Brings up the seq layer on the Chez runtime. host/chez/seq.ss adds one lazy-capable node (cseq) that models Clojure's list, cons, and lazy seq - all print as (...), all sequential-= to each other and to vectors. seq coerces any seqable (vector/map/set/string/list/seq/nil) to a cseq or nil; the empty seq is a distinct value printing () (rest of a 1-elem coll is () not nil, seq of empty is nil). Leaf ops: first/rest/next/seq/cons/list, reverse/last, map/filter/remove/reduce/into, range/take/drop/concat/apply, keys/vals, plus nth/peek/pop extended over seqs. map/filter/reduce apply their fn arg through jolt-invoke, so a procedure, keyword, or collection all work as the fn. Dynamic IFn dispatch: a keyword/vector/coll held in a local (let binding or fn param) and called as a fn now routes through the jolt-invoke fallback (procedure? -> apply; keyword/coll -> lookup). The emitter only routes a :local callee that isn't a known procedure - a named fn's self-recursion name stays a direct call, so the fib hot path is untouched. Closes the 3 ex-known IFn divergences. emit.janet: seq/pred ops added to native-ops with arity gates; value-position clojure.core refs resolve to the RT procedure (native-ops names one for each), with +/-/*// routed to flonum-coercing wrappers so higher-order arithmetic ((reduce + [])) keeps the all-double model. values.ss: cross-type sequential =/hash so a vector and a list of the same elements are jolt= and hash alike. rt.ss: printer learns seqs; top-level nil prints as the empty string (jolt -e str-style). Fixed latent bug: (conj nil ...) now builds a list, not a vector. Gates: emit-test 69/69 (fib/mandelbrot/collections/seq/IFn parity vs the jolt oracle, fib(30) ~24ms unchanged). Subset probe 433/436 -> 595/595 compiled, 0 divergences (was 3 known), 2060/2655 out of subset. Full run-tests green (125 files, conformance + suites included).
89 lines
4.4 KiB
Scheme
89 lines
4.4 KiB
Scheme
;; Jolt value model on Chez Scheme — Phase 0a (jolt-cf1q.1).
|
|
;;
|
|
;; The irreducible value layer the self-hosted RT rests on. Maps Clojure's value
|
|
;; types onto Chez natives where possible, and adds records only where Chez lacks
|
|
;; a distinct type (nil sentinel, keywords, ns-bearing symbols). Loaded into an
|
|
;; env that has already (import (chezscheme)); becomes a real library in Phase 1.
|
|
;;
|
|
;; Design notes:
|
|
;; - nil is a UNIQUE sentinel, distinct from #f and '() (the classic Lisp-on-Lisp
|
|
;; trap). jolt false -> Chez #f, jolt true -> #t.
|
|
;; - Chez's numeric tower IS Clojure's: long->exact integer, double->flonum,
|
|
;; ratio->exact rational, bigint->bignum. A windfall vs Janet (ratios/bignums
|
|
;; for free). Clojure `=` is exactness-aware: (= 1 1.0) is FALSE.
|
|
|
|
;; --- nil ---------------------------------------------------------------------
|
|
(define-record-type jolt-nil-t (fields) (nongenerative jolt-nil-v1))
|
|
(define jolt-nil (make-jolt-nil-t))
|
|
(define (jolt-nil? x) (jolt-nil-t? x))
|
|
|
|
;; --- truthiness: only nil and false are falsey -------------------------------
|
|
(define (jolt-truthy? x) (not (or (jolt-nil? x) (eq? x #f))))
|
|
|
|
;; --- keywords: interned so identity works; optional namespace ----------------
|
|
(define-record-type keyword-t (fields ns name khash) (nongenerative keyword-v1))
|
|
(define keyword-table (make-hashtable string-hash string=?))
|
|
;; NUL separator can't occur in a keyword ns/name, so the intern key is
|
|
;; unambiguous (a "/" separator would collide ns="a" name="b/c" with ns="a/b").
|
|
(define (keyword-intern-key ns name) (string-append (or ns "") "\x0;" name))
|
|
(define (keyword ns name)
|
|
(let ((k (keyword-intern-key ns name)))
|
|
(or (hashtable-ref keyword-table k #f)
|
|
(let ((kw (make-keyword-t ns name (equal-hash k))))
|
|
(hashtable-set! keyword-table k kw)
|
|
kw))))
|
|
(define (keyword? x) (keyword-t? x))
|
|
|
|
;; --- symbols: ns + name + meta; NOT interned (meta varies), = by ns/name ------
|
|
(define-record-type symbol-t (fields ns name meta) (nongenerative symbol-v1))
|
|
(define (jolt-symbol ns name) (make-symbol-t ns name jolt-nil))
|
|
(define (jolt-symbol/meta ns name meta) (make-symbol-t ns name meta))
|
|
(define (jolt-symbol? x) (symbol-t? x))
|
|
|
|
;; chars/strings: Chez natives (strings treated immutable).
|
|
|
|
;; --- jolt equality (Clojure =) — scalars; collections land in Phase 2 --------
|
|
(define (jolt=2 a b)
|
|
(cond
|
|
((and (jolt-nil? a) (jolt-nil? b)) #t)
|
|
((or (jolt-nil? a) (jolt-nil? b)) #f)
|
|
((and (number? a) (number? b)) ; exactness-aware
|
|
(and (eq? (exact? a) (exact? b)) (= a b)))
|
|
((and (keyword-t? a) (keyword-t? b)) (eq? a b)) ; interned
|
|
((and (symbol-t? a) (symbol-t? b))
|
|
(and (equal? (symbol-t-ns a) (symbol-t-ns b))
|
|
(string=? (symbol-t-name a) (symbol-t-name b))))
|
|
((and (char? a) (char? b)) (char=? a b))
|
|
((and (string? a) (string? b)) (string=? a b))
|
|
((and (boolean? a) (boolean? b)) (eq? a b))
|
|
;; sequential (vector / list / lazy seq) compare element-wise, cross-type:
|
|
;; (= [1 2 3] (list 1 2 3)) is true. Forward to seq.ss (loaded by rt.ss).
|
|
((and (jolt-sequential? a) (jolt-sequential? b)) (seq=? a b))
|
|
((or (jolt-sequential? a) (jolt-sequential? b)) #f)
|
|
;; other collections (map/set): forward to collections.ss.
|
|
((and (jolt-coll? a) (jolt-coll? b)) (jolt-coll=? a b))
|
|
(else (eq? a b))))
|
|
(define (jolt= a . rest)
|
|
(let loop ((a a) (rest rest))
|
|
(cond ((null? rest) #t)
|
|
((jolt=2 a (car rest)) (loop (car rest) (cdr rest)))
|
|
(else #f))))
|
|
|
|
;; --- jolt hash — consistent with jolt= (for the HAMT in 0c / Phase 2) ---------
|
|
(define (jolt-hash x)
|
|
(cond
|
|
((jolt-nil? x) 0)
|
|
((keyword-t? x) (keyword-t-khash x))
|
|
((symbol-t? x) (equal-hash (cons (symbol-t-ns x) (symbol-t-name x))))
|
|
;; distinguish inexact from exact (1 and 1.0 are not jolt=); guard non-finite
|
|
;; (inexact->exact would error on NaN/inf)
|
|
((number? x) (if (exact? x) (equal-hash x)
|
|
(if (and (flonum? x) (or (nan? x) (infinite? x)))
|
|
(equal-hash (cons 'inexact (number->string x)))
|
|
(equal-hash (cons 'inexact (inexact->exact x))))))
|
|
((string? x) (string-hash x))
|
|
((char? x) (char->integer x))
|
|
((boolean? x) (if x 1 2))
|
|
((jolt-sequential? x) (seq-hash x)) ; vector/list/seq hash alike (forward to seq.ss)
|
|
((jolt-coll? x) (jolt-coll-hash x)) ; map/set; forward to collections.ss
|
|
(else (equal-hash x))))
|