib-read) #b0010)
(ib-write 0)
(ib-write #t) ; using #t to fill all bits
(check-equal? (ib-read) #b1111)
(ib-write #f) ; using #f to fill all bits
(check-equal? (ib-read) #b0000)
(define-input-bus ib2 4)
(check-exn exn:fail? (λ () (ib2 16))) ; overflow value
(ib2 #b1100)
(ib ib2) ; using bus as input value
(check-equal? (ib) (ib2))
(check-exn exn:fail? (λ () (ib2-write 16))) ; overflow value
(ib2-write #b1100)
(ib-write (ib2-read)) ; using bus as input value
(check-equal? (ib-read) (ib2))
)
(define-values (output-bus output-bus? output-bus-get)
(make-impersonator-property 'output-bus))
(define (make-output-bus bus-name thunk [width 1])
(impersonate-procedure
(procedure-rename
(let ([bus-width width])
(define (make-read-bus bus-name thunk bus-width)
(unless (<= bus-width max-bus-width)
(raise-argument-error bus-name (format "bus width <= max width ~a" max-bus-width) bus-width))
(define func
(impersonate-procedure (procedure-rename thunk bus-name) #f output-bus #t))
(define (make-bus-reader reader-name id-val thunk width)
(define bus-reader-func
(case-lambda
[() (func 0 (sub1 bus-width))]
[(bit) (func bit bit)]
[() (bus-reader-func 0 (sub1 width))]
[(bit) (bus-reader-func bit bit)]
[(first-bit last-bit)
(unless (<= first-bit last-bit)
(raise-argument-error bus-name (format "last bit greater than or equal to first bit ~a" first-bit) last-bit))
(check-bit-against-width bus-name first-bit bus-width)
(check-bit-against-width bus-name last-bit bus-width)
(bitwise-bit-field (thunk) first-bit (add1 last-bit))]))
func)
bus-name)
#f output-bus #t))
(raise-argument-error reader-name (format "last bit greater than or equal to first bit ~a" first-bit) last-bit))
(check-bit-against-width reader-name first-bit width)
(check-bit-against-width reader-name last-bit width)
(set! id-val (thunk))
(bitwise-bit-field id-val first-bit (add1 last-bit))]))
bus-reader-func)
(define (make-bus-writer writer-name id width)
(define bus-writer-func
(case-lambda
[() (raise-argument-error writer-name "new value" empty)]
[(new-val-in)
(define new-val (cond
[(boolean? new-val-in)
(if new-val-in (sub1 (expt 2 width)) 0)]
[(or (input-bus? new-val-in) (output-bus? new-val-in)) (new-val-in)]
[else new-val-in]))
(check-val-against-width 'id new-val width)
(set! id new-val)]
[(bit new-val) (bus-writer-func bit bit new-val)]
[(first-bit last-bit new-val-in)
(define bit-range-width (add1 (- last-bit first-bit)))
(define new-val (cond
[(boolean? new-val-in)
(if new-val-in (sub1 (expt 2 bit-range-width)) 0)]
[(or (input-bus? new-val-in) (output-bus? new-val-in)) (new-val-in)]
[else new-val-in]))
(unless (<= first-bit last-bit)
(raise-argument-error writer-name (format "last bit greater than or equal to first bit ~a" first-bit) last-bit))
(check-bit-against-width writer-name first-bit width)
(check-bit-against-width writer-name last-bit width)
(check-val-against-width new-val bit-range-width)
(for ([bit (in-range first-bit (add1 last-bit))]
[new-bit-val (in-list (integer->bitvals new-val bit-range-width))])
(set! id ((if (= 1 new-bit-val) bitwise-bit-set bitwise-bit-unset) id bit)))]))
bus-writer-func)
(define-syntax (define-output-bus stx)
(syntax-case stx ()
[(macro-name id thunk)
#'(macro-name id thunk default-bus-width)]
[(macro-name id thunk width)
(with-syntax ([id-val (format-id #'id "~a-val" #'id)]
[id-read (format-id #'id "~a-read" #'id)]
[id-write (format-id #'id "~a-write" #'id)])
#'(begin
(define id-val 0)
(define id-read (make-bus-reader 'id-read id-val thunk width))
(define id (make-read-bus 'id id-read width))
(define id-write (make-bus-writer 'id-write id width))))]))
(define-syntax-rule (define-output-bus id thunk arg ...)
(define id (make-output-bus 'id thunk arg ...)))
(module+ test
(define-output-bus ob (λ () #b0110) 4)
(check-exn exn:fail? (λ () (define-input-bus ob (λ () #b0110) 17) ob)) ; exceeds 16-bit width
(check-equal? (ob) #b0110)
(check-equal? (ob 0) #b0)
(check-equal? (ob 1) #b1)
(check-equal? (ob 2) #b1)
(check-equal? (ob 3) #b0)
(check-exn exn:fail? (λ () (ob 5))) ; exceeds bus width
(check-equal? (ob 0 1) #b10)
(check-equal? (ob 1 2) #b11)
(check-equal? (ob 2 3) #b01)
(check-exn exn:fail? (λ () (ob 3 2))) ; inverted bus spec
(check-exn exn:fail? (λ () (ob 5 10))) ; exceeds bus width
(check-exn exn:fail? (λ () (define-output-bus ob (λ () #b0110) 17) ob)) ; exceeds 16-bit width
(check-equal? (ob-read) #b0110)
(check-equal? (ob-read 0) #b0)
(check-equal? (ob-read 1) #b1)
(check-equal? (ob-read 2) #b1)
(check-equal? (ob-read 3) #b0)
(check-exn exn:fail? (λ () (ob-read 5))) ; exceeds bus width
(check-equal? (ob-read 0 1) #b10)
(check-equal? (ob-read 1 2) #b11)
(check-equal? (ob-read 2 3) #b01)
(check-exn exn:fail? (λ () (ob-read 3 2))) ; inverted bus spec
(check-exn exn:fail? (λ () (ob-read 5 10))) ; exceeds bus width
)

@ -18,11 +18,15 @@ part : partname /"(" pin-val-pair [/"," pin-val-pair]* /")" /";"
@partname : ID
/pin-val-pair : ID [/"[" bus-range /"]"] /"=" pin-val
/pin-val-pair : pin-range /"=" pin-val
@bus-range : NUMBER [/"." /"." NUMBER]
@bus-range : number [/"." /"." number]
@pin-val : ID [/"[" bus-range /"]"]
@pin-range : ID [/"[" bus-range /"]"]
@pin-val : pin-range
| BINARY-NUMBER
| TRUE
| FALSE
@number : BINARY-NUMBER | NUMBER
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