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guile/test-suite/tests/tree-il.test
Andy Wingo d0ecf8eb9e support calls and tail-calls with more than 255 formals 
* module/language/tree-il/compile-glil.scm (flatten-lambda-case):
  Support calls and tail-calls with more than 255 formals.

* test-suite/tests/tree-il.test ("many args"): Add a test.
2013-03-07 13:59:18 +01:00

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;;;; tree-il.test --- test suite for compiling tree-il -*- scheme -*-
;;;; Andy Wingo <wingo@pobox.com> --- May 2009
;;;;
;;;; Copyright (C) 2009, 2010, 2011, 2012, 2013 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
;;;; License as published by the Free Software Foundation; either
;;;; version 3 of the License, or (at your option) any later version.
;;;;
;;;; This library is distributed in the hope that it will be useful,
;;;; but WITHOUT ANY WARRANTY; without even the implied warranty of
;;;; MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
;;;; Lesser General Public License for more details.
;;;;
;;;; You should have received a copy of the GNU Lesser General Public
;;;; License along with this library; if not, write to the Free Software
;;;; Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
(define-module (test-suite tree-il)
#:use-module (test-suite lib)
#:use-module (system base compile)
#:use-module (system base pmatch)
#:use-module (system base message)
#:use-module (language tree-il)
#:use-module (language tree-il primitives)
#:use-module (language glil)
#:use-module (srfi srfi-13))
;; Of course, the GLIL that is emitted depends on the source info of the
;; input. Here we're not concerned about that, so we strip source
;; information from the incoming tree-il.
(define (strip-source x)
(post-order! (lambda (x) (set! (tree-il-src x) #f))
x))
(define-syntax assert-tree-il->glil
(syntax-rules (with-partial-evaluation without-partial-evaluation
with-options)
((_ with-partial-evaluation in pat test ...)
(assert-tree-il->glil with-options (#:partial-eval? #t)
in pat test ...))
((_ without-partial-evaluation in pat test ...)
(assert-tree-il->glil with-options (#:partial-eval? #f)
in pat test ...))
((_ with-options opts in pat test ...)
(let ((exp 'in))
(pass-if 'in
(let ((glil (unparse-glil
(compile (strip-source (parse-tree-il exp))
#:from 'tree-il #:to 'glil
#:opts 'opts))))
(pmatch glil
(pat (guard test ...) #t)
(else #f))))))
((_ in pat test ...)
(assert-tree-il->glil with-partial-evaluation
in pat test ...))))
(define-syntax-rule (pass-if-primitives-resolved in expected)
(pass-if (format #f "primitives-resolved in ~s" 'in)
(let* ((module (let ((m (make-module)))
(beautify-user-module! m)
m))
(orig (parse-tree-il 'in))
(resolved (expand-primitives! (resolve-primitives! orig module))))
(or (equal? (unparse-tree-il resolved) 'expected)
(begin
(format (current-error-port)
"primitive test failed: got ~s, expected ~s"
resolved 'expected)
#f)))))
(define-syntax pass-if-tree-il->scheme
(syntax-rules ()
((_ in pat)
(assert-scheme->tree-il->scheme in pat #t))
((_ in pat guard-exp)
(pass-if 'in
(pmatch (tree-il->scheme
(compile 'in #:from 'scheme #:to 'tree-il))
(pat (guard guard-exp) #t)
(_ #f))))))
(with-test-prefix "primitives"
(with-test-prefix "eqv?"
(pass-if-primitives-resolved
(apply (primitive eqv?) (const #f) (toplevel x))
(apply (primitive eq?) (const #f) (toplevel x)))
(pass-if-primitives-resolved
(apply (primitive eqv?) (const ()) (toplevel x))
(apply (primitive eq?) (const ()) (toplevel x)))
(pass-if-primitives-resolved
(apply (primitive eqv?) (const #t) (lexical x y))
(apply (primitive eq?) (const #t) (lexical x y)))
(pass-if-primitives-resolved
(apply (primitive eqv?) (const this-is-a-symbol) (toplevel x))
(apply (primitive eq?) (const this-is-a-symbol) (toplevel x)))
(pass-if-primitives-resolved
(apply (primitive eqv?) (const 42) (toplevel x))
(apply (primitive eq?) (const 42) (toplevel x)))
(pass-if-primitives-resolved
(apply (primitive eqv?) (const 42.0) (toplevel x))
(apply (primitive eqv?) (const 42.0) (toplevel x)))
(pass-if-primitives-resolved
(apply (primitive eqv?) (const #nil) (toplevel x))
(apply (primitive eq?) (const #nil) (toplevel x))))
(with-test-prefix "equal?"
(pass-if-primitives-resolved
(apply (primitive equal?) (const #f) (toplevel x))
(apply (primitive eq?) (const #f) (toplevel x)))
(pass-if-primitives-resolved
(apply (primitive equal?) (const ()) (toplevel x))
(apply (primitive eq?) (const ()) (toplevel x)))
(pass-if-primitives-resolved
(apply (primitive equal?) (const #t) (lexical x y))
(apply (primitive eq?) (const #t) (lexical x y)))
(pass-if-primitives-resolved
(apply (primitive equal?) (const this-is-a-symbol) (toplevel x))
(apply (primitive eq?) (const this-is-a-symbol) (toplevel x)))
(pass-if-primitives-resolved
(apply (primitive equal?) (const 42) (toplevel x))
(apply (primitive eq?) (const 42) (toplevel x)))
(pass-if-primitives-resolved
(apply (primitive equal?) (const 42.0) (toplevel x))
(apply (primitive equal?) (const 42.0) (toplevel x)))
(pass-if-primitives-resolved
(apply (primitive equal?) (const #nil) (toplevel x))
(apply (primitive eq?) (const #nil) (toplevel x)))))
(with-test-prefix "tree-il->scheme"
(pass-if-tree-il->scheme
(case-lambda ((a) a) ((b c) (list b c)))
(case-lambda ((,a) ,a1) ((,b ,c) (list ,b1 ,c1)))
(and (eq? a a1) (eq? b b1) (eq? c c1))))
(with-test-prefix "void"
(assert-tree-il->glil
(void)
(program () (std-prelude 0 0 #f) (label _) (void) (call return 1)))
(assert-tree-il->glil
(begin (void) (const 1))
(program () (std-prelude 0 0 #f) (label _) (const 1) (call return 1)))
(assert-tree-il->glil
(apply (primitive +) (void) (const 1))
(program () (std-prelude 0 0 #f) (label _) (void) (call add1 1) (call return 1))))
(with-test-prefix "application"
(assert-tree-il->glil
(apply (toplevel foo) (const 1))
(program () (std-prelude 0 0 #f) (label _) (toplevel ref foo) (const 1) (call tail-call 1)))
(assert-tree-il->glil
(begin (apply (toplevel foo) (const 1)) (void))
(program () (std-prelude 0 0 #f) (label _) (call new-frame 0) (toplevel ref foo) (const 1) (mv-call 1 ,l1)
(call drop 1) (branch br ,l2)
(label ,l3) (mv-bind 0 #f)
(label ,l4)
(void) (call return 1))
(and (eq? l1 l3) (eq? l2 l4)))
(assert-tree-il->glil
(apply (toplevel foo) (apply (toplevel bar)))
(program () (std-prelude 0 0 #f) (label _) (toplevel ref foo) (call new-frame 0) (toplevel ref bar) (call call 0)
(call tail-call 1))))
(with-test-prefix "conditional"
(assert-tree-il->glil
(if (toplevel foo) (const 1) (const 2))
(program () (std-prelude 0 0 #f) (label _) (toplevel ref foo) (branch br-if-not ,l1)
(const 1) (call return 1)
(label ,l2) (const 2) (call return 1))
(eq? l1 l2))
(assert-tree-il->glil without-partial-evaluation
(begin (if (toplevel foo) (const 1) (const 2)) (const #f))
(program () (std-prelude 0 0 #f) (label _) (toplevel ref foo) (branch br-if-not ,l1) (branch br ,l2)
(label ,l3) (label ,l4) (const #f) (call return 1))
(eq? l1 l3) (eq? l2 l4))
(assert-tree-il->glil
(apply (primitive null?) (if (toplevel foo) (const 1) (const 2)))
(program () (std-prelude 0 0 #f) (label _) (toplevel ref foo) (branch br-if-not ,l1)
(const 1) (branch br ,l2)
(label ,l3) (const 2) (label ,l4)
(call null? 1) (call return 1))
(eq? l1 l3) (eq? l2 l4)))
(with-test-prefix "primitive-ref"
(assert-tree-il->glil
(primitive +)
(program () (std-prelude 0 0 #f) (label _) (toplevel ref +) (call return 1)))
(assert-tree-il->glil
(begin (primitive +) (const #f))
(program () (std-prelude 0 0 #f) (label _) (const #f) (call return 1)))
(assert-tree-il->glil
(apply (primitive null?) (primitive +))
(program () (std-prelude 0 0 #f) (label _) (toplevel ref +) (call null? 1)
(call return 1))))
(with-test-prefix "lexical refs"
(assert-tree-il->glil without-partial-evaluation
(let (x) (y) ((const 1)) (lexical x y))
(program () (std-prelude 0 1 #f) (label _)
(const 1) (bind (x #f 0)) (lexical #t #f set 0)
(lexical #t #f ref 0) (call return 1)
(unbind)))
(assert-tree-il->glil with-options (#:partial-eval? #f #:cse? #f)
(let (x) (y) ((const 1)) (begin (lexical x y) (const #f)))
(program () (std-prelude 0 1 #f) (label _)
(const 1) (bind (x #f 0)) (lexical #t #f set 0)
(const #f) (call return 1)
(unbind)))
(assert-tree-il->glil without-partial-evaluation
(let (x) (y) ((const 1)) (apply (primitive null?) (lexical x y)))
(program () (std-prelude 0 1 #f) (label _)
(const 1) (bind (x #f 0)) (lexical #t #f set 0)
(lexical #t #f ref 0) (call null? 1) (call return 1)
(unbind))))
(with-test-prefix "lexical sets"
(assert-tree-il->glil
;; unreferenced sets may be optimized away -- make sure they are ref'd
(let (x) (y) ((const 1))
(set! (lexical x y) (apply (primitive 1+) (lexical x y))))
(program () (std-prelude 0 1 #f) (label _)
(const 1) (bind (x #t 0)) (lexical #t #t box 0)
(lexical #t #t ref 0) (call add1 1) (lexical #t #t set 0)
(void) (call return 1)
(unbind)))
(assert-tree-il->glil
(let (x) (y) ((const 1))
(begin (set! (lexical x y) (apply (primitive 1+) (lexical x y)))
(lexical x y)))
(program () (std-prelude 0 1 #f) (label _)
(const 1) (bind (x #t 0)) (lexical #t #t box 0)
(lexical #t #t ref 0) (call add1 1) (lexical #t #t set 0)
(lexical #t #t ref 0) (call return 1)
(unbind)))
(assert-tree-il->glil
(let (x) (y) ((const 1))
(apply (primitive null?)
(set! (lexical x y) (apply (primitive 1+) (lexical x y)))))
(program () (std-prelude 0 1 #f) (label _)
(const 1) (bind (x #t 0)) (lexical #t #t box 0)
(lexical #t #t ref 0) (call add1 1) (lexical #t #t set 0) (void)
(call null? 1) (call return 1)
(unbind))))
(with-test-prefix "module refs"
(assert-tree-il->glil
(@ (foo) bar)
(program () (std-prelude 0 0 #f) (label _)
(module public ref (foo) bar)
(call return 1)))
(assert-tree-il->glil
(begin (@ (foo) bar) (const #f))
(program () (std-prelude 0 0 #f) (label _)
(module public ref (foo) bar) (call drop 1)
(const #f) (call return 1)))
(assert-tree-il->glil
(apply (primitive null?) (@ (foo) bar))
(program () (std-prelude 0 0 #f) (label _)
(module public ref (foo) bar)
(call null? 1) (call return 1)))
(assert-tree-il->glil
(@@ (foo) bar)
(program () (std-prelude 0 0 #f) (label _)
(module private ref (foo) bar)
(call return 1)))
(assert-tree-il->glil
(begin (@@ (foo) bar) (const #f))
(program () (std-prelude 0 0 #f) (label _)
(module private ref (foo) bar) (call drop 1)
(const #f) (call return 1)))
(assert-tree-il->glil
(apply (primitive null?) (@@ (foo) bar))
(program () (std-prelude 0 0 #f) (label _)
(module private ref (foo) bar)
(call null? 1) (call return 1))))
(with-test-prefix "module sets"
(assert-tree-il->glil
(set! (@ (foo) bar) (const 2))
(program () (std-prelude 0 0 #f) (label _)
(const 2) (module public set (foo) bar)
(void) (call return 1)))
(assert-tree-il->glil
(begin (set! (@ (foo) bar) (const 2)) (const #f))
(program () (std-prelude 0 0 #f) (label _)
(const 2) (module public set (foo) bar)
(const #f) (call return 1)))
(assert-tree-il->glil
(apply (primitive null?) (set! (@ (foo) bar) (const 2)))
(program () (std-prelude 0 0 #f) (label _)
(const 2) (module public set (foo) bar)
(void) (call null? 1) (call return 1)))
(assert-tree-il->glil
(set! (@@ (foo) bar) (const 2))
(program () (std-prelude 0 0 #f) (label _)
(const 2) (module private set (foo) bar)
(void) (call return 1)))
(assert-tree-il->glil
(begin (set! (@@ (foo) bar) (const 2)) (const #f))
(program () (std-prelude 0 0 #f) (label _)
(const 2) (module private set (foo) bar)
(const #f) (call return 1)))
(assert-tree-il->glil
(apply (primitive null?) (set! (@@ (foo) bar) (const 2)))
(program () (std-prelude 0 0 #f) (label _)
(const 2) (module private set (foo) bar)
(void) (call null? 1) (call return 1))))
(with-test-prefix "toplevel refs"
(assert-tree-il->glil
(toplevel bar)
(program () (std-prelude 0 0 #f) (label _)
(toplevel ref bar)
(call return 1)))
(assert-tree-il->glil without-partial-evaluation
(begin (toplevel bar) (const #f))
(program () (std-prelude 0 0 #f) (label _)
(toplevel ref bar) (call drop 1)
(const #f) (call return 1)))
(assert-tree-il->glil
(apply (primitive null?) (toplevel bar))
(program () (std-prelude 0 0 #f) (label _)
(toplevel ref bar)
(call null? 1) (call return 1))))
(with-test-prefix "toplevel sets"
(assert-tree-il->glil
(set! (toplevel bar) (const 2))
(program () (std-prelude 0 0 #f) (label _)
(const 2) (toplevel set bar)
(void) (call return 1)))
(assert-tree-il->glil
(begin (set! (toplevel bar) (const 2)) (const #f))
(program () (std-prelude 0 0 #f) (label _)
(const 2) (toplevel set bar)
(const #f) (call return 1)))
(assert-tree-il->glil
(apply (primitive null?) (set! (toplevel bar) (const 2)))
(program () (std-prelude 0 0 #f) (label _)
(const 2) (toplevel set bar)
(void) (call null? 1) (call return 1))))
(with-test-prefix "toplevel defines"
(assert-tree-il->glil
(define bar (const 2))
(program () (std-prelude 0 0 #f) (label _)
(const 2) (toplevel define bar)
(void) (call return 1)))
(assert-tree-il->glil
(begin (define bar (const 2)) (const #f))
(program () (std-prelude 0 0 #f) (label _)
(const 2) (toplevel define bar)
(const #f) (call return 1)))
(assert-tree-il->glil
(apply (primitive null?) (define bar (const 2)))
(program () (std-prelude 0 0 #f) (label _)
(const 2) (toplevel define bar)
(void) (call null? 1) (call return 1))))
(with-test-prefix "constants"
(assert-tree-il->glil
(const 2)
(program () (std-prelude 0 0 #f) (label _)
(const 2) (call return 1)))
(assert-tree-il->glil
(begin (const 2) (const #f))
(program () (std-prelude 0 0 #f) (label _)
(const #f) (call return 1)))
(assert-tree-il->glil
;; This gets simplified by `peval'.
(apply (primitive null?) (const 2))
(program () (std-prelude 0 0 #f) (label _)
(const #f) (call return 1))))
(with-test-prefix "letrec"
;; simple bindings -> let
(assert-tree-il->glil without-partial-evaluation
(letrec (x y) (x1 y1) ((const 10) (const 20))
(apply (toplevel foo) (lexical x x1) (lexical y y1)))
(program () (std-prelude 0 2 #f) (label _)
(const 10) (const 20)
(bind (x #f 0) (y #f 1))
(lexical #t #f set 1) (lexical #t #f set 0)
(toplevel ref foo)
(lexical #t #f ref 0) (lexical #t #f ref 1)
(call tail-call 2)
(unbind)))
;; complex bindings -> box and set! within let
(assert-tree-il->glil without-partial-evaluation
(letrec (x y) (x1 y1) ((apply (toplevel foo)) (apply (toplevel bar)))
(apply (primitive +) (lexical x x1) (lexical y y1)))
(program () (std-prelude 0 4 #f) (label _)
(void) (void) ;; what are these?
(bind (x #t 0) (y #t 1))
(lexical #t #t box 1) (lexical #t #t box 0)
(call new-frame 0) (toplevel ref foo) (call call 0)
(call new-frame 0) (toplevel ref bar) (call call 0)
(bind (x #f 2) (y #f 3)) (lexical #t #f set 3) (lexical #t #f set 2)
(lexical #t #f ref 2) (lexical #t #t set 0)
(lexical #t #f ref 3) (lexical #t #t set 1)
(void) (lexical #t #f set 2) (void) (lexical #t #f set 3) ;; clear bindings
(unbind)
(lexical #t #t ref 0) (lexical #t #t ref 1)
(call add 2) (call return 1) (unbind)))
;; complex bindings in letrec* -> box and set! in order
(assert-tree-il->glil without-partial-evaluation
(letrec* (x y) (x1 y1) ((apply (toplevel foo)) (apply (toplevel bar)))
(apply (primitive +) (lexical x x1) (lexical y y1)))
(program () (std-prelude 0 2 #f) (label _)
(void) (void) ;; what are these?
(bind (x #t 0) (y #t 1))
(lexical #t #t box 1) (lexical #t #t box 0)
(call new-frame 0) (toplevel ref foo) (call call 0)
(lexical #t #t set 0)
(call new-frame 0) (toplevel ref bar) (call call 0)
(lexical #t #t set 1)
(lexical #t #t ref 0)
(lexical #t #t ref 1)
(call add 2) (call return 1) (unbind)))
;; simple bindings in letrec* -> equivalent to letrec
(assert-tree-il->glil without-partial-evaluation
(letrec* (x y) (xx yy) ((const 1) (const 2))
(lexical y yy))
(program () (std-prelude 0 1 #f) (label _)
(const 2)
(bind (y #f 0)) ;; X is removed, and Y is unboxed
(lexical #t #f set 0)
(lexical #t #f ref 0)
(call return 1) (unbind))))
(with-test-prefix "lambda"
(assert-tree-il->glil
(lambda ()
(lambda-case (((x) #f #f #f () (y)) (const 2)) #f))
(program () (std-prelude 0 0 #f) (label _)
(program () (std-prelude 1 1 #f)
(bind (x #f 0)) (label _)
(const 2) (call return 1) (unbind))
(call return 1)))
(assert-tree-il->glil
(lambda ()
(lambda-case (((x y) #f #f #f () (x1 y1))
(const 2))
#f))
(program () (std-prelude 0 0 #f) (label _)
(program () (std-prelude 2 2 #f)
(bind (x #f 0) (y #f 1)) (label _)
(const 2) (call return 1)
(unbind))
(call return 1)))
(assert-tree-il->glil
(lambda ()
(lambda-case ((() #f x #f () (y)) (const 2))
#f))
(program () (std-prelude 0 0 #f) (label _)
(program () (opt-prelude 0 0 0 1 #f)
(bind (x #f 0)) (label _)
(const 2) (call return 1)
(unbind))
(call return 1)))
(assert-tree-il->glil
(lambda ()
(lambda-case (((x) #f x1 #f () (y y1)) (const 2))
#f))
(program () (std-prelude 0 0 #f) (label _)
(program () (opt-prelude 1 0 1 2 #f)
(bind (x #f 0) (x1 #f 1)) (label _)
(const 2) (call return 1)
(unbind))
(call return 1)))
(assert-tree-il->glil
(lambda ()
(lambda-case (((x) #f x1 #f () (y y1)) (lexical x y))
#f))
(program () (std-prelude 0 0 #f) (label _)
(program () (opt-prelude 1 0 1 2 #f)
(bind (x #f 0) (x1 #f 1)) (label _)
(lexical #t #f ref 0) (call return 1)
(unbind))
(call return 1)))
(assert-tree-il->glil
(lambda ()
(lambda-case (((x) #f x1 #f () (y y1)) (lexical x1 y1))
#f))
(program () (std-prelude 0 0 #f) (label _)
(program () (opt-prelude 1 0 1 2 #f)
(bind (x #f 0) (x1 #f 1)) (label _)
(lexical #t #f ref 1) (call return 1)
(unbind))
(call return 1)))
(assert-tree-il->glil
(lambda ()
(lambda-case (((x) #f #f #f () (x1))
(lambda ()
(lambda-case (((y) #f #f #f () (y1))
(lexical x x1))
#f)))
#f))
(program () (std-prelude 0 0 #f) (label _)
(program () (std-prelude 1 1 #f)
(bind (x #f 0)) (label _)
(program () (std-prelude 1 1 #f)
(bind (y #f 0)) (label _)
(lexical #f #f ref 0) (call return 1)
(unbind))
(lexical #t #f ref 0)
(call make-closure 1)
(call return 1)
(unbind))
(call return 1))))
(with-test-prefix "sequence"
(assert-tree-il->glil
(begin (begin (const 2) (const #f)) (const #t))
(program () (std-prelude 0 0 #f) (label _)
(const #t) (call return 1)))
(assert-tree-il->glil
;; This gets simplified by `peval'.
(apply (primitive null?) (begin (const #f) (const 2)))
(program () (std-prelude 0 0 #f) (label _)
(const #f) (call return 1))))
(with-test-prefix "values"
(assert-tree-il->glil
(apply (primitive values)
(apply (primitive values) (const 1) (const 2)))
(program () (std-prelude 0 0 #f) (label _)
(const 1) (call return 1)))
(assert-tree-il->glil
(apply (primitive values)
(apply (primitive values) (const 1) (const 2))
(const 3))
(program () (std-prelude 0 0 #f) (label _)
(const 1) (const 3) (call return/values 2)))
(assert-tree-il->glil
(apply (primitive +)
(apply (primitive values) (const 1) (const 2)))
(program () (std-prelude 0 0 #f) (label _)
(const 1) (call return 1)))
;; Testing `(values foo)' in push context with RA.
(assert-tree-il->glil without-partial-evaluation
(apply (primitive cdr)
(letrec (lp) (#{lp ~V9KrhVD4PFEL6oCTrLg3A}#)
((lambda ((name . lp))
(lambda-case ((() #f #f #f () ())
(apply (toplevel values) (const (one two)))))))
(apply (lexical lp #{lp ~V9KrhVD4PFEL6oCTrLg3A}#))))
(program () (std-prelude 0 0 #f) (label _)
(branch br _) ;; entering the fix, jump to :2
;; :1 body of lp, jump to :3
(label _) (bind) (const (one two)) (branch br _) (unbind)
;; :2 initial call of lp, jump to :1
(label _) (bind) (branch br _) (label _) (unbind)
;; :3 the push continuation
(call cdr 1) (call return 1))))
;; FIXME: binding info for or-hacked locals might bork the disassembler,
;; and could be tightened in any case
(with-test-prefix "the or hack"
(assert-tree-il->glil without-partial-evaluation
(let (x) (y) ((const 1))
(if (lexical x y)
(lexical x y)
(let (a) (b) ((const 2))
(lexical a b))))
(program () (std-prelude 0 1 #f) (label _)
(const 1) (bind (x #f 0)) (lexical #t #f set 0)
(lexical #t #f ref 0) (branch br-if-not ,l1)
(lexical #t #f ref 0) (call return 1)
(label ,l2)
(const 2) (bind (a #f 0)) (lexical #t #f set 0)
(lexical #t #f ref 0) (call return 1)
(unbind)
(unbind))
(eq? l1 l2))
;; second bound var is unreferenced
(assert-tree-il->glil without-partial-evaluation
(let (x) (y) ((const 1))
(if (lexical x y)
(lexical x y)
(let (a) (b) ((const 2))
(lexical x y))))
(program () (std-prelude 0 1 #f) (label _)
(const 1) (bind (x #f 0)) (lexical #t #f set 0)
(lexical #t #f ref 0) (branch br-if-not ,l1)
(lexical #t #f ref 0) (call return 1)
(label ,l2)
(lexical #t #f ref 0) (call return 1)
(unbind))
(eq? l1 l2)))
(with-test-prefix "apply"
(assert-tree-il->glil
(apply (primitive @apply) (toplevel foo) (toplevel bar))
(program () (std-prelude 0 0 #f) (label _) (toplevel ref foo) (toplevel ref bar) (call tail-apply 2)))
(assert-tree-il->glil
(begin (apply (primitive @apply) (toplevel foo) (toplevel bar)) (void))
(program () (std-prelude 0 0 #f) (label _)
(call new-frame 0) (toplevel ref apply) (toplevel ref foo) (toplevel ref bar) (mv-call 2 ,l1)
(call drop 1) (branch br ,l2) (label ,l3) (mv-bind 0 #f)
(label ,l4)
(void) (call return 1))
(and (eq? l1 l3) (eq? l2 l4)))
(assert-tree-il->glil
(apply (toplevel foo) (apply (toplevel @apply) (toplevel bar) (toplevel baz)))
(program () (std-prelude 0 0 #f) (label _)
(toplevel ref foo)
(call new-frame 0) (toplevel ref bar) (toplevel ref baz) (call apply 2)
(call tail-call 1))))
(with-test-prefix "call/cc"
(assert-tree-il->glil
(apply (primitive @call-with-current-continuation) (toplevel foo))
(program () (std-prelude 0 0 #f) (label _) (toplevel ref foo) (call tail-call/cc 1)))
(assert-tree-il->glil
(begin (apply (primitive @call-with-current-continuation) (toplevel foo)) (void))
(program () (std-prelude 0 0 #f) (label _)
(call new-frame 0) (toplevel ref call-with-current-continuation) (toplevel ref foo) (mv-call 1 ,l1)
(call drop 1) (branch br ,l2) (label ,l3) (mv-bind 0 #f)
(label ,l4)
(void) (call return 1))
(and (eq? l1 l3) (eq? l2 l4)))
(assert-tree-il->glil
(apply (toplevel foo)
(apply (toplevel @call-with-current-continuation) (toplevel bar)))
(program () (std-prelude 0 0 #f) (label _)
(toplevel ref foo)
(toplevel ref bar) (call call/cc 1)
(call tail-call 1))))
(with-test-prefix "labels allocation"
(pass-if "http://debbugs.gnu.org/9769"
((compile '(lambda ()
(let ((fail (lambda () #f)))
(let ((test (lambda () (fail))))
(test))
#t))
;; Prevent inlining. We're testing analyze.scm's
;; labels allocator here, and inlining it will
;; reduce the entire thing to #t.
#:opts '(#:partial-eval? #f)))))
(define (sum . args)
(apply + args))
(with-test-prefix "many args"
(pass-if "call with > 256 args"
(equal? (compile `(1+ (sum ,@(iota 1000)))
#:env (current-module))
(1+ (apply sum (iota 1000)))))
(pass-if "tail call with > 256 args"
(equal? (compile `(sum ,@(iota 1000))
#:env (current-module))
(apply sum (iota 1000)))))
(with-test-prefix "tree-il-fold"
(pass-if "empty tree"
(let ((leaf? #f) (up? #f) (down? #f) (mark (list 'mark)))
(and (eq? mark
(tree-il-fold (lambda (x y) (set! leaf? #t) y)
(lambda (x y) (set! down? #t) y)
(lambda (x y) (set! up? #t) y)
mark
'()))
(not leaf?)
(not up?)
(not down?))))
(pass-if "lambda and application"
(let* ((leaves '()) (ups '()) (downs '())
(result (tree-il-fold (lambda (x y)
(set! leaves (cons x leaves))
(1+ y))
(lambda (x y)
(set! downs (cons x downs))
(1+ y))
(lambda (x y)
(set! ups (cons x ups))
(1+ y))
0
(parse-tree-il
'(lambda ()
(lambda-case
(((x y) #f #f #f () (x1 y1))
(apply (toplevel +)
(lexical x x1)
(lexical y y1)))
#f))))))
(and (equal? (map strip-source leaves)
(list (make-lexical-ref #f 'y 'y1)
(make-lexical-ref #f 'x 'x1)
(make-toplevel-ref #f '+)))
(= (length downs) 3)
(equal? (reverse (map strip-source ups))
(map strip-source downs))))))
;;;
;;; Warnings.
;;;
;; Make sure we get English messages.
(setlocale LC_ALL "C")
(define (call-with-warnings thunk)
(let ((port (open-output-string)))
(with-fluids ((*current-warning-port* port)
(*current-warning-prefix* ""))
(thunk))
(let ((warnings (get-output-string port)))
(string-tokenize warnings
(char-set-complement (char-set #\newline))))))
(define %opts-w-unused
'(#:warnings (unused-variable)))
(define %opts-w-unused-toplevel
'(#:warnings (unused-toplevel)))
(define %opts-w-unbound
'(#:warnings (unbound-variable)))
(define %opts-w-arity
'(#:warnings (arity-mismatch)))
(define %opts-w-format
'(#:warnings (format)))
(define %opts-w-duplicate-case-datum
'(#:warnings (duplicate-case-datum)))
(define %opts-w-bad-case-datum
'(#:warnings (bad-case-datum)))
(with-test-prefix "warnings"
(pass-if "unknown warning type"
(let ((w (call-with-warnings
(lambda ()
(compile #t #:opts '(#:warnings (does-not-exist)))))))
(and (= (length w) 1)
(number? (string-contains (car w) "unknown warning")))))
(with-test-prefix "unused-variable"
(pass-if "quiet"
(null? (call-with-warnings
(lambda ()
(compile '(lambda (x y) (+ x y))
#:opts %opts-w-unused)))))
(pass-if "let/unused"
(let ((w (call-with-warnings
(lambda ()
(compile '(lambda (x)
(let ((y (+ x 2)))
x))
#:opts %opts-w-unused)))))
(and (= (length w) 1)
(number? (string-contains (car w) "unused variable `y'")))))
(pass-if "shadowed variable"
(let ((w (call-with-warnings
(lambda ()
(compile '(lambda (x)
(let ((y x))
(let ((y (+ x 2)))
(+ x y))))
#:opts %opts-w-unused)))))
(and (= (length w) 1)
(number? (string-contains (car w) "unused variable `y'")))))
(pass-if "letrec"
(null? (call-with-warnings
(lambda ()
(compile '(lambda ()
(letrec ((x (lambda () (y)))
(y (lambda () (x))))
y))
#:opts %opts-w-unused)))))
(pass-if "unused argument"
;; Unused arguments should not be reported.
(null? (call-with-warnings
(lambda ()
(compile '(lambda (x y z) #t)
#:opts %opts-w-unused)))))
(pass-if "special variable names"
(null? (call-with-warnings
(lambda ()
(compile '(lambda ()
(let ((_ 'underscore)
(#{gensym name}# 'ignore-me))
#t))
#:to 'assembly
#:opts %opts-w-unused))))))
(with-test-prefix "unused-toplevel"
(pass-if "used after definition"
(null? (call-with-warnings
(lambda ()
(let ((in (open-input-string
"(define foo 2) foo")))
(read-and-compile in
#:to 'assembly
#:opts %opts-w-unused-toplevel))))))
(pass-if "used before definition"
(null? (call-with-warnings
(lambda ()
(let ((in (open-input-string
"(define (bar) foo) (define foo 2) (bar)")))
(read-and-compile in
#:to 'assembly
#:opts %opts-w-unused-toplevel))))))
(pass-if "unused but public"
(let ((in (open-input-string
"(define-module (test-suite tree-il x) #:export (bar))
(define (bar) #t)")))
(null? (call-with-warnings
(lambda ()
(read-and-compile in
#:to 'assembly
#:opts %opts-w-unused-toplevel))))))
(pass-if "unused but public (more)"
(let ((in (open-input-string
"(define-module (test-suite tree-il x) #:export (bar))
(define (bar) (baz))
(define (baz) (foo))
(define (foo) #t)")))
(null? (call-with-warnings
(lambda ()
(read-and-compile in
#:to 'assembly
#:opts %opts-w-unused-toplevel))))))
(pass-if "unused but define-public"
(null? (call-with-warnings
(lambda ()
(compile '(define-public foo 2)
#:to 'assembly
#:opts %opts-w-unused-toplevel)))))
(pass-if "used by macro"
;; FIXME: See comment about macros at `unused-toplevel-analysis'.
(throw 'unresolved)
(null? (call-with-warnings
(lambda ()
(let ((in (open-input-string
"(define (bar) 'foo)
(define-syntax baz
(syntax-rules () ((_) (bar))))")))
(read-and-compile in
#:to 'assembly
#:opts %opts-w-unused-toplevel))))))
(pass-if "unused"
(let ((w (call-with-warnings
(lambda ()
(compile '(define foo 2)
#:to 'assembly
#:opts %opts-w-unused-toplevel)))))
(and (= (length w) 1)
(number? (string-contains (car w)
(format #f "top-level variable `~A'"
'foo))))))
(pass-if "unused recursive"
(let ((w (call-with-warnings
(lambda ()
(compile '(define (foo) (foo))
#:to 'assembly
#:opts %opts-w-unused-toplevel)))))
(and (= (length w) 1)
(number? (string-contains (car w)
(format #f "top-level variable `~A'"
'foo))))))
(pass-if "unused mutually recursive"
(let* ((in (open-input-string
"(define (foo) (bar)) (define (bar) (foo))"))
(w (call-with-warnings
(lambda ()
(read-and-compile in
#:to 'assembly
#:opts %opts-w-unused-toplevel)))))
(and (= (length w) 2)
(number? (string-contains (car w)
(format #f "top-level variable `~A'"
'foo)))
(number? (string-contains (cadr w)
(format #f "top-level variable `~A'"
'bar))))))
(pass-if "special variable names"
(null? (call-with-warnings
(lambda ()
(compile '(define #{gensym name}# 'ignore-me)
#:to 'assembly
#:opts %opts-w-unused-toplevel))))))
(with-test-prefix "unbound variable"
(pass-if "quiet"
(null? (call-with-warnings
(lambda ()
(compile '+ #:opts %opts-w-unbound)))))
(pass-if "ref"
(let* ((v (gensym))
(w (call-with-warnings
(lambda ()
(compile v
#:to 'assembly
#:opts %opts-w-unbound)))))
(and (= (length w) 1)
(number? (string-contains (car w)
(format #f "unbound variable `~A'"
v))))))
(pass-if "set!"
(let* ((v (gensym))
(w (call-with-warnings
(lambda ()
(compile `(set! ,v 7)
#:to 'assembly
#:opts %opts-w-unbound)))))
(and (= (length w) 1)
(number? (string-contains (car w)
(format #f "unbound variable `~A'"
v))))))
(pass-if "module-local top-level is visible"
(let ((m (make-module))
(v (gensym)))
(beautify-user-module! m)
(compile `(define ,v 123)
#:env m #:opts %opts-w-unbound)
(null? (call-with-warnings
(lambda ()
(compile v
#:env m
#:to 'assembly
#:opts %opts-w-unbound))))))
(pass-if "module-local top-level is visible after"
(let ((m (make-module))
(v (gensym)))
(beautify-user-module! m)
(null? (call-with-warnings
(lambda ()
(let ((in (open-input-string
"(define (f)
(set! chbouib 3))
(define chbouib 5)")))
(read-and-compile in
#:env m
#:opts %opts-w-unbound)))))))
(pass-if "optional arguments are visible"
(null? (call-with-warnings
(lambda ()
(compile '(lambda* (x #:optional y z) (list x y z))
#:opts %opts-w-unbound
#:to 'assembly)))))
(pass-if "keyword arguments are visible"
(null? (call-with-warnings
(lambda ()
(compile '(lambda* (x #:key y z) (list x y z))
#:opts %opts-w-unbound
#:to 'assembly)))))
(pass-if "GOOPS definitions are visible"
(let ((m (make-module))
(v (gensym)))
(beautify-user-module! m)
(module-use! m (resolve-interface '(oop goops)))
(null? (call-with-warnings
(lambda ()
(let ((in (open-input-string
"(define-class <foo> ()
(bar #:getter foo-bar))
(define z (foo-bar (make <foo>)))")))
(read-and-compile in
#:env m
#:opts %opts-w-unbound))))))))
(with-test-prefix "arity mismatch"
(pass-if "quiet"
(null? (call-with-warnings
(lambda ()
(compile '(cons 'a 'b) #:opts %opts-w-arity)))))
(pass-if "direct application"
(let ((w (call-with-warnings
(lambda ()
(compile '((lambda (x y) (or x y)) 1 2 3 4 5)
#:opts %opts-w-arity
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"wrong number of arguments to")))))
(pass-if "local"
(let ((w (call-with-warnings
(lambda ()
(compile '(let ((f (lambda (x y) (+ x y))))
(f 2))
#:opts %opts-w-arity
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"wrong number of arguments to")))))
(pass-if "global"
(let ((w (call-with-warnings
(lambda ()
(compile '(cons 1 2 3 4)
#:opts %opts-w-arity
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"wrong number of arguments to")))))
(pass-if "alias to global"
(let ((w (call-with-warnings
(lambda ()
(compile '(let ((f cons)) (f 1 2 3 4))
#:opts %opts-w-arity
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"wrong number of arguments to")))))
(pass-if "alias to lexical to global"
(let ((w (call-with-warnings
(lambda ()
(compile '(let ((f number?))
(let ((g f))
(f 1 2 3 4)))
#:opts %opts-w-arity
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"wrong number of arguments to")))))
(pass-if "alias to lexical"
(let ((w (call-with-warnings
(lambda ()
(compile '(let ((f (lambda (x y z) (+ x y z))))
(let ((g f))
(g 1)))
#:opts %opts-w-arity
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"wrong number of arguments to")))))
(pass-if "letrec"
(let ((w (call-with-warnings
(lambda ()
(compile '(letrec ((odd? (lambda (x) (even? (1- x))))
(even? (lambda (x)
(or (= 0 x)
(odd?)))))
(odd? 1))
#:opts %opts-w-arity
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"wrong number of arguments to")))))
(pass-if "case-lambda"
(null? (call-with-warnings
(lambda ()
(compile '(let ((f (case-lambda
((x) 1)
((x y) 2)
((x y z) 3))))
(list (f 1)
(f 1 2)
(f 1 2 3)))
#:opts %opts-w-arity
#:to 'assembly)))))
(pass-if "case-lambda with wrong number of arguments"
(let ((w (call-with-warnings
(lambda ()
(compile '(let ((f (case-lambda
((x) 1)
((x y) 2))))
(f 1 2 3))
#:opts %opts-w-arity
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"wrong number of arguments to")))))
(pass-if "case-lambda*"
(null? (call-with-warnings
(lambda ()
(compile '(let ((f (case-lambda*
((x #:optional y) 1)
((x #:key y) 2)
((x y #:key z) 3))))
(list (f 1)
(f 1 2)
(f #:y 2)
(f 1 2 #:z 3)))
#:opts %opts-w-arity
#:to 'assembly)))))
(pass-if "case-lambda* with wrong arguments"
(let ((w (call-with-warnings
(lambda ()
(compile '(let ((f (case-lambda*
((x #:optional y) 1)
((x #:key y) 2)
((x y #:key z) 3))))
(list (f)
(f 1 #:z 3)))
#:opts %opts-w-arity
#:to 'assembly)))))
(and (= (length w) 2)
(null? (filter (lambda (w)
(not
(number?
(string-contains
w "wrong number of arguments to"))))
w)))))
(pass-if "top-level applicable struct"
(null? (call-with-warnings
(lambda ()
(compile '(let ((p current-warning-port))
(p (+ (p) 1))
(p))
#:opts %opts-w-arity
#:to 'assembly)))))
(pass-if "top-level applicable struct with wrong arguments"
(let ((w (call-with-warnings
(lambda ()
(compile '(let ((p current-warning-port))
(p 1 2 3))
#:opts %opts-w-arity
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"wrong number of arguments to")))))
(pass-if "local toplevel-defines"
(let ((w (call-with-warnings
(lambda ()
(let ((in (open-input-string "
(define (g x) (f x))
(define (f) 1)")))
(read-and-compile in
#:opts %opts-w-arity
#:to 'assembly))))))
(and (= (length w) 1)
(number? (string-contains (car w)
"wrong number of arguments to")))))
(pass-if "global toplevel alias"
(let ((w (call-with-warnings
(lambda ()
(let ((in (open-input-string "
(define f cons)
(define (g) (f))")))
(read-and-compile in
#:opts %opts-w-arity
#:to 'assembly))))))
(and (= (length w) 1)
(number? (string-contains (car w)
"wrong number of arguments to")))))
(pass-if "local toplevel overrides global"
(null? (call-with-warnings
(lambda ()
(let ((in (open-input-string "
(define (cons) 0)
(define (foo x) (cons))")))
(read-and-compile in
#:opts %opts-w-arity
#:to 'assembly))))))
(pass-if "keyword not passed and quiet"
(null? (call-with-warnings
(lambda ()
(compile '(let ((f (lambda* (x #:key y) y)))
(f 2))
#:opts %opts-w-arity
#:to 'assembly)))))
(pass-if "keyword passed and quiet"
(null? (call-with-warnings
(lambda ()
(compile '(let ((f (lambda* (x #:key y) y)))
(f 2 #:y 3))
#:opts %opts-w-arity
#:to 'assembly)))))
(pass-if "keyword passed to global and quiet"
(null? (call-with-warnings
(lambda ()
(let ((in (open-input-string "
(use-modules (system base compile))
(compile '(+ 2 3) #:env (current-module))")))
(read-and-compile in
#:opts %opts-w-arity
#:to 'assembly))))))
(pass-if "extra keyword"
(let ((w (call-with-warnings
(lambda ()
(compile '(let ((f (lambda* (x #:key y) y)))
(f 2 #:Z 3))
#:opts %opts-w-arity
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"wrong number of arguments to")))))
(pass-if "extra keywords allowed"
(null? (call-with-warnings
(lambda ()
(compile '(let ((f (lambda* (x #:key y #:allow-other-keys)
y)))
(f 2 #:Z 3))
#:opts %opts-w-arity
#:to 'assembly))))))
(with-test-prefix "format"
(pass-if "quiet (no args)"
(null? (call-with-warnings
(lambda ()
(compile '(format #t "hey!")
#:opts %opts-w-format
#:to 'assembly)))))
(pass-if "quiet (1 arg)"
(null? (call-with-warnings
(lambda ()
(compile '(format #t "hey ~A!" "you")
#:opts %opts-w-format
#:to 'assembly)))))
(pass-if "quiet (2 args)"
(null? (call-with-warnings
(lambda ()
(compile '(format #t "~A ~A!" "hello" "world")
#:opts %opts-w-format
#:to 'assembly)))))
(pass-if "wrong port arg"
(let ((w (call-with-warnings
(lambda ()
(compile '(format 10 "foo")
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"wrong port argument")))))
(pass-if "non-literal format string"
(let ((w (call-with-warnings
(lambda ()
(compile '(format #f fmt)
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"non-literal format string")))))
(pass-if "non-literal format string using gettext"
(null? (call-with-warnings
(lambda ()
(compile '(format #t (gettext "~A ~A!") "hello" "world")
#:opts %opts-w-format
#:to 'assembly)))))
(pass-if "non-literal format string using gettext as _"
(null? (call-with-warnings
(lambda ()
(compile '(format #t (_ "~A ~A!") "hello" "world")
#:opts %opts-w-format
#:to 'assembly)))))
(pass-if "non-literal format string using gettext as top-level _"
(null? (call-with-warnings
(lambda ()
(compile '(begin
(define (_ s) (gettext s "my-domain"))
(format #t (_ "~A ~A!") "hello" "world"))
#:opts %opts-w-format
#:to 'assembly)))))
(pass-if "non-literal format string using gettext as module-ref _"
(null? (call-with-warnings
(lambda ()
(compile '(format #t ((@@ (foo) _) "~A ~A!") "hello" "world")
#:opts %opts-w-format
#:to 'assembly)))))
(pass-if "non-literal format string using gettext as lexical _"
(null? (call-with-warnings
(lambda ()
(compile '(let ((_ (lambda (s)
(gettext s "my-domain"))))
(format #t (_ "~A ~A!") "hello" "world"))
#:opts %opts-w-format
#:to 'assembly)))))
(pass-if "non-literal format string using ngettext"
(null? (call-with-warnings
(lambda ()
(compile '(format #t
(ngettext "~a thing" "~a things" n "dom") n)
#:opts %opts-w-format
#:to 'assembly)))))
(pass-if "non-literal format string using ngettext as N_"
(null? (call-with-warnings
(lambda ()
(compile '(format #t (N_ "~a thing" "~a things" n) n)
#:opts %opts-w-format
#:to 'assembly)))))
(pass-if "non-literal format string with (define _ gettext)"
(null? (call-with-warnings
(lambda ()
(compile '(begin
(define _ gettext)
(define (foo)
(format #t (_ "~A ~A!") "hello" "world")))
#:opts %opts-w-format
#:to 'assembly)))))
(pass-if "wrong format string"
(let ((w (call-with-warnings
(lambda ()
(compile '(format #f 'not-a-string)
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"wrong format string")))))
(pass-if "wrong number of args"
(let ((w (call-with-warnings
(lambda ()
(compile '(format "shbweeb")
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"wrong number of arguments")))))
(pass-if "~%, ~~, ~&, ~t, ~_, ~!, ~|, ~/, ~q and ~\\n"
(null? (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) some-port
"~&~3_~~ ~\n~12they~% ~!~|~/~q")
#:opts %opts-w-format
#:to 'assembly)))))
(pass-if "one missing argument"
(let ((w (call-with-warnings
(lambda ()
(compile '(format some-port "foo ~A~%")
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"expected 1, got 0")))))
(pass-if "one missing argument, gettext"
(let ((w (call-with-warnings
(lambda ()
(compile '(format some-port (gettext "foo ~A~%"))
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"expected 1, got 0")))))
(pass-if "two missing arguments"
(let ((w (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #f
"foo ~10,2f and bar ~S~%")
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"expected 2, got 0")))))
(pass-if "one given, one missing argument"
(let ((w (call-with-warnings
(lambda ()
(compile '(format #t "foo ~A and ~S~%" hey)
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"expected 2, got 1")))))
(pass-if "too many arguments"
(let ((w (call-with-warnings
(lambda ()
(compile '(format #t "foo ~A~%" 1 2)
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"expected 1, got 2")))))
(pass-if "~h"
(null? (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #t
"foo ~h ~a~%" 123.4 'bar)
#:opts %opts-w-format
#:to 'assembly)))))
(pass-if "~:h with locale object"
(null? (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #t
"foo ~:h~%" 123.4 %global-locale)
#:opts %opts-w-format
#:to 'assembly)))))
(pass-if "~:h without locale object"
(let ((w (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #t "foo ~,2:h" 123.4)
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"expected 2, got 1")))))
(with-test-prefix "conditionals"
(pass-if "literals"
(null? (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #f "~A ~[foo~;bar~;baz~;~] ~10,2f"
'a 1 3.14)
#:opts %opts-w-format
#:to 'assembly)))))
(pass-if "literals with selector"
(let ((w (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #f "~2[foo~;bar~;baz~;~] ~A"
1 'dont-ignore-me)
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"expected 1, got 2")))))
(pass-if "escapes (exact count)"
(let ((w (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #f "~[~a~;~a~]")
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"expected 2, got 0")))))
(pass-if "escapes with selector"
(let ((w (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #f "~1[chbouib~;~a~]")
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"expected 1, got 0")))))
(pass-if "escapes, range"
(let ((w (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #f "~[chbouib~;~a~;~2*~a~]")
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"expected 1 to 4, got 0")))))
(pass-if "@"
(let ((w (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #f "~@[temperature=~d~]")
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"expected 1, got 0")))))
(pass-if "nested"
(let ((w (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #f "~:[~[hey~;~a~;~va~]~;~3*~]")
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"expected 2 to 4, got 0")))))
(pass-if "unterminated"
(let ((w (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #f "~[unterminated")
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"unterminated conditional")))))
(pass-if "unexpected ~;"
(let ((w (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #f "foo~;bar")
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"unexpected")))))
(pass-if "unexpected ~]"
(let ((w (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #f "foo~]")
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"unexpected"))))))
(pass-if "~{...~}"
(null? (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #f "~A ~{~S~} ~A"
'hello '("ladies" "and")
'gentlemen)
#:opts %opts-w-format
#:to 'assembly)))))
(pass-if "~{...~}, too many args"
(let ((w (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #f "~{~S~}" 1 2 3)
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"expected 1, got 3")))))
(pass-if "~@{...~}"
(null? (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #f "~@{~S~}" 1 2 3)
#:opts %opts-w-format
#:to 'assembly)))))
(pass-if "~@{...~}, too few args"
(let ((w (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #f "~A ~@{~S~}")
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"expected at least 1, got 0")))))
(pass-if "unterminated ~{...~}"
(let ((w (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #f "~{")
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"unterminated")))))
(pass-if "~(...~)"
(null? (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #f "~:@(~A ~A~)" 'foo 'bar)
#:opts %opts-w-format
#:to 'assembly)))))
(pass-if "~v"
(let ((w (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #f "~v_foo")
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"expected 1, got 0")))))
(pass-if "~v:@y"
(null? (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #f "~v:@y" 1 123)
#:opts %opts-w-format
#:to 'assembly)))))
(pass-if "~*"
(let ((w (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #f "~2*~a" 'a 'b)
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"expected 3, got 2")))))
(pass-if "~?"
(null? (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #f "~?" "~d ~d" '(1 2))
#:opts %opts-w-format
#:to 'assembly)))))
(pass-if "~^"
(null? (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #f "~a ~^ ~a" 0 1)
#:opts %opts-w-format
#:to 'assembly)))))
(pass-if "~^, too few args"
(let ((w (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #f "~a ~^ ~a")
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"expected at least 1, got 0")))))
(pass-if "parameters: +,-,#, and '"
(null? (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) some-port
"~#~ ~,,-2f ~,,+2f ~'A~" 1234 1234)
#:opts %opts-w-format
#:to 'assembly)))))
(pass-if "complex 1"
(let ((w (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #f
"~4@S ~32S~@[;; ~1{~@?~}~]~@[~61t at ~a~]\n"
1 2 3 4 5 6)
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"expected 4, got 6")))))
(pass-if "complex 2"
(let ((w (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #f
"~:(~A~) Commands~:[~; [abbrev]~]:~2%"
1 2 3 4)
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"expected 2, got 4")))))
(pass-if "complex 3"
(let ((w (call-with-warnings
(lambda ()
(compile '((@ (ice-9 format) format) #f "~9@a~:[~*~3_~;~3d~] ~v:@y~%")
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"expected 5, got 0")))))
(pass-if "ice-9 format"
(let ((w (call-with-warnings
(lambda ()
(let ((in (open-input-string
"(use-modules ((ice-9 format)
#:renamer (symbol-prefix-proc 'i9-)))
(i9-format #t \"yo! ~A\" 1 2)")))
(read-and-compile in
#:opts %opts-w-format
#:to 'assembly))))))
(and (= (length w) 1)
(number? (string-contains (car w)
"expected 1, got 2")))))
(pass-if "not format"
(null? (call-with-warnings
(lambda ()
(compile '(let ((format chbouib))
(format #t "not ~A a format string"))
#:opts %opts-w-format
#:to 'assembly)))))
(with-test-prefix "simple-format"
(pass-if "good"
(null? (call-with-warnings
(lambda ()
(compile '(simple-format #t "foo ~a bar ~s ~%~~" 1 2)
#:opts %opts-w-format
#:to 'assembly)))))
(pass-if "wrong number of args"
(let ((w (call-with-warnings
(lambda ()
(compile '(simple-format #t "foo ~a ~s~%" 'one-missing)
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w) "wrong number")))))
(pass-if "unsupported"
(let ((w (call-with-warnings
(lambda ()
(compile '(simple-format #t "foo ~x~%" 16)
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w) "unsupported format option")))))
(pass-if "unsupported, gettext"
(let ((w (call-with-warnings
(lambda ()
(compile '(simple-format #t (gettext "foo ~2f~%") 3.14)
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w) "unsupported format option")))))
(pass-if "unsupported, ngettext"
(let ((w (call-with-warnings
(lambda ()
(compile '(simple-format #t (ngettext "s ~x" "p ~x" x) x)
#:opts %opts-w-format
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w) "unsupported format option")))))))
(with-test-prefix "duplicate-case-datum"
(pass-if "quiet"
(null? (call-with-warnings
(lambda ()
(compile '(case x ((1) 'one) ((2) 'two))
#:opts %opts-w-duplicate-case-datum
#:to 'assembly)))))
(pass-if "one duplicate"
(let ((w (call-with-warnings
(lambda ()
(compile '(case x
((1) 'one)
((2) 'two)
((1) 'one-again))
#:opts %opts-w-duplicate-case-datum
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w) "duplicate")))))
(pass-if "one duplicate"
(let ((w (call-with-warnings
(lambda ()
(compile '(case x
((1 2 3) 'a)
((1) 'one))
#:opts %opts-w-duplicate-case-datum
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w) "duplicate"))))))
(with-test-prefix "bad-case-datum"
(pass-if "quiet"
(null? (call-with-warnings
(lambda ()
(compile '(case x ((1) 'one) ((2) 'two))
#:opts %opts-w-bad-case-datum
#:to 'assembly)))))
(pass-if "not eqv?"
(let ((w (call-with-warnings
(lambda ()
(compile '(case x
((1) 'one)
(("bad") 'bad))
#:opts %opts-w-bad-case-datum
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"cannot be meaningfully compared")))))
(pass-if "one clause element not eqv?"
(let ((w (call-with-warnings
(lambda ()
(compile '(case x
((1 (2) 3) 'a))
#:opts %opts-w-duplicate-case-datum
#:to 'assembly)))))
(and (= (length w) 1)
(number? (string-contains (car w)
"cannot be meaningfully compared")))))))
;; Local Variables:
;; eval: (put 'pass-if-primitives-resolved 'scheme-indent-function 1)
;; eval: (put 'pass-if-tree-il->scheme 'scheme-indent-function 1)
;; End:
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