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;; Copyright (C) 2008-2014 Free Software Foundation, Inc.
;;
;; This program is free software; you can redistribute it and/or modify
;; it under the terms of the GNU General Public License as published by
;; the Free Software Foundation; either version 3 of the License, or
;; (at your option) any later version.
;;
;; This program 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 General Public License for more details.
;;
;; You should have received a copy of the GNU General Public License
;; along with this program. If not, see <http://www.gnu.org/licenses/>.
;; This file is part of the GDB testsuite.
;; It tests Scheme pretty printers.
(use-modules (gdb) (gdb printing))
(define (make-pointer-iterator pointer len)
(let ((next! (lambda (iter)
(let* ((start (iterator-object iter))
(progress (iterator-progress iter))
(current (car progress))
(len (cdr progress)))
(if (= current len)
(end-of-iteration)
(let ((pointer (value-add start current)))
(set-car! progress (+ current 1))
(cons (format #f "[~A]" current)
(value-dereference pointer))))))))
(make-iterator pointer (cons 0 len) next!)))
(define (make-pointer-iterator-except pointer len)
(let ((next! (lambda (iter)
(if *exception-flag*
(throw 'gdb:memory-error "hi bob"))
(let* ((start (iterator-object iter))
(progress (iterator-progress iter))
(current (car progress))
(len (cdr progress)))
(if (= current len)
(end-of-iteration)
(let ((pointer (value-add start current)))
(set-car! progress (+ current 1))
(cons (format #f "[~A]" current)
(value-dereference pointer))))))))
(make-iterator pointer (cons 0 len) next!)))
;; Test returning a <gdb:value> from a printer.
(define (make-string-printer val)
(make-pretty-printer-worker
#f
(lambda (printer)
(value-field (value-field val "whybother")
"contents"))
#f))
;; Test a printer with children.
(define (make-container-printer val)
;; This is a little different than the Python version in that if there's
;; an error accessing these fields we'll throw it at matcher time instead
;; of at printer time. Done this way to explore the possibilities.
(let ((name (value-field val "name"))
(len (value-field val "len"))
(elements (value-field val "elements")))
(make-pretty-printer-worker
#f
(lambda (printer)
(format #f "container ~A with ~A elements"
name len))
(lambda (printer)
(make-pointer-iterator elements (value->integer len))))))
;; Test "array" display hint.
(define (make-array-printer val)
(let ((name (value-field val "name"))
(len (value-field val "len"))
(elements (value-field val "elements")))
(make-pretty-printer-worker
"array"
(lambda (printer)
(format #f "array ~A with ~A elements"
name len))
(lambda (printer)
(make-pointer-iterator elements (value->integer len))))))
;; Flag to make no-string-container printer throw an exception.
(define *exception-flag* #f)
;; Test a printer where to_string returns #f.
(define (make-no-string-container-printer val)
(let ((len (value-field val "len"))
(elements (value-field val "elements")))
(make-pretty-printer-worker
#f
(lambda (printer) #f)
(lambda (printer)
(make-pointer-iterator-except elements (value->integer len))))))
(define (make-pp_s-printer val)
(make-pretty-printer-worker
#f
(lambda (printer)
(let ((a (value-field val "a"))
(b (value-field val "b")))
(if (not (value=? (value-address a) b))
(error (format #f "&a(~A) != b(~A)"
(value-address a) b)))
(format #f "a=<~A> b=<~A>" a b)))
#f))
(define (make-pp_ss-printer val)
(make-pretty-printer-worker
#f
(lambda (printer)
(let ((a (value-field val "a"))
(b (value-field val "b")))
(format #f "a=<~A> b=<~A>" a b)))
#f))
(define (make-pp_sss-printer val)
(make-pretty-printer-worker
#f
(lambda (printer)
(let ((a (value-field val "a"))
(b (value-field val "b")))
(format #f "a=<~A> b=<~A>" a b)))
#f))
(define (make-pp_multiple_virtual-printer val)
(make-pretty-printer-worker
#f
(lambda (printer)
(format #f "pp value variable is: ~A" (value-field val "value")))
#f))
(define (make-pp_vbase1-printer val)
(make-pretty-printer-worker
#f
(lambda (printer)
(format #f "pp class name: ~A" (type-tag (value-type val))))
#f))
(define (make-pp_nullstr-printer val)
(make-pretty-printer-worker
#f
(lambda (printer)
(value->string (value-field val "s")
#:encoding (arch-charset (current-arch))))
#f))
(define (make-pp_ns-printer val)
(make-pretty-printer-worker
"string"
(lambda (printer)
(let ((len (value-field val "length")))
(value->string (value-field val "null_str")
#:encoding (arch-charset (current-arch))
#:length (value->integer len))))
#f))
(define *pp-ls-encoding* #f)
(define (make-pp_ls-printer val)
(make-pretty-printer-worker
"string"
(lambda (printer)
(if *pp-ls-encoding*
(value->lazy-string (value-field val "lazy_str")
#:encoding *pp-ls-encoding*)
(value->lazy-string (value-field val "lazy_str"))))
#f))
(define (make-pp_hint_error-printer val)
"Use an invalid value for the display hint."
(make-pretty-printer-worker
42
(lambda (printer) "hint_error_val")
#f))
(define (make-pp_children_as_list-printer val)
(make-pretty-printer-worker
#f
(lambda (printer) "children_as_list_val")
(lambda (printer) (make-list-iterator (list (cons "one" 1))))))
(define (make-pp_outer-printer val)
(make-pretty-printer-worker
#f
(lambda (printer)
(format #f "x = ~A" (value-field val "x")))
(lambda (printer)
(make-list-iterator (list (cons "s" (value-field val "s"))
(cons "x" (value-field val "x")))))))
(define (make-memory-error-string-printer val)
(make-pretty-printer-worker
"string"
(lambda (printer)
(scm-error 'gdb:memory-error "memory-error-printer"
"Cannot access memory." '() '()))
#f))
(define (make-pp_eval_type-printer val)
(make-pretty-printer-worker
#f
(lambda (printer)
(execute "bt" #:to-string #t)
(format #f "eval=<~A>"
(value-print
(parse-and-eval
"eval_func (123456789, 2, 3, 4, 5, 6, 7, 8)"))))
#f))
(define (get-type-for-printing val)
"Return type of val, stripping away typedefs, etc."
(let ((type (value-type val)))
(if (= (type-code type) TYPE_CODE_REF)
(set! type (type-target type)))
(type-strip-typedefs (type-unqualified type))))
(define (disable-matcher!)
(set-pretty-printer-enabled! *pretty-printer* #f))
(define (enable-matcher!)
(set-pretty-printer-enabled! *pretty-printer* #t))
(define (make-pretty-printer-dict)
(let ((dict (make-hash-table)))
(hash-set! dict "struct s" make-pp_s-printer)
(hash-set! dict "s" make-pp_s-printer)
(hash-set! dict "S" make-pp_s-printer)
(hash-set! dict "struct ss" make-pp_ss-printer)
(hash-set! dict "ss" make-pp_ss-printer)
(hash-set! dict "const S &" make-pp_s-printer)
(hash-set! dict "SSS" make-pp_sss-printer)
(hash-set! dict "VirtualTest" make-pp_multiple_virtual-printer)
(hash-set! dict "Vbase1" make-pp_vbase1-printer)
(hash-set! dict "struct nullstr" make-pp_nullstr-printer)
(hash-set! dict "nullstr" make-pp_nullstr-printer)
;; Note that we purposely omit the typedef names here.
;; Printer lookup is based on canonical name.
;; However, we do need both tagged and untagged variants, to handle
;; both the C and C++ cases.
(hash-set! dict "struct string_repr" make-string-printer)
(hash-set! dict "struct container" make-container-printer)
(hash-set! dict "struct justchildren" make-no-string-container-printer)
(hash-set! dict "string_repr" make-string-printer)
(hash-set! dict "container" make-container-printer)
(hash-set! dict "justchildren" make-no-string-container-printer)
(hash-set! dict "struct ns" make-pp_ns-printer)
(hash-set! dict "ns" make-pp_ns-printer)
(hash-set! dict "struct lazystring" make-pp_ls-printer)
(hash-set! dict "lazystring" make-pp_ls-printer)
(hash-set! dict "struct outerstruct" make-pp_outer-printer)
(hash-set! dict "outerstruct" make-pp_outer-printer)
(hash-set! dict "struct hint_error" make-pp_hint_error-printer)
(hash-set! dict "hint_error" make-pp_hint_error-printer)
(hash-set! dict "struct children_as_list"
make-pp_children_as_list-printer)
(hash-set! dict "children_as_list" make-pp_children_as_list-printer)
(hash-set! dict "memory_error" make-memory-error-string-printer)
(hash-set! dict "eval_type_s" make-pp_eval_type-printer)
dict))
;; This is one way to register a printer that is composed of several
;; subprinters, but there's no way to disable or list individual subprinters.
(define *pretty-printer*
(make-pretty-printer
"pretty-printer-test"
(let ((pretty-printers-dict (make-pretty-printer-dict)))
(lambda (matcher val)
"Look-up and return a pretty-printer that can print val."
(let ((type (get-type-for-printing val)))
(let ((typename (type-tag type)))
(if typename
(let ((printer-maker (hash-ref pretty-printers-dict typename)))
(and printer-maker (printer-maker val)))
#f)))))))
(append-pretty-printer! #f *pretty-printer*)
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