/usr/share/libctl/utils/ctl-io.scm is in libctl5 3.2.2-4.
This file is owned by root:root, with mode 0o644.
The actual contents of the file can be viewed below.
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; Copyright (C) 1998-2014 Massachusetts Institute of Technology and Steven G. Johnson
;
; 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 2 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., 59 Temple Place - Suite 330,
; Boston, MA 02111-1307, USA.
;
; Steven G. Johnson can be contacted at stevenj@alum.mit.edu.
; ***************************************************************************
; "Standard" Scheme functions missing from Guile 1.2:
(define (string-upcase s)
(list->string (map (lambda (c)
(if (and (char>=? c #\a) (char<=? c #\z))
(integer->char (+ (char->integer c)
(char->integer #\A)
(- (char->integer #\a))))
c))
(string->list s))))
; ***************************************************************************
(define cxx false) ; set to true for C++ output (c.f. gen-ctl-io --cxx)
(define namespace "ctlio")
(define (ns0) (ns namespace))
(define (ns namespace) (if cxx (string-append namespace "::") ""))
(define (c-identifier s)
(list->string (map (lambda (c)
(if (or (eq? c #\-) (eq? c #\space))
#\_ (if (eq? c #\?) #\p (if (eq? c #\!) #\B c))))
(string->list s))))
(define symbol->c-identifier (compose c-identifier symbol->string))
(define (c-type-string t)
(if (eq? t 'string) "char*" ; "string" name is reserved in C++
(c-identifier (type-string t))))
(define declared-type-names '())
(define (declare-type-name type-name)
(if (and (list-type-name? type-name)
(not (member (c-type-string type-name) declared-type-names)))
(begin
(if (list-type-name? (list-el-type-name type-name))
(declare-type-name (list-el-type-name type-name)))
(print "typedef struct {\n")
(print "int num_items;\n")
(print (c-type-string (list-el-type-name type-name))
" *items;\n")
(print "} " (c-type-string type-name) ";\n\n")
(set! declared-type-names (cons (c-type-string type-name)
declared-type-names)))))
(define (only-list-types type-names)
(list-transform-positive type-names list-type-name?))
(define (c-var-decl' var-name var-type-name ns)
(print (c-type-string var-type-name) " " ns
(symbol->c-identifier var-name) ";\n"))
(define (c-var-decl var-name var-type-name)
(c-var-decl' var-name var-type-name ""))
; ***************************************************************************
; use new/delete for C++, malloc/free for C
(define (free . vars)
(let ((var (apply string-append vars)))
(if cxx
(string-append "delete[] (" var ")")
(string-append "free(" var ")"))))
(define (free1 . vars)
(let ((var (apply string-append vars)))
(if cxx
(string-append "delete (" var ")")
(string-append "free(" var ")"))))
(define (malloc tname . nums)
(let ((num (apply string-append nums)))
(if cxx
(string-append "(new " tname "[" num "])")
(string-append
"((" tname " *) malloc(sizeof(" tname ") * (" num ")))"))))
(define (malloc1 . tnames)
(let ((tname (apply string-append tnames)))
(if cxx
(string-append "(new " tname ")")
(string-append "((" tname " *) malloc(sizeof(" tname ")))"))))
; ***************************************************************************
(define (find-direct-subclasses class)
(list-transform-positive class-list
(lambda (c) (eq? (class-parent c) class))))
(define (class-identifier class)
(symbol->c-identifier (class-type-name class)))
(define (class-enum-name0 class)
(string-upcase (class-identifier class)))
(define (class-enum-name class)
(string-append (ns (class-identifier (class-parent class)))
(class-enum-name0 class)))
(define (class-self-enum-name class)
(string-append (ns (class-identifier class))
(class-enum-name0 class) "_SELF"))
(define (c-class-decl class)
(for-each (compose declare-type-name property-type-name)
(class-properties class))
(print "typedef struct " (class-identifier class)
"_struct {\n")
(for-each
(lambda (property)
(c-var-decl (property-name property) (property-type-name property)))
(class-properties class))
(let ((subclasses (find-direct-subclasses class)))
(if (not (null? subclasses))
(begin
(print "enum { " (class-enum-name0 class) "_SELF")
(for-each (lambda (sc) (print ", " (class-enum-name0 sc)))
subclasses)
(print " } which_subclass;\n")
(print "union {\n")
(for-each (lambda (sc)
(print
"struct " (class-identifier sc) "_struct *"
(class-identifier sc) "_data;\n"))
subclasses)
(print "} subclass;\n"))))
(print "} " (class-identifier class) ";\n")
(if (and (not (null? (find-direct-subclasses class)))
(null? (class-properties class)))
(print "#define " (class-enum-name0 class) "_ABSTRACT 1\n"))
(print "\n"))
(define (display-c-class-decls)
(print "/******* Type declarations *******/\n\n")
(for-each c-class-decl (reverse class-list)))
; ***************************************************************************
(define (declare-var var)
(c-var-decl' (var-name var) (var-type-name var) (ns0)))
(define (declare-extern-var var)
(print "extern ")
(c-var-decl (var-name var) (var-type-name var)))
(define (declarer-if-not-input-var declarer)
(lambda (var)
(if (not (member var input-var-list))
(declarer var)
(begin (print "/* " (var-name var)
" is both input and output */\n")))))
(define (all-type-names)
(append
exported-type-list
(map var-type-name
(append (reverse input-var-list)
(reverse output-var-list)))
(map external-function-return-type-name
external-function-list)
(fold-left append '()
(map external-function-arg-type-names
external-function-list))))
(define (declare-var-types) (for-each declare-type-name (all-type-names)))
(define (declare-vars declarer)
(print "/******* Input variables *******/\n")
(for-each declarer (reverse input-var-list))
(print "\n")
(print "/******* Output variables *******/\n")
(for-each (declarer-if-not-input-var declarer) (reverse output-var-list))
(print "\n"))
(define (declare-vars-header)
(declare-var-types)
(declare-vars declare-extern-var))
(define (declare-vars-source) (declare-vars declare-var))
; ***************************************************************************
(define (input-value s-var-name-str c-var-name-str type-name getter)
(let ((desc (get-type-descriptor type-name)))
(cond
((eq? (type-descriptor-kind desc) 'simple)
(print c-var-name-str " = "
(getter type-name s-var-name-str) ";\n"))
((eq? (type-descriptor-kind desc) 'object)
(print (class-input-function-name type-name) "("
(getter 'object s-var-name-str)
", &" c-var-name-str ");\n"))
((eq? (type-descriptor-kind desc) 'uniform-list)
(input-list (getter 'list s-var-name-str) c-var-name-str
(list-el-type-name type-name))))))
(define (get-global type-symbol name-str)
(string-append "ctl_get_" (symbol->c-identifier type-symbol)
"(\"" name-str "\")" ))
(define (property-getter object-name-str)
(lambda (type-symbol name-str)
(string-append (symbol->c-identifier type-symbol)
"_object_property(" object-name-str ", "
"\"" name-str "\")" )))
(define (list-getter lo-name-str)
(lambda (type-symbol name-str)
(string-append (symbol->c-identifier type-symbol)
"_list_ref(" lo-name-str ", "
name-str ")" )))
(define list-temp-suffix "_t")
(define (input-list list-object-get-str c-var-name-str type-name)
(print "{\n")
(let ((lo-name-str (string-append "lo" list-temp-suffix))
(index-name-str (string-append "i" list-temp-suffix))
(saved-list-temp-suffix list-temp-suffix))
(set! list-temp-suffix (string-append list-temp-suffix "_t"))
(print "list " lo-name-str " = "
list-object-get-str ";\n")
(print "int " index-name-str ";\n")
(print c-var-name-str
".num_items = list_length(" lo-name-str ");\n")
(print c-var-name-str ".items = "
(malloc (c-type-string type-name) c-var-name-str ".num_items")
";\n")
(print "for (" index-name-str " = 0; " index-name-str " < "
c-var-name-str ".num_items; " index-name-str "++) {\n")
(input-value index-name-str
(string-append c-var-name-str ".items[" index-name-str "]")
type-name (list-getter lo-name-str))
(print "}\n")
(set! list-temp-suffix saved-list-temp-suffix))
(print "}\n"))
(define (class-input-function-name type-name)
(string-append (symbol->c-identifier type-name)
"_input"))
(define (class-input-function-decl class ns)
(print "void " ns
(class-input-function-name (class-type-name class))
"(SCM so, "
(c-type-string (class-type-name class)) " *o)"))
(define (class-input-function class)
(class-input-function-decl class (ns0))
(print "\n{\n")
(for-each
(lambda (property)
(input-value (symbol->string (property-name property))
(string-append "o->" (symbol->c-identifier
(property-name property)))
(property-type-name property)
(property-getter "so")))
(class-properties class))
(let ((subclasses (find-direct-subclasses class)))
(for-each
(lambda (sc)
(print "if (object_is_member(\"" (class-type-name sc)
"\", so)) {\n")
(print "o->which_subclass = " (class-enum-name sc) ";\n")
(print "o->subclass." (class-identifier sc) "_data = "
(malloc1 (class-identifier sc)) ";\n")
(print (class-input-function-name (class-type-name sc))
"(so, o->subclass." (class-identifier sc) "_data);\n"
"}\nelse "))
subclasses)
(if (not (null? subclasses))
(begin
(print "\n")
(print "o->which_subclass = "
(class-self-enum-name class) ";\n"))))
(print "}\n\n"))
(define (output-class-input-functions-header)
(print "/******* class input function prototypes *******/\n\n")
(for-each
(lambda (class)
(print "extern ") (class-input-function-decl class "")
(print ";\n"))
class-list)
(print "\n"))
(define (output-class-input-functions-source)
(print "/******* class input functions *******/\n\n")
(for-each class-input-function class-list))
(define (input-vars-function)
(print "/******* read input variables *******/\n\n")
(print "SCM " (ns0) "read_input_vars(void)\n")
(print "{\n")
(print "if (num_read_input_vars++) destroy_input_vars();\n")
(for-each
(lambda (var)
(input-value
(symbol->string (var-name var))
(symbol->c-identifier (var-name var))
(var-type-name var)
get-global))
(reverse input-var-list))
(print "return SCM_UNSPECIFIED;\n")
(print "}\n\n"))
; ***************************************************************************
(define (copy-value c0-var-name-str c-var-name-str type-name)
(let ((desc (get-type-descriptor type-name)))
(cond
((eq? (type-descriptor-kind desc) 'simple)
(print c-var-name-str " = " c0-var-name-str ";\n"))
((eq? (type-descriptor-kind desc) 'object)
(print (class-copy-function-name type-name) "(&"
c0-var-name-str
", &" c-var-name-str ");\n"))
((eq? (type-descriptor-kind desc) 'uniform-list)
(copy-list c0-var-name-str c-var-name-str
(list-el-type-name type-name))))))
(define (copy-list c0-var-name-str c-var-name-str type-name)
(print "{\n")
(let ((index-name-str (string-append "i" list-temp-suffix))
(saved-list-temp-suffix list-temp-suffix))
(set! list-temp-suffix (string-append list-temp-suffix "_t"))
(print "int " index-name-str ";\n")
(print c-var-name-str ".num_items = "
c0-var-name-str ".num_items;\n")
(print c-var-name-str ".items = "
(malloc (c-type-string type-name) c-var-name-str ".num_items")
";\n")
(print "for (" index-name-str " = 0; " index-name-str " < "
c-var-name-str ".num_items; " index-name-str "++) {\n")
(copy-value (string-append c0-var-name-str ".items[" index-name-str "]")
(string-append c-var-name-str ".items[" index-name-str "]")
type-name)
(print "}\n")
(set! list-temp-suffix saved-list-temp-suffix))
(print "}\n"))
(define (class-copy-function-name type-name)
(string-append (symbol->c-identifier type-name)
"_copy"))
(define (class-copy-function-decl class ns)
(print "void " ns
(class-copy-function-name (class-type-name class))
"(const " (c-type-string (class-type-name class)) " *o0,"
(c-type-string (class-type-name class)) " *o)"))
(define (class-copy-function class)
(class-copy-function-decl class (ns0))
(print "\n{\n")
(for-each
(lambda (property)
(copy-value (string-append "o0->" (symbol->c-identifier
(property-name property)))
(string-append "o->" (symbol->c-identifier
(property-name property)))
(property-type-name property)))
(class-properties class))
(let ((subclasses (find-direct-subclasses class)))
(for-each
(lambda (sc)
(print "if (o0->which_subclass == " (class-enum-name sc) ") {\n")
(print "o->which_subclass = " (class-enum-name sc) ";\n")
(print "o->subclass." (class-identifier sc) "_data = "
(malloc1 (class-identifier sc)) ";\n")
(print (class-copy-function-name (class-type-name sc))
"(o0->subclass." (class-identifier sc)
"_data, o->subclass." (class-identifier sc) "_data);\n"
"}\nelse "))
subclasses)
(if (not (null? subclasses))
(begin
(print "\n")
(print "o->which_subclass = "
(class-self-enum-name class) ";\n"))))
(print "}\n\n"))
(define (output-class-copy-functions-header)
(print "/******* class copy function prototypes *******/\n\n")
(for-each
(lambda (class)
(print "extern ") (class-copy-function-decl class "")
(print ";\n"))
class-list)
(print "\n"))
(define (output-class-copy-functions-source)
(print "/******* class copy functions *******/\n\n")
(for-each class-copy-function class-list))
; ***************************************************************************
(define (equal-value c0-var-name-str c-var-name-str type-name)
(let ((desc (get-type-descriptor type-name)))
(cond
((primitive-type? type-name)
(print "if (" c-var-name-str " != " c0-var-name-str ") return 0;\n"))
((eq? type-name 'string)
(print "if (strcmp(" c-var-name-str ", " c0-var-name-str
")) return 0;\n"))
((eq? (type-descriptor-kind desc) 'simple)
(print "if (!" type-name "_equal("
c-var-name-str ", " c0-var-name-str ")) return 0;\n"))
((eq? (type-descriptor-kind desc) 'object)
(print "if (!" (class-equal-function-name type-name) "(&"
c0-var-name-str
", &" c-var-name-str ")) return 0;\n"))
((eq? (type-descriptor-kind desc) 'uniform-list)
(equal-list c0-var-name-str c-var-name-str
(list-el-type-name type-name))))))
(define (equal-list c0-var-name-str c-var-name-str type-name)
(print "{\n")
(let ((index-name-str (string-append "i" list-temp-suffix))
(saved-list-temp-suffix list-temp-suffix))
(set! list-temp-suffix (string-append list-temp-suffix "_t"))
(print "int " index-name-str ";\n")
(print "if (" c-var-name-str ".num_items != "
c0-var-name-str ".num_items) return 0;\n")
(print "for (" index-name-str " = 0; " index-name-str " < "
c-var-name-str ".num_items; " index-name-str "++) {\n")
(equal-value (string-append c0-var-name-str ".items[" index-name-str "]")
(string-append c-var-name-str ".items[" index-name-str "]")
type-name)
(print "}\n")
(set! list-temp-suffix saved-list-temp-suffix))
(print "}\n"))
(define (class-equal-function-name type-name)
(string-append (symbol->c-identifier type-name)
"_equal"))
(define (class-equal-function-decl class ns)
(print "boolean " ns
(class-equal-function-name (class-type-name class))
"(const " (c-type-string (class-type-name class)) " *o0, "
"const " (c-type-string (class-type-name class)) " *o)"))
(define (class-equal-function class)
(class-equal-function-decl class (ns0))
(print "\n{\n")
(for-each
(lambda (property)
(equal-value (string-append "o0->" (symbol->c-identifier
(property-name property)))
(string-append "o->" (symbol->c-identifier
(property-name property)))
(property-type-name property)))
(class-properties class))
(let ((subclasses (find-direct-subclasses class)))
(if (not (null? subclasses))
(print "if (o0->which_subclass != o->which_subclass) return 0;\n"))
(for-each
(lambda (sc)
(print "if (o0->which_subclass == " (class-enum-name sc) ") {\n")
(print "if (!" (class-equal-function-name (class-type-name sc))
"(o0->subclass." (class-identifier sc)
"_data, o->subclass." (class-identifier sc) "_data)) return 0;\n"
"}\nelse "))
subclasses)
(print ";\n"))
(print "return 1;\n")
(print "}\n\n"))
(define (output-class-equal-functions-header)
(print "/******* class equal function prototypes *******/\n\n")
(for-each
(lambda (class)
(print "extern ") (class-equal-function-decl class "")
(print ";\n"))
class-list)
(print "\n"))
(define (output-class-equal-functions-source)
(print "/******* class equal functions *******/\n\n")
(for-each class-equal-function class-list))
; ***************************************************************************
(define (export-object-value c-var-name-str type-name exporter)
(error "object output variables are not yet supported. "
type-name c-var-name-str))
(define (export-list-value c-var-name-str type-name exporter)
(let ((el-type-name (list-el-type-name type-name)))
(let ((el-desc (get-type-descriptor el-type-name)))
(cond
((eq? (type-descriptor-kind el-desc) 'simple)
(exporter (string-append "make_" (type-descriptor-name-str el-desc)
"_list("
c-var-name-str ".num_items, "
c-var-name-str ".items)")))
(else
(error
"only export of lists of simple types is currently supported, not "
el-type-name))))))
(define (output-value s-var-name-str c-var-name-str type-name setter)
(let ((desc (get-type-descriptor type-name)))
(cond
((eq? (type-descriptor-kind desc) 'simple)
(print (setter type-name s-var-name-str c-var-name-str) "\n"))
((eq? (type-descriptor-kind desc) 'object)
(export-object-value c-var-name-str type-name
(lambda (sobj-str)
(print
(setter 'object s-var-name-str sobj-str))
(print "\n"))))
((eq? (type-descriptor-kind desc) 'uniform-list)
(export-list-value c-var-name-str type-name
(lambda (slist-str)
(print
(setter 'list s-var-name-str slist-str))
(print "\n")))))))
(define (set-global type-symbol s-name-str c-name-str)
(string-append "ctl_set_" (symbol->c-identifier type-symbol)
"(\"" s-name-str "\", " c-name-str ");" ))
(define (output-vars-function)
(print "/******* write output variables *******/\n\n")
(print "SCM " (ns0) "write_output_vars(void)\n")
(print "{\n")
(print "num_write_output_vars++;\n")
(for-each
(lambda (var)
(output-value
(symbol->string (var-name var))
(symbol->c-identifier (var-name var))
(var-type-name var)
set-global))
(reverse output-var-list))
(print "return SCM_UNSPECIFIED;\n")
(print "}\n\n"))
; ***************************************************************************
(define (destroy-c-var var-str type-name)
(let ((desc (get-type-descriptor type-name)))
(cond
((eq? type-name 'string)
(print (free var-str) ";\n"))
((eq? (type-descriptor-kind desc) 'uniform-list)
(destroy-list var-str (list-el-type-name type-name)))
((eq? (type-descriptor-kind desc) 'object)
(destroy-object var-str type-name)))))
(define (class-destroy-function-name type-name)
(string-append (symbol->c-identifier type-name)
"_destroy"))
(define (class-destroy-function-decl class ns)
(print "void " ns
(class-destroy-function-name (class-type-name class))
"("
(c-type-string (class-type-name class)) " o)"))
(define (destroy-list var-str el-type-name)
(let ((index-name (string-append "index" list-temp-suffix))
(saved-suffix list-temp-suffix))
(set! list-temp-suffix (string-append list-temp-suffix "_t"))
(print "{\n")
(print "int " index-name ";\n")
(print "for (" index-name " = 0; " index-name " < "
var-str ".num_items; " index-name "++) {\n")
(destroy-c-var (string-append var-str ".items[" index-name "]")
el-type-name)
(print "}\n")
(print "}\n")
(print (free var-str ".items") ";\n")
(set! list-temp-suffix saved-suffix)))
(define (destroy-object var-str type-name)
(print (class-destroy-function-name type-name) "(" var-str ");\n"))
(define (destroy-property prefix-str property)
(destroy-c-var (string-append prefix-str (symbol->c-identifier
(property-name property)))
(property-type-name property)))
(define (class-destroy-function class)
(class-destroy-function-decl class (ns0))
(print "\n{\n")
(for-each
(lambda (property) (destroy-property "o." property))
(class-properties class))
(let ((subclasses (find-direct-subclasses class)))
(for-each
(lambda (sc)
(print "if (o.which_subclass == " (class-enum-name sc) ") {\n")
(destroy-object (string-append "*o.subclass."
(class-identifier sc) "_data")
(class-type-name sc))
(print (free1 "o.subclass." (class-identifier sc) "_data") ";\n")
(print "}\n")
(print "else "))
subclasses)
(if (not (null? subclasses))
(begin
(print "{ }\n"))))
(print "}\n\n"))
(define (output-class-destruction-functions-header)
(print "/******* class destruction function prototypes *******/\n\n")
(for-each
(lambda (class)
(print "extern ") (class-destroy-function-decl class "")
(print ";\n"))
class-list)
(print "\n"))
(define (output-class-destruction-functions-source)
(print "/******* class destruction functions *******/\n\n")
(for-each class-destroy-function class-list))
(define (destroy-input-vars-function)
(print "/******* destroy input variables *******/\n\n")
(print "SCM " (ns0) "destroy_input_vars(void)\n")
(print "{\n")
(for-each
(lambda (var)
(destroy-c-var
(symbol->c-identifier (var-name var))
(var-type-name var)))
(reverse input-var-list))
(print "return SCM_UNSPECIFIED;\n")
(print "}\n\n"))
(define (destroy-output-vars-function)
(print "/******* destroy output variables *******/\n\n")
(print "SCM " (ns0) "destroy_output_vars(void)\n")
(print "{\n")
(for-each
(lambda (var)
(if (not (member var input-var-list))
(destroy-c-var
(symbol->c-identifier (var-name var))
(var-type-name var))))
(reverse output-var-list))
(print "return SCM_UNSPECIFIED;\n")
(print "}\n\n"))
; ***************************************************************************
(define (list->indices lst start-index)
(if (null? lst) '()
(cons start-index (list->indices (cdr lst) (+ start-index 1)))))
(define (declare-external-function external-function ns)
(print "SCM " ns (symbol->c-identifier
(external-function-aux-name
(external-function-name external-function)))
"(")
(for-each
(lambda (argnum)
(if (> argnum 0) (print ", "))
(print "SCM arg_scm_" argnum))
(list->indices (external-function-arg-type-names external-function) 0))
(if (= (length (external-function-arg-type-names external-function)) 0)
(print "void"))
(print ")"))
(define (declare-external-c-function external-function)
(print
"extern "
(if (not (eq? (external-function-return-type-name external-function)
no-return-value))
(c-type-string (external-function-return-type-name external-function))
"void")
" "
(symbol->c-identifier (external-function-name external-function))
"(")
(for-each
(lambda (arg-type-name argnum)
(if (> argnum 0) (print ", "))
(print (c-type-string arg-type-name)))
(external-function-arg-type-names external-function)
(list->indices (external-function-arg-type-names external-function) 0))
(if (= (length (external-function-arg-type-names external-function)) 0)
(print "void"))
(print ");\n"))
(define (output-external-functions-header)
(print "/******* external-functions *******/\n\n")
(for-each
(lambda (ef)
(declare-external-c-function ef)
(print "extern ")
(declare-external-function ef "")
(print ";\n\n"))
external-function-list)
(print "\nextern void export_external_functions(void);\n")
(print "\n"))
(define (output-external-function-export external-function)
(print
"gh_new_procedure(\""
(external-function-aux-name (external-function-name external-function))
"\", "
"(SCM (*)()) "
(symbol->c-identifier
(external-function-aux-name (external-function-name external-function)))
", "
(length (external-function-arg-type-names external-function))
", 0, 0);\n"))
(define (output-export-external-functions)
(print "void " (ns0) "export_external_functions(void)\n")
(print "{\n")
(for-each output-external-function-export external-function-list)
(print "}\n\n"))
(define (get-c-local type-symbol name-str)
(string-append "ctl_convert_" (symbol->c-identifier type-symbol)
"_to_c(" name-str ")"))
(define (set-c-local type-symbol s-name-str c-name-str)
(string-append s-name-str " = ctl_convert_"
(symbol->c-identifier type-symbol)
"_to_scm(" c-name-str ");"))
(define (output-external-function external-function)
(declare-external-function external-function (ns0)) (print "\n")
(print "{\n")
(if (not (eq? (external-function-return-type-name external-function)
no-return-value))
(begin
(print "SCM return_val_scm;\n")
(c-var-decl 'return-val-c (external-function-return-type-name
external-function))))
(for-each
(lambda (arg-type-name argnum)
(print (c-type-string arg-type-name) " arg_c_" argnum ";\n"))
(external-function-arg-type-names external-function)
(list->indices (external-function-arg-type-names external-function) 0))
(print "\n")
(for-each
(lambda (arg-type-name argnum)
(input-value (string-append "arg_scm_" (number->string argnum))
(string-append "arg_c_" (number->string argnum))
arg-type-name
get-c-local))
(external-function-arg-type-names external-function)
(list->indices (external-function-arg-type-names external-function) 0))
(print "\n")
(print "#ifdef HAVE_SCM_FLUSH_ALL_PORTS\nscm_flush_all_ports();\n#endif\n")
(if (not (eq? (external-function-return-type-name external-function)
no-return-value))
(print "return_val_c = "))
(print
(symbol->c-identifier (external-function-name external-function))
"(")
(for-each
(lambda (argnum)
(if (> argnum 0) (print ", "))
(print "arg_c_" argnum))
(list->indices (external-function-arg-type-names external-function) 0))
(print ");\n\n")
(print "fflush(stdout); fflush(stderr);\n")
(for-each
(lambda (arg-type-name argnum)
(destroy-c-var
(string-append "arg_c_" (number->string argnum)) arg-type-name))
(external-function-arg-type-names external-function)
(list->indices (external-function-arg-type-names external-function) 0))
(print "\n")
(if (not (eq? (external-function-return-type-name external-function)
no-return-value))
(begin
(output-value
"return_val_scm" "return_val_c"
(external-function-return-type-name external-function)
set-c-local)
(destroy-c-var "return_val_c"
(external-function-return-type-name external-function))
(print "return return_val_scm;\n"))
(begin (print "return SCM_UNSPECIFIED;\n")))
(print "}\n\n"))
(define (output-external-functions-source)
(print "/******* external-functions *******/\n\n")
(for-each output-external-function external-function-list)
(output-export-external-functions))
; ***************************************************************************
(define (swig-type-header type-name)
(print "%typemap(guile,in) "
(if cxx (string-append namespace "::") "")
(c-type-string type-name) " {\n")
(if cxx (print "using namespace " namespace ";\n"))
(input-value "$input" "$1" type-name get-c-local)
(print "}\n")
(if (and (not (eq? 'object (type-descriptor-kind
(get-type-descriptor type-name))))
(or (not (list-type-name? type-name))
(eq? 'simple (type-descriptor-kind
(get-type-descriptor
(list-el-type-name type-name))))))
(begin
(print "%typemap(guile,out) "
(if cxx (string-append namespace "::") "")
(c-type-string type-name) " {\n")
(if cxx (print "using namespace " namespace ";\n"))
(output-value "$result" "$1" type-name set-c-local)
(destroy-c-var "$1" type-name)
(print "}\n")))
(print "\n")
)
(define (output-swig-header)
(print "%{\n#include \"ctl-io.h\"\n%}\n\n")
(print "/******* SWIG type-conversion mappings *******/\n\n")
(for-each swig-type-header
(append (only-list-types (all-type-names))
(map class-type-name class-list))))
; ***************************************************************************
(define (output-header)
(display-c-class-decls)
(declare-vars-header)
(print "extern int num_read_input_vars;\n")
(print "extern int num_write_output_vars;\n\n")
(print "extern SCM read_input_vars(void);\n")
(print "extern SCM write_output_vars(void);\n")
(print "extern SCM destroy_input_vars(void);\n")
(print "extern SCM destroy_output_vars(void);\n\n")
(output-external-functions-header)
(output-class-input-functions-header)
(output-class-copy-functions-header)
(output-class-equal-functions-header)
(output-class-destruction-functions-header)
)
(define (output-source)
(declare-vars-source)
(print
"int " (ns0) "num_read_input_vars = 0; /* # calls to read_input_vars */\n"
"int " (ns0) "num_write_output_vars = 0; /* # calls to read_input_vars */\n\n")
(output-class-input-functions-source)
(output-class-copy-functions-source)
(output-class-equal-functions-source)
(output-class-destruction-functions-source)
(input-vars-function)
(output-vars-function)
(destroy-input-vars-function)
(destroy-output-vars-function)
(output-external-functions-source))
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