XS-MLVP
/
swig
mirror of https://github.com/swig/swig
5
0
Fork 0
Code Issues Packages Projects Releases Wiki Activity
swig/Source/Modules/allegrocl.cxx

3273 lines
100 KiB
C++
Raw Blame History

/* -----------------------------------------------------------------------------
* This file is part of SWIG, which is licensed as a whole under version 3
* (or any later version) of the GNU General Public License. Some additional
* terms also apply to certain portions of SWIG. The full details of the SWIG
* license and copyrights can be found in the LICENSE and COPYRIGHT files
* included with the SWIG source code as distributed by the SWIG developers
* and at http://www.swig.org/legal.html.
*
* allegrocl.cxx
*
* ALLEGROCL language module for SWIG.
* ----------------------------------------------------------------------------- */
char cvsroot_allegrocl_cxx[] = "$Id$";
#include "swigmod.h"
#include "cparse.h"
#include <ctype.h>
// #define ALLEGROCL_DEBUG
// #define ALLEGROCL_WRAP_DEBUG
// #define ALLEGROCL_TYPE_DEBUG
// #define ALLEGROCL_CLASS_DEBUG
static const char *usage = (char *) "\
Allegro CL Options (available with -allegrocl)\n\
-identifier-converter <type or funcname> - \n\
Specifies the type of conversion to do on C identifiers to convert\n\
them to symbols. There are two built-in converters: 'null' and\n\
'lispify'. The default is 'null'. If you supply a name other\n\
than one of the built-ins, then a function by that name will be\n\
called to convert identifiers to symbols.\n\
-[no]cwrap - Turn on or turn off generation of an intermediate C file when\n\
creating a C interface. By default this is only done for C++ code.\n\
-isolate - Define all SWIG helper functions in a package unique to this\n\
module. Avoids redefinition warnings when loading multiple\n\
SWIGged modules into the same running Allegro CL image.\n\
";
static File *f_cl = 0;
String *f_clhead = NewString("");
String *f_clwrap = NewString("(swig-in-package ())\n\n");
static File *f_begin;
static File *f_runtime;
static File *f_cxx_header = 0;
static File *f_cxx_wrapper = 0;
static String *module_name = 0;
static String *swig_package = 0;
const char *identifier_converter = "identifier-convert-null";
static bool CWrap = true; // generate wrapper file for C code by default. most correct.
static bool Generate_Wrapper = false;
static bool unique_swig_package = false;
static SwigType *fwdref_ffi_type = NewString("__SWIGACL_FwdReference");
static String *current_namespace = NewString("");
static String *current_package = NewString("");
static Hash *defined_namespace_packages = NewHash();
static Node *in_class = 0;
static Node *first_linked_type = 0;
static Hash *defined_foreign_types = NewHash();
static Hash *defined_foreign_ltypes = NewHash();
static String *anon_type_name = NewString("anontype");
static int anon_type_count = 0;
// stub
String *convert_literal(String *num_param, String *type, bool try_to_split = true);
class ALLEGROCL:public Language {
public:
virtual void main(int argc, char *argv[]);
virtual int top(Node *n);
virtual int functionWrapper(Node *n);
virtual int namespaceDeclaration(Node *n);
virtual int constructorHandler(Node *n);
virtual int destructorHandler(Node *n);
virtual int globalvariableHandler(Node *n);
virtual int variableWrapper(Node *n);
virtual int constantWrapper(Node *n);
virtual int memberfunctionHandler(Node *n);
virtual int membervariableHandler(Node *n);
virtual int classHandler(Node *n);
virtual int emit_one(Node *n);
virtual int enumDeclaration(Node *n);
virtual int enumvalueDeclaration(Node *n);
virtual int typedefHandler(Node *n);
virtual int classforwardDeclaration(Node *n);
virtual int templateDeclaration(Node *n);
virtual int validIdentifier(String *s);
private:
int emit_defun(Node *n, File *f_cl);
int emit_dispatch_defun(Node *n);
int emit_buffered_defuns(Node *n);
int cClassHandler(Node *n);
int cppClassHandler(Node *n);
};
static ALLEGROCL *allegrocl = 0;
static String *trim(String *str) {
char *c = Char(str);
while (*c != '\0' && isspace((int) *c))
++c;
String *result = NewString(c);
Chop(result);
return result;
}
int is_integer(String *s) {
char *c = Char(s);
if (c[0] == '#' && (c[1] == 'x' || c[1] == 'o'))
c += 2;
while (*c) {
if (!isdigit(*c))
return 0;
c++;
}
return 1;
}
String *class_from_class_or_class_ref(String *type) {
SwigType *stripped = SwigType_strip_qualifiers(type);
if (SwigType_isclass(stripped))
return stripped;
if (SwigType_ispointer(stripped) || SwigType_isreference(stripped)) {
// Printf(stderr,"It is a pointer/reference. Is it a class?\n");
SwigType_pop(stripped);
if (SwigType_isclass(stripped)) {
return stripped;
}
}
return 0;
}
String *lookup_defined_foreign_type(String *k) {
#ifdef ALLEGROCL_TYPE_DEBUG
Printf(stderr, "Looking up defined type '%s'.\n Found: '%s'\n", k, Getattr(defined_foreign_types, k));
#endif
return Getattr(defined_foreign_types, k);
}
String *listify_namespace(String *namespaze) {
if (Len(namespaze) == 0)
return NewString("()");
String *result = NewStringf("(\"%s\")", namespaze);
Replaceall(result, "::", "\" \"");
return result;
}
String *namespaced_name(Node *n, String *ns = current_namespace) {
return NewStringf("%s%s%s", ns, (Len(ns) != 0) ? "::" : "", Getattr(n, "sym:name"));
}
// "Namespace::Nested::Class2::Baz" -> "Baz"
static String *strip_namespaces(String *str) {
SwigType *new_type = Copy(str);
SwigType *leading_type = SwigType_pop(new_type);
char *result = Char(leading_type);
if(SwigType_istemplate(leading_type)) {
result = Char(SwigType_templateprefix(leading_type));
} else {
if (!SwigType_issimple(leading_type))
return NewString(str);
}
String *stripped_one;
while ((stripped_one = Strstr(result, "::")))
result = Char(stripped_one) + 2;
if(SwigType_istemplate(leading_type)) {
SwigType_push(new_type, NewStringf("%s%s%s", result, SwigType_templateargs(leading_type),
SwigType_templatesuffix(leading_type)));
return new_type;
}
return NewString(result);
}
static String *namespace_of(String *str) {
char *p = Char(str);
char *start = Char(str);
char *result = 0;
String *stripped_one;
while ((stripped_one = Strstr(p, "::"))) {
p = Char(stripped_one) + 2;
}
if (p > start) {
int len = p - start - 1;
result = (char *) malloc(len);
strncpy(result, start, len - 1);
result[len - 1] = 0;
}
return Char(result);
}
void add_linked_type(Node *n) {
#ifdef ALLEGROCL_CLASS_DEBUG
Printf(stderr, "Adding linked node of type: %s(%s) %s(%x)\n\n", nodeType(n), Getattr(n, "storage"), Getattr(n, "name"), n);
// Swig_print_node(n);
#endif
if (!first_linked_type) {
first_linked_type = n;
Setattr(n, "allegrocl:last_linked_type", n);
} else {
Node *t = Getattr(first_linked_type, "allegrocl:last_linked_type");
Setattr(t, "allegrocl:next_linked_type", n);
Setattr(first_linked_type, "allegrocl:last_linked_type", n);
}
}
void replace_linked_type(Node *old, Node *new_node) {
Node *prev = Getattr(old, "allegrocl:prev_linked_type");
Setattr(new_node, "allegrocl:next_linked_type", Getattr(old, "allegrocl:next_linked_type"));
if (prev)
Setattr(prev, "allegrocl:next_linked_type", new_node);
Delattr(old, "allegrocl:next_linked_type");
Delattr(old, "allegrocl:prev_linked_type");
// check if we're replacing the first link.
if (first_linked_type == old) {
first_linked_type = new_node;
Setattr(first_linked_type, "allegrocl:last_linked_type", Getattr(old, "allegrocl:last_linked_type"));
}
// check if we're replacing the last link.
if (Getattr(first_linked_type, "allegrocl:last_linked_type") == old)
Setattr(first_linked_type, "allegrocl:last_linked_type", new_node);
}
void insert_linked_type_at(Node *old, Node *new_node, int before = 1) {
Node *p = 0;
if (!first_linked_type) {
add_linked_type(new_node);
return;
}
if (!before) {
Setattr(new_node, "allegrocl:next_linked_type", Getattr(old, "allegrocl:next_linked_type"));
Setattr(old, "allegrocl:next_linked_type", new_node);
if (Getattr(first_linked_type, "allegrocl:last_linked_type") == old)
Setattr(first_linked_type, "allegrocl:last_linked_type", new_node);
} else {
Node *c = first_linked_type;
while (c) {
if (c == old) {
break;
} else {
p = c;
c = Getattr(c, "allegrocl:next_linked_type");
}
}
if (c == old) {
Setattr(new_node, "allegrocl:next_linked_type", c);
if (first_linked_type == c) {
first_linked_type = new_node;
Setattr(first_linked_type, "allegrocl:last_linked_type", Getattr(c, "allegrocl:last_linked_type"));
Delattr(c, "allegrocl:last_linked_type");
}
if (p)
Setattr(p, "allegrocl:next_linked_type", new_node);
}
}
}
Node *find_linked_type_by_name(String *name) {
Node *p = 0;
Node *c = first_linked_type;
// Printf(stderr,"in find_linked_type_by_name '%s'...", name);
while (c) {
String *key = Getattr(c, "name");
if (!Strcmp(key, name)) {
break;
} else {
p = c;
c = Getattr(c, "allegrocl:next_linked_type");
}
}
// Printf(stderr,"exit find_linked_type_by_name.\n");
if (p && c)
Setattr(c, "allegrocl:prev_linked_type", p);
// Printf(stderr,"find_linked_type_by_name: DONE\n");
return c;
}
Node *get_primary_synonym_of(Node *n) {
Node *p = Getattr(n, "allegrocl:synonym-of");
Node *prim = n;
// Printf(stderr, "getting primary synonym of %x\n", n);
while (p) {
// Printf(stderr, " found one! %x\n", p);
prim = p;
p = Getattr(p, "allegrocl:synonym-of");
}
// Printf(stderr,"get_primary_syn: DONE. returning %s(%x)\n", Getattr(prim,"name"),prim);
return prim;
}
void add_forward_referenced_type(Node *n, int overwrite = 0) {
String *k = Getattr(n, "name");
String *name = Getattr(n, "sym:name");
String *ns = listify_namespace(current_namespace);
String *val = Getattr(defined_foreign_types, k);
if (!val || overwrite) {
#ifdef ALLEGROCL_TYPE_DEBUG
Printf(stderr, "Adding forward reference for %s (overwrite=%d)\n", k, overwrite);
#endif
Setattr(defined_foreign_types, Copy(k), NewString("forward-reference"));
String *mangled_lname_gen = NewStringf("#.(swig-insert-id \"%s\" %s :type :class)", name, ns);
Setattr(defined_foreign_ltypes, Copy(k), mangled_lname_gen);
// Printf(f_cl, ";; forward reference stub\n"
// "(swig-def-foreign-class \"%s\" (ff:foreign-pointer) (:class ))\n\n"
// , name);
#ifdef ALLEGROCL_CLASS_DEBUG
Printf(stderr, "Linking forward reference type = %s(%x)\n", k, n);
#endif
add_linked_type(n);
}
}
void add_defined_foreign_type(Node *n, int overwrite = 0, String *k = 0,
String *name = 0, String *ns = current_namespace) {
String *val;
String *ns_list = listify_namespace(ns);
String *templated = n ? Getattr(n, "template") : 0;
String *cDeclName = n ? Getattr(n, "name") : 0;
#ifdef ALLEGROCL_CLASS_DEBUG
Printf(stderr, "IN A-D-F-T. (n=%x, ow=%d, k=%s, name=%s, ns=%s\n", n, overwrite, k, name, ns);
Printf(stderr, " templated = '%x', classDecl = '%x'\n", templated, cDeclName);
#endif
if (n) {
if (!name)
name = Getattr(n, "sym:name");
if (!name)
name = strip_namespaces(Getattr(n, "name"));
if (templated) {
k = namespaced_name(n);
} else {
String *kind_of_type = Getattr(n, "kind");
/*
For typedefs of the form:
typedef struct __xxx { ... } xxx;
behavior differs between C mode and C++ mode.
C Mode:
add_defined_foreign_type will be called once via classHandler
to define the type for 'struct __xxx' and add the mapping from
'struct __xxx' -> 'xxx'
It will also be called once via typedefHandler to add the
mapping 'xxx' -> 'xxx'
C++ Mode:
add_defined_foreign_type will be called once via classHandler
to define the type for 'xxx'. it also adds the mapping from
'xxx' -> 'xxx' and also for 'struct xxx' -> 'xxx'
In typedefHandler, we again try to add the mapping from
'xxx' -> 'xxx', which already exists. This second mapping
is ignored.
Both modes:
All references to this typedef'd struct will appear in
generated lisp code as an objectd of type 'xxx'. For
non-typedef'd structs, the classHand mapping will be
struct __xxx -> (swig-insert-id "__xxx")
*/
// Swig_print_node(n);
String *unnamed = Getattr(n, "unnamed");
if (kind_of_type && (!Strcmp(kind_of_type, "struct")
|| !Strcmp(kind_of_type, "union")) && cDeclName && !unnamed) {
k = NewStringf("%s %s", kind_of_type, cDeclName);
} else {
if (!Strcmp(nodeType(n), "enum") && unnamed) {
name = NewStringf("%s%d", anon_type_name, anon_type_count++);
k = NewStringf("enum %s", name);
Setattr(n, "allegrocl:name", name);
} else {
k = k ? k : Getattr(n, "name");
}
}
}
// Swig_print_node(n);
}
String *tname = SwigType_istemplate_templateprefix(name);
if (tname) {
String *temp = strip_namespaces(tname);
name = NewStringf("%s%s%s", temp, SwigType_templateargs(name), SwigType_templatesuffix(name));
Delete(temp);
Delete(tname);
}
val = lookup_defined_foreign_type(k);
int is_fwd_ref = 0;
if (val)
is_fwd_ref = !Strcmp(val, "forward-reference");
if (!val || overwrite || is_fwd_ref) {
#ifdef ALLEGROCL_CLASS_DEBUG
Printf(stderr, "Adding defined type '%s' = '%s' '%s' (overwrite=%d, in-class=%d)\n", k, ns, name, overwrite, in_class);
#endif
String *mangled_name_gen = NewStringf("#.(swig-insert-id \"%s\" %s :type :type)", name, ns_list);
String *mangled_lname_gen = NewStringf("#.(swig-insert-id \"%s\" %s :type :class)", name, ns_list);
Setattr(defined_foreign_types, Copy(k), Copy(mangled_name_gen));
Setattr(defined_foreign_ltypes, Copy(k), Copy(mangled_lname_gen));
if (CPlusPlus) {
bool cpp_struct = Strstr(k, "struct ") ? true : false;
bool cpp_union = Strstr(k, "union ") ? true : false;
String *cpp_type = 0;
if (cpp_struct) {
cpp_type = Copy(k);
Replaceall(cpp_type, "struct ", "");
} else if (cpp_union) {
cpp_type = Copy(k);
Replaceall(cpp_type, "union ", "");
}
if (cpp_struct || cpp_union) {
#ifdef ALLEGROCL_CLASS_DEBUG
Printf(stderr, " Also adding defined type '%s' = '%s' '%s' (overwrite=%d)\n", cpp_type, ns, name, overwrite);
#endif
Setattr(defined_foreign_types, Copy(cpp_type), Copy(mangled_name_gen));
Setattr(defined_foreign_ltypes, Copy(cpp_type), Copy(mangled_lname_gen));
}
}
#ifdef ALLEGROCL_CLASS_DEBUG
Printf(stderr, "looking to add %s/%s(%x) to linked_type_list...\n", k, name, n);
#endif
if (is_fwd_ref) {
// Printf(stderr,"*** 1\n");
add_linked_type(n);
} else {
// Printf(stderr,"*** 1-a\n");
if (SwigType_istemplate(k)) {
SwigType *resolved = SwigType_typedef_resolve_all(k);
// Printf(stderr,"*** 1-b\n");
Node *match = find_linked_type_by_name(resolved);
Node *new_node = 0;
// Printf(stderr, "*** temp-1\n");
if (n) {
new_node = n;
} else {
#ifdef ALLEGROCL_CLASS_DEBUG
Printf(stderr, "Creating a new templateInst:\n");
Printf(stderr, " name = %s\n", resolved);
Printf(stderr, " sym:name = %s\n", name);
Printf(stderr, " real-name = %s\n", k);
Printf(stderr, " type = %s\n", resolved);
Printf(stderr, " ns = %s\n\n", ns);
#endif
new_node = NewHash();
Setattr(new_node, "nodeType", "templateInst");
Setattr(new_node, "name", Copy(resolved));
Setattr(new_node, "sym:name", Copy(name));
Setattr(new_node, "real-name", Copy(k));
Setattr(new_node, "type", Copy(resolved));
Setattr(new_node, "allegrocl:namespace", ns);
Setattr(new_node, "allegrocl:package", ns);
}
if (!match) {
if (!Strcmp(nodeType(new_node), "templateInst") && in_class) {
/* this is an implicit template instantiation found while
walking a class. need to insert this into the
linked_type list before the current class definition */
#ifdef ALLEGROCL_CLASS_DEBUG
Printf(stderr, "trying to insert a templateInst before a class\n");
#endif
insert_linked_type_at(in_class, new_node);
#ifdef ALLEGROCL_CLASS_DEBUG
Printf(stderr, "DID IT!\n");
#endif
} else {
// Printf(stderr,"*** 3\n");
add_linked_type(new_node);
}
Setattr(new_node, "allegrocl:synonym:is-primary", "1");
} else {
// a synonym type was found (held in variable 'match')
// Printf(stderr, "setting primary synonym of %x to %x\n", new_node, match);
if (new_node == match)
Printf(stderr, "Hey-4 * - '%s' is a synonym of iteself!\n", Getattr(new_node, "name"));
Setattr(new_node, "allegrocl:synonym-of", match);
// Printf(stderr,"*** 4\n");
add_linked_type(new_node);
}
} else {
Node *match;
if (!Strcmp(nodeType(n), "cdecl") && !Strcmp(Getattr(n, "storage"), "typedef")) {
SwigType *type = SwigType_strip_qualifiers(Getattr(n, "type"));
#ifdef ALLEGROCL_CLASS_DEBUG
Printf(stderr, "Examining typedef '%s' for class references. (%d)\n", type, SwigType_isclass(type));
#endif
if (SwigType_isclass(type)) {
#ifdef ALLEGROCL_CLASS_DEBUG
Printf(stderr, "Found typedef of a class '%s'\n", type);
#endif
/*
For the following parsed expression:
typedef struct __xxx { ... } xxx;
if n is of kind "class" (defining the class 'struct __xxx'
then we add n to the linked type list.
if n is "cdecl" node of storage "typedef" (to note
that xxx is equivalent to 'struct __xxx' then we don't
want to add this node to the linked type list.
*/
String *defined_type = lookup_defined_foreign_type(type);
String *defined_key_type = lookup_defined_foreign_type(k);
if ((Strstr(type, "struct ") || Strstr(type, "union "))
&& defined_type && !Strcmp(defined_type, defined_key_type)) {
// mark as a synonym but don't add to linked_type list
// Printf(stderr,"*** 4.8\n");
Setattr(n, "allegrocl:synonym", "1");
} else {
SwigType *lookup_type = SwigType_istemplate(type) ? SwigType_typedef_resolve_all(type) : Copy(type);
match = find_linked_type_by_name(lookup_type);
if (match) {
Setattr(n, "allegrocl:synonym", "1");
Setattr(n, "allegrocl:synonym-of", match);
Setattr(n, "real-name", Copy(lookup_type));
// Printf(stderr, "*** pre-5: found match of '%s'(%x)\n", Getattr(match,"name"),match);
// if(n == match) Printf(stderr, "Hey-5 *** setting synonym of %x to %x\n", n, match);
// Printf(stderr,"*** 5\n");
add_linked_type(n);
} else {
#ifdef ALLEGROCL_CLASS_DEBUG
Printf(stderr, "Creating classfoward node for struct stub in typedef.\n");
#endif
Node *new_node = NewHash();
String *symname = Copy(type);
Replaceall(symname, "struct ", "");
Setattr(new_node, "nodeType", "classforward");
Setattr(new_node, "name", Copy(type));
Setattr(new_node, "sym:name", symname);
Setattr(new_node, "allegrocl:namespace", ns);
Setattr(new_node, "allegrocl:package", ns);
String *mangled_new_name = NewStringf("#.(swig-insert-id \"%s\" %s)", symname, ns_list);
String *mangled_new_lname = NewStringf("#.(swig-insert-id \"%s\" %s :type :class)", symname, ns_list);
Setattr(defined_foreign_types, Copy(symname), Copy(mangled_new_name));
Setattr(defined_foreign_ltypes, Copy(symname), Copy(mangled_new_lname));
// Printf(stderr,"Weird! Can't find the type!\n");
add_forward_referenced_type(new_node);
add_linked_type(new_node);
Setattr(n, "allegrocl:synonym", "1");
Setattr(n, "allegrocl:synonym-of", new_node);
add_linked_type(n);
}
Delete(lookup_type);
}
} else {
// check if it's a pointer or reference to a class.
// Printf(stderr,"Checking if '%s' is a p. or r. to a class\n", type);
String *class_ref = class_from_class_or_class_ref(type);
if (class_ref) {
match = find_linked_type_by_name(class_ref);
Setattr(n, "allegrocl:synonym", "1");
Setattr(n, "allegrocl:synonym-of", match);
add_linked_type(n);
}
}
Delete(type);
// synonym types have already been added.
// Printf(stderr,"*** 10\n");
if (!Getattr(n, "allegrocl:synonym"))
add_linked_type(n);
} else if (Getattr(n, "template")) {
// Printf(stderr, "this is a class template node(%s)\n", nodeType(n));
String *resolved = SwigType_typedef_resolve_all(Getattr(n, "name"));
#ifdef ALLEGROCL_CLASS_DEBUG
Printf(stderr, " looking up %s for linked type match with %s...\n", Getattr(n, "sym:name"), resolved);
#endif
match = find_linked_type_by_name(resolved);
if (!match) {
#ifdef ALLEGROCL_CLASS_DEBUG
Printf(stderr, "found no implicit instantiation of %%template node %s(%x)\n", Getattr(n, "name"), n);
#endif
add_linked_type(n);
} else {
Node *primary = get_primary_synonym_of(match);
Setattr(n, "allegrocl:synonym:is-primary", "1");
Delattr(primary, "allegrocl:synonym:is-primary");
if (n == match)
Printf(stderr, "Hey-7 * setting synonym of %x to %x\n (match = %x)", primary, n, match);
Setattr(primary, "allegrocl:synonym-of", n);
// Printf(stderr,"*** 7\n");
add_linked_type(n);
}
} else {
#ifdef ALLEGROCL_CLASS_DEBUG
Printf(stderr, "linking type '%s'(%x)\n", k, n);
#endif
// Printf(stderr,"*** 8\n");
add_linked_type(n);
}
}
}
Delete(mangled_name_gen);
Delete(mangled_lname_gen);
} else {
if (!CPlusPlus || Strcmp(Getattr(n,"kind"),"typedef")) {
Swig_warning(WARN_TYPE_REDEFINED, Getfile(n), Getline(n),
"Attempting to store a foreign type that exists: %s (%s)\n",
k, val);
}
}
Delete(ns_list);
#ifdef ALLEGROCL_CLASS_DEBUG
Printf(stderr, "OUT A-D-F-T\n");
#endif
}
void note_implicit_template_instantiation(SwigType *t) {
// the namespace of the implicit instantiation is not necessarily
// current_namespace. Attempt to cull this from the type.
#ifdef ALLEGROCL_CLASS_DEBUG
Printf(stderr, "culling namespace of '%s' from '%s'\n", t, SwigType_templateprefix(t));
#endif
SwigType *type = Copy(t);
SwigType *tok = SwigType_pop(type);
String *implicit_ns = SwigType_istemplate(tok) ? namespace_of(SwigType_templateprefix(tok)) : 0;
add_defined_foreign_type(0, 0, t, t, implicit_ns ? implicit_ns : current_namespace);
Delete(type);
}
String *get_ffi_type(Node *n, SwigType *ty, const_String_or_char_ptr name) {
/* lookup defined foreign type.
if it exists, it will return a form suitable for placing
into lisp code to generate the def-foreign-type name */
#ifdef ALLEGROCL_TYPE_DEBUG
Printf(stderr, "inside g_f_t: looking up '%s' '%s'\n", ty, name);
#endif
String *found_type = lookup_defined_foreign_type(ty);
if (found_type) {
#ifdef ALLEGROCL_TYPE_DEBUG
Printf(stderr, "found_type '%s'\n", found_type);
#endif
return (Strcmp(found_type, "forward-reference") ? Copy(found_type) : get_ffi_type(n, fwdref_ffi_type, ""));
} else {
Node *node = NewHash();
Setattr(node, "type", ty);
Setfile(node, Getfile(n));
Setline(node, Getline(n));
const String *tm = Swig_typemap_lookup("ffitype", node, name, 0);
Delete(node);
if (tm) {
#ifdef ALLEGROCL_TYPE_DEBUG
Printf(stderr, "g-f-t: found ffitype typemap '%s'\n", tm);
#endif
return NewString(tm);
}
if (SwigType_istemplate(ty)) {
note_implicit_template_instantiation(ty);
return Copy(lookup_defined_foreign_type(ty));
}
}
return 0;
}
String *lookup_defined_foreign_ltype(String *l) {
#ifdef ALLEGROCL_TYPE_DEBUG
Printf(stderr, "Looking up defined ltype '%s'.\n Found: '%s'\n", l, Getattr(defined_foreign_ltypes, l));
#endif
return Getattr(defined_foreign_ltypes, l);
}
/* walk type and return string containing lisp version.
recursive. */
String *internal_compose_foreign_type(Node *n, SwigType *ty) {
SwigType *tok;
String *ffiType = NewString("");
// for a function type, need to walk the parm list.
while (Len(ty) != 0) {
tok = SwigType_pop(ty);
if (SwigType_isfunction(tok)) {
// Generate Function wrapper
Printf(ffiType, "(:function ");
// walk parm list
List *pl = SwigType_parmlist(tok);
Printf(ffiType, "("); // start parm list
for (Iterator i = First(pl); i.item; i = Next(i)) {
SwigType *f_arg = SwigType_strip_qualifiers(i.item);
Printf(ffiType, "%s ", internal_compose_foreign_type(n, f_arg));
Delete(f_arg);
}
Printf(ffiType, ")"); // end parm list.
// do function return type.
Printf(ffiType, " %s)", internal_compose_foreign_type(n, ty));
break;
} else if (SwigType_ispointer(tok) || SwigType_isreference(tok)) {
Printf(ffiType, "(* %s)", internal_compose_foreign_type(n, ty));
} else if (SwigType_isarray(tok)) {
Printf(ffiType, "(:array %s", internal_compose_foreign_type(n, ty));
String *atype = NewString("int");
String *dim = convert_literal(SwigType_array_getdim(tok, 0), atype);
Delete(atype);
if (is_integer(dim)) {
Printf(ffiType, " %s)", dim);
} else {
Printf(ffiType, " #| %s |#)", SwigType_array_getdim(tok, 0));
}
} else if (SwigType_ismemberpointer(tok)) {
// temp
Printf(ffiType, "(* %s)", internal_compose_foreign_type(n, ty));
} else {
String *res = get_ffi_type(n, tok, "");
if (res) {
Printf(ffiType, "%s", res);
} else {
SwigType *resolved_type = SwigType_typedef_resolve_all(tok);
if (Cmp(resolved_type, tok) != 0) {
res = get_ffi_type(n, resolved_type, "");
if (res) {
} else {
res = internal_compose_foreign_type(n, resolved_type);
}
if (res)
Printf(ffiType, "%s", res);
}
if (!res) {
String *is_struct = 0;
String *tok_remove_text = 0;
String *tok_name = Copy(tok);
String *tok_key = SwigType_str(tok,0);
if ((is_struct = Strstr(tok_key, "struct ")) || Strstr(tok_key, "union ")) {
tok_remove_text = NewString(is_struct ? "struct " : "union ");
}
/* be more permissive of opaque types. This is the swig way.
compiles will notice if these types are ultimately not
present. */
if(tok_remove_text) {
Replaceall(tok_name,tok_remove_text,"");
}
tok_name = strip_namespaces(tok_name);
Delete(tok_remove_text);
// Swig_warning(WARN_TYPE_UNDEFINED_CLASS, Getfile(tok), Getline(tok), "Unable to find definition of '%s', assuming forward reference.\n", tok);
#ifdef ALLEGROCL_TYPE_DEBUG
Printf(stderr, "i-c-f-t: adding forward reference for unknown type '%s'. mapping: %s -> %s\n", tok, tok_key, tok_name);
#endif
Node *nn = NewHash();
Setattr(nn,"nodeType","classforward");
Setattr(nn,"kind","class");
Setattr(nn,"sym:name",tok_name);
Setattr(nn,"name",tok_key);
Setattr(nn,"allegrocl:package",current_namespace);
add_forward_referenced_type(nn, 0);
// tok_name is dangling here, unused. ouch. why?
Printf(ffiType, "%s", get_ffi_type(n, tok, ""), tok_name);
}
}
}
}
return ffiType;
}
String *compose_foreign_type(Node *n, SwigType *ty, String * /*id*/ = 0) {
#ifdef ALLEGROCL_TYPE_DEBUG
Printf(stderr, "compose_foreign_type: ENTER (%s)...\n ", ty);
// Printf(stderr, "compose_foreign_type: ENTER (%s)(%s)...\n ", ty, (id ? id : 0));
/* String *id_ref = SwigType_str(ty, id);
Printf(stderr, "looking up typemap for %s, found '%s'(%x)\n",
id_ref, lookup_res ? Getattr(lookup_res, "code") : 0, lookup_res);
if (lookup_res) Swig_print_node(lookup_res);
*/
#endif
/* should we allow named lookups in the typemap here? YES! */
/* unnamed lookups should be found in get_ffi_type, called
by internal_compose_foreign_type(), below. */
/* I'm reverting to 'no' for the question above. I can no longer
remember why I needed it. If a user needed it, I'll find out
as soon as they upgrade. Sigh. -mutandiz 9/16/2008. */
/*
if(id && lookup_res) {
#ifdef ALLEGROCL_TYPE_DEBUG
Printf(stderr, "compose_foreign_type: EXIT-1 (%s)\n ", Getattr(lookup_res, "code"));
#endif
return NewString(Getattr(lookup_res, "code"));
}
*/
SwigType *temp = SwigType_strip_qualifiers(ty);
String *res = internal_compose_foreign_type(n, temp);
Delete(temp);
#ifdef ALLEGROCL_TYPE_DEBUG
Printf(stderr, "compose_foreign_type: EXIT (%s)\n ", res);
#endif
return res;
}
void update_package_if_needed(Node *n, File *f = f_clwrap) {
#ifdef ALLEGROCL_DEBUG
Printf(stderr, "update_package: ENTER... \n");
Printf(stderr, " current_package = '%s'\n", current_package);
Printf(stderr, " node_package = '%s'\n", Getattr(n, "allegrocl:package"));
Printf(stderr, " node(%x) = '%s'\n", n, Getattr(n, "name"));
#endif
String *node_package = Getattr(n, "allegrocl:package");
if (Strcmp(current_package, node_package)) {
String *lispy_package = listify_namespace(node_package);
Delete(current_package);
current_package = Copy(node_package);
Printf(f, "\n(swig-in-package %s)\n", lispy_package);
Delete(lispy_package);
}
#ifdef ALLEGROCL_DEBUG
Printf(stderr, "update_package: EXIT.\n");
#endif
}
static String *mangle_name(Node *n, char const *prefix = "ACL", String *ns = current_namespace) {
String *suffix = Getattr(n, "sym:overname");
String *pre_mangled_name = NewStringf("%s_%s__%s%s", prefix, ns, Getattr(n, "sym:name"), suffix);
String *mangled_name = Swig_name_mangle(pre_mangled_name);
Delete(pre_mangled_name);
return mangled_name;
}
/* utilities */
/* remove a pointer from ffitype. non-destructive.
(* :char) ==> :char
(* (:array :int 30)) ==> (:array :int 30) */
String *dereference_ffitype(String *ffitype) {
char *start;
char *temp = Char(ffitype);
String *reduced_type = 0;
if(temp && temp[0] == '(' && temp[1] == '*') {
temp += 2;
// walk past start of pointer references
while(*temp == ' ') temp++;
start = temp;
// temp = Char(reduced_type);
reduced_type = NewString(start);
temp = Char(reduced_type);
// walk to end of string. remove closing paren
while(*temp != '\0') temp++;
*(--temp) = '\0';
}
return reduced_type ? reduced_type : Copy(ffitype);
}
/* returns new string w/ parens stripped */
String *strip_parens(String *string) {
string = Copy(string);
Replaceall(string, "(", "");
Replaceall(string, ")", "");
return string;
}
int ALLEGROCL::validIdentifier(String *s) {
#ifdef ALLEGROCL_DEBUG
Printf(stderr, "validIdentifier %s\n", s);
#endif
char *c = Char(s);
bool got_dot = false;
bool only_dots = true;
/* Check that s is a valid common lisp symbol. There's a lot of leeway here.
A common lisp symbol is essentially any token that's not a number and
does not consist of only dots.
We are expressly not allowing spaces in identifiers here, but spaces
could be added via the identifier converter. */
while (*c) {
if (*c == '.') {
got_dot = true;
} else {
only_dots = false;
}
if (!isgraph(*c))
return 0;
c++;
}
return (got_dot && only_dots) ? 0 : 1;
}
String *infix_to_prefix(String *val, char split_op, const String *op, String *type) {
List *ored = Split(val, split_op, -1);
// some float hackery
if (((split_op == '+') || (split_op == '-')) && Len(ored) == 2 &&
(SwigType_type(type) == T_FLOAT || SwigType_type(type) == T_DOUBLE || SwigType_type(type) == T_LONGDOUBLE)) {
// check that we're not splitting a float
String *possible_result = convert_literal(val, type, false);
if (possible_result)
return possible_result;
}
// try parsing the split results. if any part fails, kick out.
bool part_failed = false;
if (Len(ored) > 1) {
String *result = NewStringf("(%s", op);
for (Iterator i = First(ored); i.item; i = Next(i)) {
String *converted = convert_literal(i.item, type);
if (converted) {
Printf(result, " %s", converted);
Delete(converted);
} else {
part_failed = true;
break;
}
}
Printf(result, ")");
Delete(ored);
return part_failed ? 0 : result;
}
Delete(ored);
return 0;
}
/* To be called by code generating the lisp interface
Will return a containing the literal based on type.
Will return null if there are problems.
try_to_split defaults to true (see stub above).
*/
String *convert_literal(String *literal, String *type, bool try_to_split) {
String *num_param = Copy(literal);
String *trimmed = trim(num_param);
String *num = strip_parens(trimmed), *res = 0;
char *s = Char(num);
String *ns = listify_namespace(current_namespace);
// very basic parsing of infix expressions.
if (try_to_split && SwigType_type(type) != T_STRING) {
if ((res = infix_to_prefix(num, '|', "logior", type)))
return res;
if ((res = infix_to_prefix(num, '&', "logand", type)))
return res;
if ((res = infix_to_prefix(num, '^', "logxor", type)))
return res;
if ((res = infix_to_prefix(num, '*', "*", type)))
return res;
if ((res = infix_to_prefix(num, '/', "/", type)))
return res;
if ((res = infix_to_prefix(num, '+', "+", type)))
return res;
if ((res = infix_to_prefix(num, '-', "-", type)))
return res;
// if ((res = infix_to_prefix(num, '~', "lognot", type))) return res;
// if( (res = infix_to_prefix(num, '<<', "ash", type)) ) return res;
}
// unary complement...
if (s[0] == '~' && Len(num) >= 2) {
String *id = NewString(++s);
String *id_conv = convert_literal(id, type, false);
Delete(id);
if (id_conv)
return NewStringf("(lognot %s)", id_conv);
s--;
}
if (SwigType_type(type) == T_FLOAT || SwigType_type(type) == T_DOUBLE || SwigType_type(type) == T_LONGDOUBLE) {
// Use CL syntax for float literals
String *oldnum = Copy(num);
// careful. may be a float identifier or float constant.
char *num_start = Char(num);
char *num_end = num_start + strlen(num_start) - 1;
bool is_literal = isdigit(*num_start) || (*num_start == '.');
String *lisp_exp = 0;
if (is_literal) {
if (*num_end == 'f' || *num_end == 'F') {
lisp_exp = NewString("f");
} else {
lisp_exp = NewString("d");
}
if (*num_end == 'l' || *num_end == 'L' || *num_end == 'f' || *num_end == 'F') {
*num_end = '\0';
num_end--;
}
int exponents = Replaceall(num, "e", lisp_exp) + Replaceall(num, "E", lisp_exp);
if (!exponents)
Printf(num, "%s0", lisp_exp);
if (exponents > 1 || (exponents + Replaceall(num, ".", ".") == 0)) {
// Printf(stderr, "Can't parse '%s' as type '%s'.\n", oldnum, type);
Delete(num);
num = 0;
}
Delete(lisp_exp);
} else {
String *id = NewStringf("#.(swig-insert-id \"%s\" %s :type :constant)",
num, ns);
Delete(num);
num = id;
}
Delete(oldnum);
Delete(trimmed);
Delete(ns);
return num;
} else if (SwigType_type(type) == T_CHAR) {
/* Use CL syntax for character literals */
Delete(num);
Delete(trimmed);
return NewStringf("#\\%s", num_param);
} else if (SwigType_type(type) == T_STRING) {
/* Use CL syntax for string literals */
Delete(num);
Delete(trimmed);
return NewStringf("\"%s\"", num_param);
} else if (Len(num) >= 1 && (isdigit(s[0]) || s[0] == '+' || s[0] == '-')) {
/* use CL syntax for numbers */
String *oldnum = Copy(num);
int usuffixes = Replaceall(num, "u", "") + Replaceall(num, "U", "");
int lsuffixes = Replaceall(num, "l", "") + Replaceall(num, "L", "");
if (usuffixes > 1 || lsuffixes > 1) {
Printf(stderr, "Weird!! number %s looks invalid.\n", oldnum);
SWIG_exit(EXIT_FAILURE);
}
s = Char(num);
if (s[0] == '0' && Len(num) >= 2) {
/*octal or hex */
res = NewStringf("#%c%s", tolower(s[1]) == 'x' ? 'x' : 'o', s + 2);
Delete(num);
} else {
res = num;
}
Delete(oldnum);
Delete(trimmed);
return res;
} else if (allegrocl->validIdentifier(num)) {
/* convert C/C++ identifiers to CL symbols */
res = NewStringf("#.(swig-insert-id \"%s\" %s :type :constant)", num, ns);
Delete(num);
Delete(trimmed);
Delete(ns);
return res;
} else {
Delete(trimmed);
return num;
}
}
void emit_stub_class(Node *n) {
#ifdef ALLEGROCL_WRAP_DEBUG
Printf(stderr, "emit_stub_class: ENTER... '%s'(%x)\n", Getattr(n, "sym:name"), n);
Swig_print_node(n);
#endif
String *name = Getattr(n, "sym:name");
if (Getattr(n, "allegrocl:synonym:already-been-stubbed"))
return;
String *tname = SwigType_istemplate_templateprefix(name);
if (tname) {
String *temp = strip_namespaces(tname);
name = NewStringf("%s%s%s", temp, SwigType_templateargs(name), SwigType_templatesuffix(name));
Delete(temp);
Delete(tname);
} else {
name = strip_namespaces(name);
}
// Printf(f_clhead, ";; from emit-stub-class\n");
update_package_if_needed(n, f_clhead);
Printf(f_clhead, ";; class template stub.\n");
Printf(f_clhead, "(swig-def-foreign-stub \"%s\")\n", name);
Setattr(n, "allegrocl:synonym:already-been-stubbed", "1");
#ifdef ALLEGROCL_WRAP_DEBUG
Printf(stderr, "emit_stub_class: EXIT\n");
#endif
}
void emit_synonym(Node *synonym) {
#ifdef ALLEGROCL_WRAP_DEBUG
Printf(stderr, "emit_synonym: ENTER... \n");
#endif
// Printf(stderr,"in emit_synonym for %s(%x)\n", Getattr(synonym,"name"),synonym);
int is_tempInst = !Strcmp(nodeType(synonym), "templateInst");
String *synonym_type;
Node *of = get_primary_synonym_of(synonym);
if (is_tempInst) {
// Printf(stderr, "*** using real-name '%s'\n", Getattr(synonym,"real-name"));
synonym_type = Getattr(synonym, "real-name");
} else {
// Printf(stderr, "*** using name '%s'\n", Getattr(synonym,"name"));
synonym_type = Getattr(synonym, "name");
}
String *synonym_ns = listify_namespace(Getattr(synonym, "allegrocl:namespace"));
String *syn_ltype, *syn_type, *of_ltype;
// String *of_cdeclname = Getattr(of,"allegrocl:classDeclarationName");
String *of_ns = Getattr(of, "allegrocl:namespace");
String *of_ns_list = listify_namespace(of_ns);
// String *of_name = of_cdeclname ? NewStringf("struct %s", Getattr(of,"name")) : NewStringf("%s::%s", of_ns, Getattr(of,"sym:name"));
// String *of_name = NewStringf("%s::%s", of_ns, Getattr(of,"sym:name"));
String *of_name = namespaced_name(of, of_ns);
if (CPlusPlus && !Strcmp(nodeType(synonym), "cdecl")) {
syn_ltype = NewStringf("#.(swig-insert-id \"%s\" %s :type :class)",
strip_namespaces(Getattr(synonym, "real-name")), synonym_ns);
syn_type = NewStringf("#.(swig-insert-id \"%s\" %s :type :type)",
strip_namespaces(Getattr(synonym, "real-name")), synonym_ns);
} else {
syn_ltype = lookup_defined_foreign_ltype(synonym_type);
syn_type = lookup_defined_foreign_type(synonym_type);
}
of_ltype = lookup_defined_foreign_ltype(of_name);
// Printf(stderr,";; from emit-synonym syn='%s' of_ltype='%s'\n", syn_ltype, of_ltype);
if( of_ltype )
Printf(f_clhead, "(swig-def-synonym-type %s\n %s\n %s)\n", syn_ltype, of_ltype, syn_type);
Delete(synonym_ns);
Delete(of_ns_list);
Delete(of_name);
#ifdef ALLEGROCL_WRAP_DEBUG
Printf(stderr, "emit_synonym: EXIT\n");
#endif
}
void emit_full_class(Node *n) {
#ifdef ALLEGROCL_WRAP_DEBUG
Printf(stderr, "emit_full_class: ENTER... \n");
#endif
String *name = Getattr(n, "sym:name");
String *kind = Getattr(n, "kind");
// Printf(stderr,"in emit_full_class: '%s'(%x).", Getattr(n,"name"),n);
if (Getattr(n, "allegrocl:synonym-of")) {
// Printf(stderr,"but it's a synonym of something.\n");
update_package_if_needed(n, f_clhead);
emit_synonym(n);
return;
}
// collect superclasses
String *bases = Getattr(n, "bases");
String *supers = NewString("(");
if (bases) {
int first = 1;
for (Iterator i = First(bases); i.item; i = Next(i)) {
if (!first)
Printf(supers, " ");
String *s = lookup_defined_foreign_ltype(Getattr(i.item, "name"));
// String *name = Getattr(i.item,"name");
if (s) {
Printf(supers, "%s", s);
} else {
#ifdef ALLEGROCL_TYPE_DEBUG
Printf(stderr, "emit_templ_inst: did not find ltype for base class %s (%s)", Getattr(i.item, "name"), Getattr(n, "allegrocl:namespace"));
#endif
}
}
} else {
Printf(supers, "ff:foreign-pointer");
}
// check for "feature:aclmixins" and add those as well.
Printf(supers, " %s)", Getattr(n,"feature:aclmixins"));
// Walk children to generate type definition.
String *slotdefs = NewString(" ");
#ifdef ALLEGROCL_WRAP_DEBUG
Printf(stderr, " walking children...\n");
#endif
Node *c;
for (c = firstChild(n); c; c = nextSibling(c)) {
String *storage_type = Getattr(c, "storage");
if ((!Strcmp(nodeType(c), "cdecl") && (!storage_type || Strcmp(storage_type, "typedef")))) {
String *access = Getattr(c, "access");
// hack. why would decl have a value of "variableHandler" and now "0"?
String *childDecl = Getattr(c, "decl");
// Printf(stderr,"childDecl = '%s' (%s)\n", childDecl, Getattr(c,"view"));
if (!Strcmp(childDecl, "0"))
childDecl = NewString("");
SwigType *childType;
String *cname;
// don't include types for private slots (yet). spr33959.
if(access && Strcmp(access,"public")) {
childType = NewStringf("int");
cname = NewString("nil");
} else {
childType = NewStringf("%s%s", childDecl, Getattr(c, "type"));
cname = Copy(Getattr(c, "name"));
}
if (!SwigType_isfunction(childType)) {
// Printf(slotdefs, ";;; member functions don't appear as slots.\n ");
// Printf(slotdefs, ";; ");
String *ns = listify_namespace(Getattr(n, "allegrocl:package"));
#ifdef ALLEGROCL_WRAP_DEBUG
Printf(stderr, "slot name = '%s' ns = '%s' class-of '%s' and type = '%s'\n", cname, ns, name, childType);
#endif
Printf(slotdefs, "(#.(swig-insert-id \"%s\" %s :type :slot :class \"%s\") %s)", cname, ns, name, compose_foreign_type(n, childType));
Delete(ns);
if (access && Strcmp(access, "public"))
Printf(slotdefs, " ;; %s member", access);
Printf(slotdefs, "\n ");
}
Delete(childType);
Delete(cname);
}
}
String *ns_list = listify_namespace(Getattr(n, "allegrocl:namespace"));
update_package_if_needed(n, f_clhead);
Printf(f_clhead, "(swig-def-foreign-class \"%s\"\n %s\n (:%s\n%s))\n\n", name, supers, kind, slotdefs);
Delete(supers);
Delete(ns_list);
Setattr(n, "allegrocl:synonym:already-been-stubbed", "1");
#ifdef ALLEGROCL_WRAP_DEBUG
Printf(stderr, "emit_full_class: EXIT\n");
#endif
}
void emit_class(Node *n) {
#ifdef ALLEGROCL_WRAP_DEBUG
Printf(stderr, "emit_class: ENTER... '%s'(%x)\n", Getattr(n, "sym:name"), n);
#endif
int is_tempInst = !Strcmp(nodeType(n), "templateInst");
String *ns_list = listify_namespace(Getattr(n, "allegrocl:namespace"));
String *name = Getattr(n, is_tempInst ? "real-name" : "name");
String *tname = SwigType_istemplate_templateprefix(name);
if (tname) {
String *temp = strip_namespaces(tname);
name = NewStringf("%s%s%s", temp, SwigType_templateargs(name), SwigType_templatesuffix(name));
Delete(temp);
Delete(tname);
} else {
name = strip_namespaces(name);
}
if (Getattr(n, "allegrocl:synonym:is-primary")) {
// Printf(stderr," is primary... ");
if (is_tempInst) {
emit_stub_class(n);
} else {
emit_full_class(n);
}
} else {
// Node *primary = Getattr(n,"allegrocl:synonym-of");
Node *primary = get_primary_synonym_of(n);
if (primary && (primary != n)) {
// Printf(stderr," emitting synonym... ");
emit_stub_class(primary);
update_package_if_needed(n, f_clhead);
emit_synonym(n);
} else {
emit_full_class(n);
}
}
// Printf(stderr,"DONE\n");
Delete(name);
Delete(ns_list);
#ifdef ALLEGROCL_WRAP_DEBUG
Printf(stderr, "emit_class: EXIT\n");
#endif
}
void emit_typedef(Node *n) {
#ifdef ALLEGROCL_WRAP_DEBUG
Printf(stderr, "emit_typedef: ENTER... \n");
#endif
String *name;
String *sym_name = Getattr(n, "sym:name");
String *type = NewStringf("%s%s", Getattr(n, "decl"), Getattr(n, "type"));
String *lisp_type = compose_foreign_type(n, type);
Delete(type);
Node *in_class = Getattr(n, "allegrocl:typedef:in-class");
// Printf(stderr,"in emit_typedef: '%s'(%x).",Getattr(n,"name"),n);
if (Getattr(n, "allegrocl:synonym-of")) {
// Printf(stderr," but it's a synonym of something.\n");
emit_synonym(n);
return;
}
if (in_class) {
String *class_name = Getattr(in_class, "name");
String *tname = SwigType_istemplate_templateprefix(class_name);
if (tname) {
String *temp = strip_namespaces(tname);
class_name = NewStringf("%s%s%s", temp, SwigType_templateargs(class_name), SwigType_templatesuffix(class_name));
Delete(temp);
Delete(tname);
}
name = NewStringf("%s__%s", class_name, sym_name);
Setattr(n, "allegrocl:in-class", in_class);
} else {
name = sym_name ? Copy(sym_name) : Copy(Getattr(n, "name"));
}
// leave these in for now. might want to change these to def-foreign-class at some point.
// Printf(f_clhead, ";; %s\n", SwigType_typedef_resolve_all(lisp_type));
Printf(f_clhead, "(swig-def-foreign-type \"%s\"\n %s)\n", name, lisp_type);
Delete(name);
#ifdef ALLEGROCL_WRAP_DEBUG
Printf(stderr, "emit_typedef: EXIT\n");
#endif
}
void emit_enum_type_no_wrap(Node *n) {
#ifdef ALLEGROCL_WRAP_DEBUG
Printf(stderr, "emit_enum_type_no_wrap: ENTER... \n");
#endif
String *unnamed = Getattr(n, "unnamed");
String *name;
// SwigType *enumtype;
name = unnamed ? Getattr(n, "allegrocl:name") : Getattr(n, "sym:name");
SwigType *tmp = NewStringf("enum %s", unnamed ? unnamed : name);
Node *node = NewHash();
Setattr(node, "type", tmp);
Setfile(node, Getfile(n));
Setline(node, Getline(n));
const String *enumtype = Swig_typemap_lookup("ffitype", node, "", 0);
Delete(node);
Delete(tmp);
if (name) {
String *ns = listify_namespace(current_namespace);
Printf(f_clhead, "(swig-def-foreign-type \"%s\" %s)\n", name, enumtype);
Delete(ns);
// walk children.
Node *c;
for (c = firstChild(n); c; c = nextSibling(c)) {
if (!Getattr(c, "error")) {
String *val = Getattr(c, "enumvalue");
if (!val)
val = Getattr(c, "enumvalueex");
String *converted_val = convert_literal(val, Getattr(c, "type"));
String *valname = Getattr(c, "sym:name");
if (converted_val) {
Printf(f_clhead, "(swig-defconstant \"%s\" %s)\n", valname, converted_val);
Delete(converted_val);
} else {
Swig_warning(WARN_LANG_DISCARD_CONST, Getfile(n), Getline(n), "Unable to parse enum value '%s'. Setting to NIL\n", val);
Printf(f_clhead, "(swig-defconstant \"%s\" nil #| %s |#)\n", valname, val);
}
}
}
}
Printf(f_clhead, "\n");
#ifdef ALLEGROCL_WRAP_DEBUG
Printf(stderr, "emit_enum_type_no_wrap: EXIT\n");
#endif
}
void emit_enum_type(Node *n) {
#ifdef ALLEGROCL_WRAP_DEBUG
Printf(stderr, "emit_enum_type: ENTER... \n");
#endif
if (!Generate_Wrapper) {
emit_enum_type_no_wrap(n);
return;
}
String *unnamed = Getattr(n, "unnamed");
String *name;
// SwigType *enumtype;
name = unnamed ? Getattr(n, "allegrocl:name") : Getattr(n, "sym:name");
SwigType *tmp = NewStringf("enum %s", unnamed ? unnamed : name);
Node *node = NewHash();
Setattr(node, "type", tmp);
Setfile(node, Getfile(n));
Setline(node, Getline(n));
const String *enumtype = Swig_typemap_lookup("ffitype", node, "", 0);
Delete(node);
Delete(tmp);
if (name) {
String *ns = listify_namespace(current_namespace);
Printf(f_clhead, "(swig-def-foreign-type \"%s\" %s)\n", name, enumtype);
Delete(ns);
// walk children.
Node *c;
for(c = firstChild(n); c; c=nextSibling(c)) {
String *mangled_name = mangle_name(c, "ACL_ENUM", Getattr(c,"allegrocl:package"));
Printf(f_clhead, "(swig-defvar \"%s\" \"%s\" :type :constant :ftype :signed-long)\n", Getattr(c, "sym:name"), mangled_name);
Delete(mangled_name);
}
}
#ifdef ALLEGROCL_WRAP_DEBUG
Printf(stderr, "emit_enum_type: EXIT\n");
#endif
}
void emit_default_linked_type(Node *n) {
#ifdef ALLEGROCL_WRAP_DEBUG
Printf(stderr, "emit_default_linked_type: ENTER... \n");
#endif
// catchall for non class types.
if (!Strcmp(nodeType(n), "classforward")) {
Printf(f_clhead, ";; forward referenced stub.\n");
Printf(f_clhead, "(swig-def-foreign-class \"%s\" (ff:foreign-pointer) (:class ))\n\n", Getattr(n, "sym:name"));
} else if (!Strcmp(nodeType(n), "enum")) {
emit_enum_type(n);
} else {
Printf(stderr, "Don't know how to emit node type '%s' named '%s'\n", nodeType(n), Getattr(n, "name"));
}
#ifdef ALLEGROCL_WRAP_DEBUG
Printf(stderr, "emit_default_linked_type: EXIT\n");
#endif
}
void dump_linked_types(File *f) {
Node *n = first_linked_type;
int i = 0;
while (n) {
Printf(f, "%d: (%x) node '%s' name '%s'\n", i++, n, nodeType(n), Getattr(n, "sym:name"));
Node *t = Getattr(n, "allegrocl:synonym-of");
if (t)
Printf(f, " synonym-of %s(%x)\n", Getattr(t, "name"), t);
n = Getattr(n, "allegrocl:next_linked_type");
}
}
void emit_linked_types() {
#ifdef ALLEGROCL_WRAP_DEBUG
Printf(stderr, "emit_linked_types: ENTER... ");
#endif
Node *n = first_linked_type;
while (n) {
String *node_type = nodeType(n);
// Printf(stderr,"emitting node %s(%x) of type %s.", Getattr(n,"name"),n, nodeType(n));
if (!Strcmp(node_type, "class") || !Strcmp(node_type, "templateInst")) {
// may need to emit a stub, so it will update the package itself.
// Printf(stderr," Passing to emit_class.");
emit_class(n);
} else if (!Strcmp(nodeType(n), "cdecl")) {
// Printf(stderr," Passing to emit_typedef.");
update_package_if_needed(n, f_clhead);
emit_typedef(n);
} else {
// Printf(stderr," Passing to default_emitter.");
update_package_if_needed(n, f_clhead);
emit_default_linked_type(n);
}
n = Getattr(n, "allegrocl:next_linked_type");
// Printf(stderr,"returned.\n");
}
#ifdef ALLEGROCL_WRAP_DEBUG
Printf(stderr, "emit_linked_types: EXIT\n");
#endif
}
extern "C" Language *swig_allegrocl(void) {
return (allegrocl = new ALLEGROCL());
}
void ALLEGROCL::main(int argc, char *argv[]) {
int i;
Preprocessor_define("SWIGALLEGROCL 1", 0);
SWIG_library_directory("allegrocl");
SWIG_config_file("allegrocl.swg");
for (i = 1; i < argc; i++) {
if (!strcmp(argv[i], "-identifier-converter")) {
char *conv = argv[i + 1];
if (!conv)
Swig_arg_error();
Swig_mark_arg(i);
Swig_mark_arg(i + 1);
i++;
/* check for built-ins */
if (!strcmp(conv, "lispify")) {
identifier_converter = "identifier-convert-lispify";
} else if (!strcmp(conv, "null")) {
identifier_converter = "identifier-convert-null";
} else {
/* Must be user defined */
char *idconv = new char[strlen(conv) + 1];
strcpy(idconv, conv);
identifier_converter = idconv;
}
} else if (!strcmp(argv[i], "-cwrap")) {
CWrap = true;
Swig_mark_arg(i);
} else if (!strcmp(argv[i], "-nocwrap")) {
CWrap = false;
Swig_mark_arg(i);
} else if (!strcmp(argv[i], "-isolate")) {
unique_swig_package = true;
Swig_mark_arg(i);
}
if (!strcmp(argv[i], "-help")) {
Printf(stdout, "%s\n", usage);
}
}
allow_overloading();
}
int ALLEGROCL::top(Node *n) {
module_name = Getattr(n, "name");
String *cxx_filename = Getattr(n, "outfile");
String *cl_filename = NewString("");
swig_package = unique_swig_package ? NewStringf("swig.%s", module_name) : NewString("swig");
Printf(cl_filename, "%s%s.cl", SWIG_output_directory(), module_name);
f_cl = NewFile(cl_filename, "w", SWIG_output_files());
if (!f_cl) {
Printf(stderr, "Unable to open %s for writing\n", cl_filename);
SWIG_exit(EXIT_FAILURE);
}
Generate_Wrapper = CPlusPlus || CWrap;
if (Generate_Wrapper) {
f_begin = NewFile(cxx_filename, "w", SWIG_output_files());
if (!f_begin) {
Close(f_cl);
Delete(f_cl);
Printf(stderr, "Unable to open %s for writing\n", cxx_filename);
SWIG_exit(EXIT_FAILURE);
}
} else
f_begin = NewString("");
f_runtime = NewString("");
f_cxx_header = f_runtime;
f_cxx_wrapper = NewString("");
Swig_register_filebyname("header", f_cxx_header);
Swig_register_filebyname("wrapper", f_cxx_wrapper);
Swig_register_filebyname("begin", f_begin);
Swig_register_filebyname("runtime", f_runtime);
Swig_register_filebyname("lisp", f_clwrap);
Swig_register_filebyname("lisphead", f_cl);
Swig_banner(f_begin);
Printf(f_runtime, "\n");
Printf(f_runtime, "#define SWIGALLEGROCL\n");
Printf(f_runtime, "\n");
Swig_banner_target_lang(f_cl, ";;");
Printf(f_cl, "\n"
"(defpackage :%s\n"
" (:use :common-lisp :ff :excl)\n"
" (:export #:*swig-identifier-converter* #:*swig-module-name*\n"
" #:*void* #:*swig-export-list*))\n"
"(in-package :%s)\n\n"
"(eval-when (:compile-toplevel :load-toplevel :execute)\n"
" (defparameter *swig-identifier-converter* '%s)\n"
" (defparameter *swig-module-name* :%s))\n\n", swig_package, swig_package, identifier_converter, module_name);
Printf(f_cl, "(defpackage :%s\n" " (:use :common-lisp :%s :ff :excl))\n\n", module_name, swig_package);
Printf(f_clhead, "(in-package :%s)\n", module_name);
Language::top(n);
#ifdef ALLEGROCL_TYPE_DEBUG
dump_linked_types(stderr);
#endif
emit_linked_types();
Printf(f_clwrap, "\n(cl::in-package :%s)\n", swig_package);
Printf(f_clwrap, "\n(macrolet ((swig-do-export ()\n");
Printf(f_clwrap, " `(dolist (s ',*swig-export-list*)\n");
Printf(f_clwrap, " (apply #'export s))))\n");
Printf(f_clwrap, " (swig-do-export))\n");
Printf(f_clwrap, "\n(setq *swig-export-list* nil)\n");
Printf(f_cl, "%s\n", f_clhead);
Printf(f_cl, "%s\n", f_clwrap);
Close(f_cl);
Delete(f_cl); // Delete the handle, not the file
Delete(f_clhead);
Delete(f_clwrap);
Dump(f_runtime, f_begin);
Printf(f_begin, "%s\n", f_cxx_wrapper);
Close(f_begin);
Delete(f_runtime);
Delete(f_begin);
Delete(f_cxx_wrapper);
// Swig_print_tree(n);
return SWIG_OK;
}
/* very shamelessly 'borrowed' from overload.cxx, which
keeps the below Swig_overload_rank() code to itself.
We don't need a dispatch function in the C++ wrapper
code; we want it over on the lisp side. */
#define Swig_overload_rank Allegrocl_swig_overload_rank
#define MAX_OVERLOAD 256
/* Overload "argc" and "argv" */
// String *argv_template_string;
// String *argc_template_string;
struct Overloaded {
Node *n; /* Node */
int argc; /* Argument count */
ParmList *parms; /* Parameters used for overload check */
int error; /* Ambiguity error */
};
/* -----------------------------------------------------------------------------
* Swig_overload_rank()
*
* This function takes an overloaded declaration and creates a list that ranks
* all overloaded methods in an order that can be used to generate a dispatch
* function.
* Slight difference in the way this function is used by scripting languages and
* statically typed languages. The script languages call this method via
* Swig_overload_dispatch() - where wrappers for all overloaded methods are generated,
* however sometimes the code can never be executed. The non-scripting languages
* call this method via Swig_overload_check() for each overloaded method in order
* to determine whether or not the method should be wrapped. Note the slight
* difference when overloading methods that differ by const only. The
* scripting languages will ignore the const method, whereas the non-scripting
* languages ignore the first method parsed.
* ----------------------------------------------------------------------------- */
static List *Swig_overload_rank(Node *n, bool script_lang_wrapping) {
Overloaded nodes[MAX_OVERLOAD];
int nnodes = 0;
Node *o = Getattr(n, "sym:overloaded");
Node *c;
if (!o)
return 0;
c = o;
while (c) {
if (Getattr(c, "error")) {
c = Getattr(c, "sym:nextSibling");
continue;
}
/* if (SmartPointer && Getattr(c,"cplus:staticbase")) {
c = Getattr(c,"sym:nextSibling");
continue;
} */
/* Make a list of all the declarations (methods) that are overloaded with
* this one particular method name */
if (Getattr(c, "wrap:name")) {
nodes[nnodes].n = c;
nodes[nnodes].parms = Getattr(c, "wrap:parms");
nodes[nnodes].argc = emit_num_required(nodes[nnodes].parms);
nodes[nnodes].error = 0;
nnodes++;
}
c = Getattr(c, "sym:nextSibling");
}
/* Sort the declarations by required argument count */
{
int i, j;
for (i = 0; i < nnodes; i++) {
for (j = i + 1; j < nnodes; j++) {
if (nodes[i].argc > nodes[j].argc) {
Overloaded t = nodes[i];
nodes[i] = nodes[j];
nodes[j] = t;
}
}
}
}
/* Sort the declarations by argument types */
{
int i, j;
for (i = 0; i < nnodes - 1; i++) {
if (nodes[i].argc == nodes[i + 1].argc) {
for (j = i + 1; (j < nnodes) && (nodes[j].argc == nodes[i].argc); j++) {
Parm *p1 = nodes[i].parms;
Parm *p2 = nodes[j].parms;
int differ = 0;
int num_checked = 0;
while (p1 && p2 && (num_checked < nodes[i].argc)) {
// Printf(stdout,"p1 = '%s', p2 = '%s'\n", Getattr(p1,"type"), Getattr(p2,"type"));
if (checkAttribute(p1, "tmap:in:numinputs", "0")) {
p1 = Getattr(p1, "tmap:in:next");
continue;
}
if (checkAttribute(p2, "tmap:in:numinputs", "0")) {
p2 = Getattr(p2, "tmap:in:next");
continue;
}
String *t1 = Getattr(p1, "tmap:typecheck:precedence");
String *t2 = Getattr(p2, "tmap:typecheck:precedence");
if ((!t1) && (!nodes[i].error)) {
Swig_warning(WARN_TYPEMAP_TYPECHECK, Getfile(nodes[i].n), Getline(nodes[i].n),
"Overloaded method %s not supported (no type checking rule for '%s').\n",
Swig_name_decl(nodes[i].n), SwigType_str(Getattr(p1, "type"), 0));
nodes[i].error = 1;
} else if ((!t2) && (!nodes[j].error)) {
Swig_warning(WARN_TYPEMAP_TYPECHECK, Getfile(nodes[j].n), Getline(nodes[j].n),
"Overloaded method %s not supported (no type checking rule for '%s').\n",
Swig_name_decl(nodes[j].n), SwigType_str(Getattr(p2, "type"), 0));
nodes[j].error = 1;
}
if (t1 && t2) {
int t1v, t2v;
t1v = atoi(Char(t1));
t2v = atoi(Char(t2));
differ = t1v - t2v;
} else if (!t1 && t2)
differ = 1;
else if (t1 && !t2)
differ = -1;
else if (!t1 && !t2)
differ = -1;
num_checked++;
if (differ > 0) {
Overloaded t = nodes[i];
nodes[i] = nodes[j];
nodes[j] = t;
break;
} else if ((differ == 0) && (Strcmp(t1, "0") == 0)) {
t1 = Getattr(p1, "ltype");
if (!t1) {
t1 = SwigType_ltype(Getattr(p1, "type"));
if (Getattr(p1, "tmap:typecheck:SWIGTYPE")) {
SwigType_add_pointer(t1);
}
Setattr(p1, "ltype", t1);
}
t2 = Getattr(p2, "ltype");
if (!t2) {
t2 = SwigType_ltype(Getattr(p2, "type"));
if (Getattr(p2, "tmap:typecheck:SWIGTYPE")) {
SwigType_add_pointer(t2);
}
Setattr(p2, "ltype", t2);
}
/* Need subtype check here. If t2 is a subtype of t1, then we need to change the
order */
if (SwigType_issubtype(t2, t1)) {
Overloaded t = nodes[i];
nodes[i] = nodes[j];
nodes[j] = t;
}
if (Strcmp(t1, t2) != 0) {
differ = 1;
break;
}
} else if (differ) {
break;
}
if (Getattr(p1, "tmap:in:next")) {
p1 = Getattr(p1, "tmap:in:next");
} else {
p1 = nextSibling(p1);
}
if (Getattr(p2, "tmap:in:next")) {
p2 = Getattr(p2, "tmap:in:next");
} else {
p2 = nextSibling(p2);
}
}
if (!differ) {
/* See if declarations differ by const only */
String *d1 = Getattr(nodes[i].n, "decl");
String *d2 = Getattr(nodes[j].n, "decl");
if (d1 && d2) {
String *dq1 = Copy(d1);
String *dq2 = Copy(d2);
if (SwigType_isconst(d1)) {
Delete(SwigType_pop(dq1));
}
if (SwigType_isconst(d2)) {
Delete(SwigType_pop(dq2));
}
if (Strcmp(dq1, dq2) == 0) {
if (SwigType_isconst(d1) && !SwigType_isconst(d2)) {
if (script_lang_wrapping) {
// Swap nodes so that the const method gets ignored (shadowed by the non-const method)
Overloaded t = nodes[i];
nodes[i] = nodes[j];
nodes[j] = t;
}
differ = 1;
if (!nodes[j].error) {
if (script_lang_wrapping) {
Swig_warning(WARN_LANG_OVERLOAD_CONST, Getfile(nodes[j].n), Getline(nodes[j].n),
"Overloaded method %s ignored,\n", Swig_name_decl(nodes[j].n));
Swig_warning(WARN_LANG_OVERLOAD_CONST, Getfile(nodes[i].n), Getline(nodes[i].n),
"using non-const method %s instead.\n", Swig_name_decl(nodes[i].n));
} else {
if (!Getattr(nodes[j].n, "overload:ignore"))
Swig_warning(WARN_LANG_OVERLOAD_IGNORED, Getfile(nodes[j].n), Getline(nodes[j].n),
"Overloaded method %s ignored,\n", Swig_name_decl(nodes[j].n));
Swig_warning(WARN_LANG_OVERLOAD_IGNORED, Getfile(nodes[i].n), Getline(nodes[i].n),
"using %s instead.\n", Swig_name_decl(nodes[i].n));
}
}
nodes[j].error = 1;
} else if (!SwigType_isconst(d1) && SwigType_isconst(d2)) {
differ = 1;
if (!nodes[j].error) {
if (script_lang_wrapping) {
Swig_warning(WARN_LANG_OVERLOAD_CONST, Getfile(nodes[j].n), Getline(nodes[j].n),
"Overloaded method %s ignored,\n", Swig_name_decl(nodes[j].n));
Swig_warning(WARN_LANG_OVERLOAD_CONST, Getfile(nodes[i].n), Getline(nodes[i].n),
"using non-const method %s instead.\n", Swig_name_decl(nodes[i].n));
} else {
if (!Getattr(nodes[j].n, "overload:ignore"))
Swig_warning(WARN_LANG_OVERLOAD_IGNORED, Getfile(nodes[j].n), Getline(nodes[j].n),
"Overloaded method %s ignored,\n", Swig_name_decl(nodes[j].n));
Swig_warning(WARN_LANG_OVERLOAD_IGNORED, Getfile(nodes[i].n), Getline(nodes[i].n),
"using %s instead.\n", Swig_name_decl(nodes[i].n));
}
}
nodes[j].error = 1;
}
}
Delete(dq1);
Delete(dq2);
}
}
if (!differ) {
if (!nodes[j].error) {
if (script_lang_wrapping) {
Swig_warning(WARN_LANG_OVERLOAD_SHADOW, Getfile(nodes[j].n), Getline(nodes[j].n),
"Overloaded method %s effectively ignored,\n", Swig_name_decl(nodes[j].n));
Swig_warning(WARN_LANG_OVERLOAD_SHADOW, Getfile(nodes[i].n), Getline(nodes[i].n),
"as it is shadowed by %s.\n", Swig_name_decl(nodes[i].n));
} else {
if (!Getattr(nodes[j].n, "overload:ignore"))
Swig_warning(WARN_LANG_OVERLOAD_IGNORED, Getfile(nodes[j].n), Getline(nodes[j].n),
"Overloaded method %s ignored,\n", Swig_name_decl(nodes[j].n));
Swig_warning(WARN_LANG_OVERLOAD_IGNORED, Getfile(nodes[i].n), Getline(nodes[i].n),
"using %s instead.\n", Swig_name_decl(nodes[i].n));
}
nodes[j].error = 1;
}
}
}
}
}
}
List *result = NewList();
{
int i;
for (i = 0; i < nnodes; i++) {
if (nodes[i].error)
Setattr(nodes[i].n, "overload:ignore", "1");
Append(result, nodes[i].n);
// Printf(stdout,"[ %d ] %s\n", i, ParmList_errorstr(nodes[i].parms));
// Swig_print_node(nodes[i].n);
}
}
return result;
}
/* end shameless borrowing */
int any_varargs(ParmList *pl) {
Parm *p;
for (p = pl; p; p = nextSibling(p)) {
if (SwigType_isvarargs(Getattr(p, "type")))
return 1;
}
return 0;
}
String *get_lisp_type(Node *n, SwigType *ty, const_String_or_char_ptr name) {
Node *node = NewHash();
Setattr(node, "type", ty);
Setattr(node, "name", name);
Setfile(node, Getfile(n));
Setline(node, Getline(n));
const String *tm = Swig_typemap_lookup("lisptype", node, "", 0);
Delete(node);
return tm ? NewString(tm) : NewString("");
}
Node *parent_node_skipping_extends(Node *n) {
Node *result = n;
do {
result = parentNode(result);
}
while (Cmp("extend", nodeType(result)) == 0);
return result;
}
/* -----------------------------------------------------------------------------
* emit_num_lin_arguments()
*
* Calculate the total number of arguments. This function is safe for use
* with multi-argument typemaps which may change the number of arguments in
* strange ways.
* ----------------------------------------------------------------------------- */
int emit_num_lin_arguments(ParmList *parms) {
Parm *p = parms;
int nargs = 0;
while (p) {
// Printf(stderr,"enla: '%s' lin='%x' numinputs='%s'\n", Getattr(p,"name"), Getattr(p,"tmap:lin"), Getattr(p,"tmap:lin:numinputs"));
if (Getattr(p, "tmap:lin")) {
nargs += GetInt(p, "tmap:lin:numinputs");
p = Getattr(p, "tmap:lin:next");
} else {
p = nextSibling(p);
}
}
/* DB 04/02/2003: Not sure this is necessary with tmap:in:numinputs */
/*
if (parms && (p = Getattr(parms,"emit:varargs"))) {
if (!nextSibling(p)) {
nargs--;
}
}
*/
return nargs;
}
String *id_converter_type(SwigType const *type) {
SwigType *t = Copy(type);
String *result = 0;
if (SwigType_ispointer(t)) {
SwigType_pop(t);
String *pointee = id_converter_type(t);
result = NewStringf("(:* %s)", pointee);
Delete(pointee);
} else if (SwigType_ismemberpointer(t)) {
String *klass = SwigType_parm(t);
SwigType_pop(t);
String *member = id_converter_type(t);
result = NewStringf("(:member \"%s\" %s)", klass, member);
Delete(klass);
Delete(member);
} else if (SwigType_isreference(t)) {
SwigType_pop(t);
String *referencee = id_converter_type(t);
result = NewStringf("(:& %s)", referencee);
Delete(referencee);
} else if (SwigType_isarray(t)) {
String *size = SwigType_parm(t);
SwigType_pop(t);
String *element_type = id_converter_type(t);
result = NewStringf("(:array %s \"%s\")", element_type, size);
Delete(size);
Delete(element_type);
} else if (SwigType_isfunction(t)) {
result = NewString("(:function (");
String *parmlist_str = SwigType_parm(t);
List *parms = SwigType_parmlist(parmlist_str);
for (Iterator i = First(parms); i.item;) {
String *parm = id_converter_type((SwigType *) i.item);
Printf(result, "%s", parm);
i = Next(i);
if (i.item)
Printf(result, " ");
Delete(parm);
}
SwigType_pop(t);
String *ret = id_converter_type(t);
Printf(result, ") %s)", ret);
Delete(parmlist_str);
Delete(parms);
Delete(ret);
} else if (SwigType_isqualifier(t)) {
result = NewString("(:qualified (");
String *qualifiers_str = Copy(SwigType_parm(t)); // ?!
// Replaceall below SEGVs if we don't put the Copy here...
SwigType_pop(t);
String *qualifiee = id_converter_type(t);
Replaceall(qualifiers_str, " ", " :");
if (Len(qualifiers_str) > 0)
Printf(result, ":");
Printf(result, "%s) %s)", qualifiers_str, qualifiee);
Delete(qualifiers_str);
Delete(qualifiee);
} else if (SwigType_istemplate(t)) {
result = NewStringf("(:template \"%s\")", t);
} else { /* if (SwigType_issimple(t)) */
if (Strstr(Char(t), "::")) {
result = listify_namespace(t);
} else {
result = NewStringf("\"%s\"", t);
}
}
Delete(t);
return result;
}
static ParmList *parmlist_with_names(ParmList *pl) {
ParmList *pl2 = CopyParmList(pl);
for (Parm *p = pl, *p2 = pl2; p2; p = nextSibling(p), p2 = nextSibling(p2)) {
if (!Getattr(p2, "name"))
Setattr(p2, "name", Getattr(p2, "lname"));
Setattr(p2, "name", strip_namespaces(Getattr(p2, "name")));
Setattr(p2, "tmap:ctype", Getattr(p, "tmap:ctype"));
String *temp = Getattr(p, "tmap:lin");
if (temp) {
Setattr(p2, "tmap:lin", temp);
Setattr(p2, "tmap:lin:next", Getattr(p, "tmap:lin:next"));
}
}
return pl2;
}
static String *parmlist_str_id_converter(ParmList *pl) {
String *result = NewString("");
for (Parm *p = pl; p;) {
String *lispy_type = id_converter_type(Getattr(p, "type"));
Printf(result, "(\"%s\" %s)", Getattr(p, "name"), lispy_type);
Delete(lispy_type);
if ((p = nextSibling(p)))
Printf(result, " ");
}
return result;
}
String *collect_others_args(Node *overload) {
String *overloaded_from = Getattr(overload, "sym:overloaded");
String *others_args = NewString("");
int first_overload = 1;
for (Node *overload2 = overloaded_from; overload2; overload2 = Getattr(overload2, "sym:nextSibling")) {
if (overload2 == overload || GetInt(overload2, "overload:ignore"))
continue;
ParmList *opl = parmlist_with_names(Getattr(overload2, "wrap:parms"));
String *args = parmlist_str_id_converter(opl);
if (!first_overload)
Printf(others_args, "\n ");
Printf(others_args, "(%s)", args);
Delete(args);
Delete(opl);
first_overload = 0;
}
return others_args;
}
struct IDargs {
String *name;
String *type;
String *klass;
String *arity;
IDargs():name(0), type(0), klass(0), arity(0) {
}
String *full_quoted_str() {
String *result = no_others_quoted_str();
if (arity)
Printf(result, " :arity %s", arity);
return result;
}
String *no_others_quoted_str() {
String *result = NewString("");
Printf(result, "\"%s\" :type :%s", name, type);
if (klass)
Printf(result, " :class \"%s\"", klass);
return result;
}
String *noname_str(bool include_class = true) {
String *result = NewString("");
Printf(result, " :type :%s", type);
if (klass && include_class)
Printf(result, " :class \"%s\"", klass);
if (arity)
Printf(result, " :arity %s", arity);
return result;
}
String *noname_no_others_str(bool include_class = true) {
String *result = NewString("");
Printf(result, " :type :%s", type);
if (klass && include_class)
Printf(result, " :class \"%s\"", klass);
return result;
}
};
IDargs *id_converter_arguments(Node *n) {
IDargs *result = (IDargs *) GetVoid(n, "allegrocl:id-converter-args");
if (!result)
result = new IDargs;
// Base name
if (!result->name) {
result->name = Getattr(n, "allegrocl:old-sym:name");
if (!result->name)
result->name = Getattr(n, "sym:name");
result->name = Copy(result->name);
}
// :type
if (result->type)
Delete(result->type);
if (!Getattr(n, "allegrocl:kind"))
Setattr(n, "allegrocl:kind", "function");
if (Strstr(Getattr(n, "name"), "operator "))
Replaceall(Getattr(n, "allegrocl:kind"), "function", "operator");
if (Strstr(Getattr(n, "allegrocl:kind"), "variable")) {
int name_end = Len(Getattr(n, "sym:name")) - 4;
char *str = Char(Getattr(n, "sym:name"));
String *get_set = NewString(str + name_end + 1);
result->type = Copy(Getattr(n, "allegrocl:kind"));
Replaceall(result->type, "variable", "");
Printf(result->type, "%ster", get_set);
Delete(get_set);
} else {
result->type = Copy(Getattr(n, "allegrocl:kind"));
}
// :class
if (Strstr(result->type, "member ")) {
Replaceall(result->type, "member ", "");
if (!result->klass) {
result->klass = Copy(Getattr(parent_node_skipping_extends(n), "sym:name"));
}
}
// :arity
if (Getattr(n, "sym:overloaded")) {
if (result->arity)
Delete(result->arity);
result->arity = NewStringf("%d",
// emit_num_arguments(Getattr(n, "wrap:parms")));
emit_num_lin_arguments(Getattr(n, "wrap:parms")));
// Printf(stderr, "got arity of '%s' node '%s' '%x'\n", result->arity, Getattr(n,"name"), Getattr(n,"wrap:parms"));
}
SetVoid(n, "allegrocl:id-converter-args", result);
return result;
}
int ALLEGROCL::emit_buffered_defuns(Node *n) {
Node *overloaded_from = Getattr(n, "sym:overloaded");
String *wrap;
if (!overloaded_from) {
wrap = Getattr(n, "allegrocl:lisp-wrap");
Printf(f_clwrap, "%s\n", wrap);
Delattr(n, "allegrocl:lisp-wrap");
Delete(wrap);
} else {
for (Node *overload = overloaded_from; overload; overload = Getattr(overload, "sym:nextSibling")) {
String *others_args = collect_others_args(overload);
wrap = Getattr(overload, "allegrocl:lisp-wrap");
Replaceall(wrap, "@@OTHERS-ARGS-GO-HERE@@", others_args);
// IDargs* id_args = id_converter_arguments(overload);
// Replaceall(id_args->others_args, "@@OTHERS-ARGS-GO-HERE@@", others_args);
if (!GetInt(overload, "overload:ignore"))
Printf(f_clwrap, "%s", wrap);
Delattr(overload, "allegrocl:lisp-wrap");
Delete(wrap);
}
}
return SWIG_OK;
}
String *dispatching_type(Node *n, Parm *p) {
String *result = 0;
String *parsed = Getattr(p, "type"); //Swig_cparse_type(Getattr(p,"tmap:ctype"));
String *cl_t = SwigType_typedef_resolve_all(parsed);
Node *node = NewHash();
Setattr(node, "type", parsed);
Setfile(node, Getfile(n));
Setline(node, Getline(n));
const String *tm = Swig_typemap_lookup("lispclass", node, Getattr(p, "name"), 0);
Delete(node);
if (tm) {
result = Copy(tm);
} else {
String *lookup_type = class_from_class_or_class_ref(parsed);
if (lookup_type)
result = lookup_defined_foreign_ltype(lookup_type);
}
// if (!result && SwigType_ispointer(cl_t)) {
// SwigType_pop(cl_t);
// result = lookup_defined_foreign_ltype(cl_t);
// }
if (!result)
result = NewStringf("ff:foreign-pointer");
// Delete(parsed);
Delete(cl_t);
return result;
}
int ALLEGROCL::emit_dispatch_defun(Node *n) {
#ifdef ALLEGROCL_WRAP_DEBUG
Printf(stderr, "emit_dispatch_defun: ENTER... ");
#endif
List *overloads = Swig_overload_rank(n, true);
// Printf(stderr,"\ndispatch node=%x\n\n", n);
// Swig_print_node(n);
Node *overloaded_from = Getattr(n,"sym:overloaded");
bool include_class = Getattr(overloaded_from, "allegrocl:dispatcher:include-class") ? true : false;
String *id_args = id_converter_arguments(n)->noname_no_others_str(include_class);
Printf(f_clwrap, "(swig-dispatcher (\"%s\" %s :arities (", Getattr(overloaded_from, "allegrocl:dispatcher:name"), id_args);
Delattr(overloaded_from, "allegrocl:dispatcher:include-class");
Delattr(overloaded_from, "allegrocl:dispatcher:name");
int last_arity = -1;
for (Iterator i = First(overloads); i.item; i = Next(i)) {
int arity = emit_num_lin_arguments(Getattr(i.item, "wrap:parms"));
if (arity == last_arity)
continue;
Printf(f_clwrap, "%s%d", last_arity == -1 ? "" : " ", arity);
last_arity = arity;
}
Printf(f_clwrap, ")))\n");
Delete(id_args);
Delete(overloads);
#ifdef ALLEGROCL_WRAP_DEBUG
Printf(stderr, "emit_dispatch_defun: EXIT\n");
#endif
return SWIG_OK;
}
int ALLEGROCL::emit_defun(Node *n, File *fcl) {
#ifdef ALLEGROCL_WRAP_DEBUG
Printf(stderr, "emit_defun: ENTER... ");
#endif
// avoid name conflicts between smart pointer wrappers and the wrappers for the
// actual class.
bool smartmemberwrapper = (!Cmp(Getattr(n, "view"), "memberfunctionHandler") &&
Getattr(n,"allocate:smartpointeraccess"));
#ifdef ALLEGROCL_DEBUG
int auto_generated = Cmp(Getattr(n, "view"), "globalfunctionHandler");
Printf(stderr, "%s%sfunction %s%s%s\n", auto_generated ? "> " : "", Getattr(n, "sym:overloaded")
? "overloaded " : "", current_namespace, (current_namespace) > 0 ? "::" : "", Getattr(n, "sym:name"));
Printf(stderr, " (view: %s)\n", Getattr(n, "view"));
Swig_print_node(n);
#endif
String *funcname = Getattr(n, "allegrocl:old-sym:name");
if (smartmemberwrapper || !funcname)
funcname = Getattr(n, "sym:name");
String *mangled_name = Getattr(n, "wrap:name");
ParmList *pl = parmlist_with_names(Getattr(n, "wrap:parms"));
// attach typemap info.
Wrapper *wrap = NewWrapper();
Swig_typemap_attach_parms("lin", pl, wrap);
// Swig_typemap_attach_parms("ffitype", pl, wrap);
Swig_typemap_lookup("lout", n, "result", 0);
SwigType *result_type = Swig_cparse_type(Getattr(n, "tmap:ctype"));
// prime the pump, with support for OUTPUT, INOUT typemaps.
Printf(wrap->code,
"(cl::let ((ACL_ffresult %s:*void*)\n ACL_result)\n $body\n (cl::if (cl::eq ACL_ffresult %s:*void*)\n (cl::values-list ACL_result)\n (cl::values-list (cl::cons ACL_ffresult ACL_result))))",
swig_package, swig_package);
Parm *p;
int largnum = 0, argnum = 0, first = 1;
// int varargs=0;
if (Generate_Wrapper) {
String *extra_parms = id_converter_arguments(n)->noname_str(smartmemberwrapper ? false : true);
Node *overloaded_from = Getattr(n,"sym:overloaded");
if (overloaded_from) {
if(!GetFlag(overloaded_from,"allegrocl:dispatcher:name")) {
Setattr(overloaded_from,"allegrocl:dispatcher:name",funcname);
Setattr(overloaded_from,"allegrocl:dispatcher:include-class", smartmemberwrapper ? 0 : "1");
// Printf(stderr, " set a:d:name='%s', a:d:i-c='%s'\n", Getattr(n,"allegrocl:dispatcher:name"), Getattr(n,"allegrocl:dispatcher:include-class"));
}
Printf(fcl, "(swig-defmethod (\"%s\" \"%s\"%s)\n", funcname, mangled_name, extra_parms);
} else
Printf(fcl, "(swig-defun (\"%s\" \"%s\"%s)\n", funcname, mangled_name, extra_parms);
Delete(extra_parms);
}
// Just C
else {
Printf(fcl, "(swig-defun (\"%s\" \"%s\")\n", funcname, Generate_Wrapper ? mangled_name : funcname);
}
//////////////////////////////////////
// Lisp foreign call parameter list //
//////////////////////////////////////
Printf(fcl, " (");
/* Special cases */
if (ParmList_len(pl) == 0) {
Printf(fcl, ":void");
/* } else if (any_varargs(pl)) {
Printf(fcl, "#| varargs |#");
varargs=1; */
} else {
String *largs = NewString("");
for (p = pl; p; p = nextSibling(p), argnum++, largnum++) {
// SwigType *argtype=Getattr(p, "type");
SwigType *argtype = Swig_cparse_type(Getattr(p, "tmap:ctype"));
SwigType *parmtype = Getattr(p,"type");
if (!first) {
Printf(fcl, "\n ");
}
/* by default, skip varargs */
if (!SwigType_isvarargs(parmtype)) {
String *argname = NewStringf("PARM%d_%s", largnum, Getattr(p, "name"));
// Printf(stderr,"%s\n", Getattr(p,"tmap:lin"));
String *ffitype = compose_foreign_type(n, argtype, Getattr(p,"name"));
String *deref_ffitype = dereference_ffitype(ffitype);
String *lisptype = get_lisp_type(n, parmtype, Getattr(p, "name"));
#ifdef ALLEGROCL_DEBUG
Printf(stderr, "lisptype of '%s' '%s' = '%s'\n", parmtype,
Getattr(p, "name"), lisptype);
#endif
// while we're walking the parameters, generating LIN
// wrapper code...
Setattr(p, "lname", NewStringf("SWIG_arg%d", largnum));
String *parm_code = Getattr(p, "tmap:lin");
if (parm_code) {
String *lname = Getattr(p, "lname");
Printf(largs, " %s", lname);
Replaceall(parm_code, "$in_fftype", ffitype); // must come before $in
Replaceall(parm_code, "$in", argname);
Replaceall(parm_code, "$out", lname);
Replaceall(parm_code, "$*in_fftype", deref_ffitype);
Replaceall(wrap->code, "$body", parm_code);
}
String *dispatchtype = Getattr(n, "sym:overloaded") ? dispatching_type(n, p) : NewString("");
// if this parameter has been removed from the C/++ wrapper
// it shouldn't be in the lisp wrapper either.
if (!checkAttribute(p, "tmap:in:numinputs", "0")) {
Printf(fcl, "(%s %s %s %s %s)",
// parms in the ff wrapper, but not in the lisp wrapper.
(checkAttribute(p, "tmap:lin:numinputs", "0") ? ":p-" : ":p+"), argname, dispatchtype, ffitype, lisptype);
first = 0;
}
Delete(argname);
Delete(ffitype);
Delete(deref_ffitype);
Delete(lisptype);
}
}
Printf(wrap->locals, "%s", largs);
}
String *lout = Getattr(n, "tmap:lout");
Replaceall(lout, "$owner", GetFlag(n, "feature:new") ? "t" : "nil");
Replaceall(wrap->code, "$body", lout);
// $lclass handling.
String *lclass = (String *) 0;
SwigType *parsed = Swig_cparse_type(Getattr(n, "tmap:ctype"));
// SwigType *cl_t = SwigType_typedef_resolve_all(parsed);
SwigType *cl_t = class_from_class_or_class_ref(parsed);
String *out_ffitype = compose_foreign_type(n, parsed);
String *deref_out_ffitype;
String *out_temp = Copy(parsed);
if (SwigType_ispointer(out_temp)) {
SwigType_pop(out_temp);
deref_out_ffitype = compose_foreign_type(n, out_temp);
} else {
deref_out_ffitype = Copy(out_ffitype);
}
Delete(out_temp);
Delete(parsed);
if (cl_t) {
lclass = lookup_defined_foreign_ltype(cl_t);
}
int ff_foreign_ptr = 0;
if (!lclass) {
ff_foreign_ptr = 1;
lclass = NewStringf("ff:foreign-pointer");
}
#ifdef ALLEGROCL_WRAP_DEBUG
Printf(stderr, "for output wrapping %s: type=%s, ctype=%s\n", Getattr(n, "name"),
Getattr(n, "type"), Swig_cparse_type(Getattr(n, "tmap:ctype")));
#endif
if (lclass)
Replaceall(wrap->code, "$lclass", lclass);
if (out_ffitype)
Replaceall(wrap->code, "$out_fftype", out_ffitype);
if (deref_out_ffitype)
Replaceall(wrap->code, "$*out_fftype", deref_out_ffitype);
Replaceall(wrap->code, "$body", NewStringf("(swig-ff-call%s)", wrap->locals));
String *ldestructor = Copy(lclass);
if (ff_foreign_ptr)
Replaceall(ldestructor, ldestructor, "cl::identity");
else
Replaceall(ldestructor, ":type :class", ":type :destructor");
Replaceall(wrap->code, "$ldestructor", ldestructor);
Delete(ldestructor);
Printf(fcl, ")\n"); /* finish arg list */
/////////////////////////////////////////////////////
// Lisp foreign call return type and optimizations //
/////////////////////////////////////////////////////
Printf(fcl, " (:returning (%s %s)", compose_foreign_type(n, result_type), get_lisp_type(n, Getattr(n, "type"), "result"));
for (Iterator option = First(n); option.item; option = Next(option)) {
if (Strncmp("feature:ffargs:", option.key, 15))
continue;
String *option_val = option.item;
String *option_name = NewString(Char(option.key) + 14);
Replaceall(option_name, "_", "-");
// TODO: varargs vs call-direct ?
Printf(fcl, "\n %s %s", option_name, option_val);
Delete(option_name);
}
Printf(fcl, ")\n %s)\n\n", wrap->code);
// Wrapper_print(wrap, stderr);
Delete(result_type);
Delete(mangled_name);
Delete(pl);
DelWrapper(wrap);
#ifdef ALLEGROCL_WRAP_DEBUG
Printf(stderr, "emit_defun: EXIT\n");
#endif
return SWIG_OK;
}
int ALLEGROCL::functionWrapper(Node *n) {
#ifdef ALLEGROCL_DEBUG
Printf(stderr, "functionWrapper %s\n", Getattr(n,"name"));
#endif
ParmList *parms = CopyParmList(Getattr(n, "parms"));
Wrapper *f = NewWrapper();
SwigType *t = Getattr(n, "type");
String *name = Getattr(n, "name");
String *raw_return_type = Swig_typemap_lookup("ctype", n, "", 0);
SwigType *return_type = Swig_cparse_type(raw_return_type);
SwigType *resolved = SwigType_typedef_resolve_all(return_type);
int is_void_return = (Cmp(resolved, "void") == 0);
Delete(resolved);
if (!is_void_return) {
String *lresult_init =
NewStringf("= (%s)0",
SwigType_str(SwigType_strip_qualifiers(return_type),0));
Wrapper_add_localv(f, "lresult",
SwigType_lstr(SwigType_ltype(return_type), "lresult"),
lresult_init, NIL);
Delete(lresult_init);
}
// Emit all of the local variables for holding arguments.
emit_parameter_variables(parms, f);
// Attach the standard typemaps
Swig_typemap_attach_parms("ctype", parms, f);
Swig_typemap_attach_parms("lin", parms, f);
emit_attach_parmmaps(parms, f);
String *mangled = mangle_name(n);
Node *overloaded = Getattr(n, "sym:overloaded");
// Parameter overloading
Setattr(n, "wrap:parms", parms);
Setattr(n, "wrap:name", mangled);
if (overloaded) {
// emit warnings when overloading is impossible on the lisp side.
// basically Swig_overload_check(n), but with script_lang_wrapping
// set to true.
Delete(Swig_overload_rank(n, true));
if (Getattr(n, "overload:ignore")) {
// if we're the last overload, make sure to force the emit
// of the rest of the overloads before we leave.
// Printf(stderr, "ignored overload %s(%x)\n", name, Getattr(n, "sym:nextSibling"));
if (!Getattr(n, "sym:nextSibling")) {
update_package_if_needed(n);
emit_buffered_defuns(n);
emit_dispatch_defun(n);
}
DelWrapper(f);
return SWIG_OK;
}
}
// Get number of required and total arguments
int num_arguments = emit_num_arguments(parms);
int gencomma = 0;
#ifdef ALLEGROCL_DEBUG
Printf(stderr, "Walking parameters for %s '%s'\n", Getattr(n, "allegrocl:kind"), name);
#endif
// Now walk the function parameter list and generate code to get arguments
String *name_and_parms = NewStringf("%s (", mangled);
int i;
Parm *p;
for (i = 0, p = parms; i < num_arguments; i++) {
#ifdef ALLEGROCL_DEBUG
String *temp1 = Getattr(p,"tmap:in");
String *temp2 = Getattr(p,"tmap:in:numinputs");
Printf(stderr," parm %d: %s, tmap:in='%s', tmap:in:numinputs='%s'\n", i, Getattr(p,"name"), temp1 ? temp1 : "", temp2 ? temp2 : "");
#endif
while (p && checkAttribute(p, "tmap:in:numinputs", "0")) {
p = Getattr(p, "tmap:in:next");
}
if (!p)
break;
SwigType *c_parm_type = Swig_cparse_type(Getattr(p, "tmap:ctype"));
String *arg = NewStringf("l%s", Getattr(p, "lname"));
// Emit parameter declaration
if (gencomma)
Printf(name_and_parms, ", ");
String *parm_decl = SwigType_str(c_parm_type, arg);
Printf(name_and_parms, "%s", parm_decl);
#ifdef ALLEGROCL_DEBUG
Printf(stderr, " param: %s\n", parm_decl);
#endif
Delete(parm_decl);
gencomma = 1;
// Emit parameter conversion code
String *parm_code = Getattr(p, "tmap:in");
//if (!parm_code) {
// Swig_warning(...);
// p = nextSibling(p);
/*} else */ {
// canThrow(n, "in", p);
Replaceall(parm_code, "$input", arg);
Setattr(p, "emit:input", arg);
Printf(f->code, "%s\n", parm_code);
p = Getattr(p, "tmap:in:next");
}
Delete(arg);
}
Printf(name_and_parms, ")");
#ifdef ALLEGROCL_DEBUG
Printf(stderr, " arity = %d(%d)\n", emit_num_lin_arguments(parms), emit_num_lin_arguments(Getattr(n,"wrap:parms")));
#endif
// Emit the function definition
String *signature = SwigType_str(return_type, name_and_parms);
Printf(f->def, "EXPORT %s {", signature);
if (CPlusPlus)
Printf(f->code, " try {\n");
String *actioncode = emit_action(n);
String *tm = Swig_typemap_lookup_out("out", n, "result", f, actioncode);
if (!is_void_return && tm) {
if (tm) {
Replaceall(tm, "$result", "lresult");
Printf(f->code, "%s\n", tm);
Printf(f->code, " return lresult;\n");
Delete(tm);
} else {
Swig_warning(WARN_TYPEMAP_OUT_UNDEF, input_file, line_number,
"Unable to use return type %s in function %s.\n",
SwigType_str(t, 0), name);
}
}
emit_return_variable(n, t, f);
if (CPlusPlus) {
Printf(f->code, " } catch (...) {\n");
if (!is_void_return)
Printf(f->code, " return (%s)0;\n",
SwigType_str(SwigType_strip_qualifiers(return_type),0));
Printf(f->code, " }\n");
}
Printf(f->code, "}\n");
/* print this when in C mode? make this a command-line arg? */
if (Generate_Wrapper)
Wrapper_print(f, f_cxx_wrapper);
String *f_buffer = NewString("");
emit_defun(n, f_buffer);
Setattr(n, "allegrocl:lisp-wrap", f_buffer);
if (!overloaded || !Getattr(n, "sym:nextSibling")) {
update_package_if_needed(n);
emit_buffered_defuns(n);
// this is the last overload.
if (overloaded) {
emit_dispatch_defun(n);
}
}
DelWrapper(f);
return SWIG_OK;
}
int ALLEGROCL::namespaceDeclaration(Node *n) {
#ifdef ALLEGROCL_DEBUG
Printf(stderr, "namespaceDecl: '%s'(0x%x) (fc=0x%x)\n", Getattr(n, "sym:name"), n, firstChild(n));
#endif
/* don't wrap a namespace with no contents. package bloat.
also, test-suite/namespace_class.i claims an unnamed namespace
is 'private' and should not be wrapped. Complying...
*/
if (Getattr(n,"unnamed") || !firstChild(n))
return SWIG_OK;
String *name = Getattr(n, "sym:name");
String *old_namespace = current_namespace;
if (Cmp(current_namespace, "") == 0)
current_namespace = NewStringf("%s", name);
else
current_namespace = NewStringf("%s::%s", current_namespace, name);
if (!GetInt(defined_namespace_packages, current_namespace)) {
SetInt(defined_namespace_packages, current_namespace, 1);
String *lispy_namespace = listify_namespace(current_namespace);
Printf(f_clhead, "(swig-defpackage %s)\n", lispy_namespace);
Delete(lispy_namespace);
}
emit_children(n);
Delete(current_namespace);
current_namespace = old_namespace;
return SWIG_OK;
}
int ALLEGROCL::constructorHandler(Node *n) {
#ifdef ALLEGROCL_DEBUG
Printf(stderr, "constructorHandler %s\n", Getattr(n, "name"));
#endif
// Swig_print_node(n);
Setattr(n, "allegrocl:kind", "constructor");
Setattr(n, "allegrocl:old-sym:name", Getattr(n, "sym:name"));
// Let SWIG generate a global forwarding function.
return Language::constructorHandler(n);
}
int ALLEGROCL::destructorHandler(Node *n) {
#ifdef ALLEGROCL_DEBUG
Printf(stderr, "destructorHandler %s\n", Getattr(n, "name"));
#endif
Setattr(n, "allegrocl:kind", "destructor");
Setattr(n, "allegrocl:old-sym:name", Getattr(n, "sym:name"));
// Let SWIG generate a global forwarding function.
return Language::destructorHandler(n);
}
int ALLEGROCL::constantWrapper(Node *n) {
#ifdef ALLEGROCL_DEBUG
Printf(stderr, "constantWrapper %s\n", Getattr(n, "name"));
#endif
if (Generate_Wrapper) {
// Setattr(n,"wrap:name",mangle_name(n, "ACLPP"));
String *const_type = Getattr(n, "type");
String *const_val = 0;
String *raw_const = Getattr(n, "value");
if (SwigType_type(const_type) == T_STRING) {
const_val = NewStringf("\"%s\"", raw_const);
} else if (SwigType_type(const_type) == T_CHAR) {
const_val = NewStringf("'%s'", raw_const);
} else {
const_val = Copy(raw_const);
}
SwigType_add_qualifier(const_type, "const");
String *ppcname = NewStringf("ACLppc_%s", Getattr(n, "sym:name"));
// Printf(f_runtime, "static const %s = %s;\n", SwigType_lstr(const_type, ppcname), const_val);
Printf(f_runtime, "static %s = %s;\n", SwigType_lstr(const_type, ppcname), const_val);
Setattr(n, "name", ppcname);
SetFlag(n, "feature:immutable");
Delete(const_val);
return variableWrapper(n);
}
String *type = Getattr(n, "type");
String *value = Getattr(n, "value");
String *converted_value = convert_literal(value, type);
String *name = Getattr(n, "sym:name");
Setattr(n, "allegrocl:kind", "constant");
Setattr(n, "allegrocl:old-sym:name", Getattr(n, "sym:name"));
#if 0
Printf(stdout, "constant %s is of type %s. value: %s\n", name, type, converted_value);
#endif
if (converted_value) {
Printf(f_clwrap, "(swig-defconstant \"%s\" %s)\n", name, converted_value);
} else {
Swig_warning(WARN_LANG_DISCARD_CONST, Getfile(n), Getline(n), "Unable to parse constant value '%s'. Setting to NIL\n", value);
Printf(f_clwrap, "(swig-defconstant \"%s\" nil #| %s |#)\n", name, value);
}
Delete(converted_value);
return SWIG_OK;
}
int ALLEGROCL::globalvariableHandler(Node *n) {
#ifdef ALLEGROCL_DEBUG
Printf(stderr, "globalvariableHandler %s\n", Getattr(n, "name"));
#endif
if (Generate_Wrapper)
return Language::globalvariableHandler(n);
// String *name = Getattr(n, "name");
SwigType *type = Getattr(n, "type");
SwigType *rtype = SwigType_typedef_resolve_all(type);
if (SwigType_isclass(rtype)) {
SwigType_add_pointer(type);
SwigType_add_pointer(rtype);
}
Printf(f_clwrap, "(swig-defvar \"%s\" \"%s\" :type %s)\n",
Getattr(n, "sym:name"), Getattr(n, "sym:name"), ((SwigType_isconst(type)) ? ":constant" : ":variable"));
return SWIG_OK;
}
int ALLEGROCL::variableWrapper(Node *n) {
#ifdef ALLEGROCL_DEBUG
Printf(stderr, "variableWrapper %s\n", Getattr(n, "name"));
#endif
Setattr(n, "allegrocl:kind", "variable");
Setattr(n, "allegrocl:old-sym:name", Getattr(n, "sym:name"));
// Let SWIG generate a get/set function pair.
if (Generate_Wrapper)
return Language::variableWrapper(n);
String *name = Getattr(n, "name");
SwigType *type = Getattr(n, "type");
SwigType *ctype;
SwigType *rtype = SwigType_typedef_resolve_all(type);
String *mangled_name = mangle_name(n);
int pointer_added = 0;
if (SwigType_isclass(rtype)) {
SwigType_add_pointer(type);
SwigType_add_pointer(rtype);
pointer_added = 1;
}
ctype = SwigType_str(type, 0);
// EXPORT <SwigType_str> <mangled_name>;
// <SwigType_str> <mangled_name> = <name>;
Printf(f_runtime, "EXPORT %s %s;\n%s %s = %s%s;\n", ctype, mangled_name, ctype, mangled_name, (pointer_added ? "&" : ""), name);
Printf(f_cl, "(swig-defvar \"%s\" :type %s)\n", mangled_name, ((SwigType_isconst(type)) ? ":constant" : ":variable"));
Printf(stderr,"***\n");
Delete(mangled_name);
#ifdef ALLEGROCL_DEBUG
Printf(stderr, "DONE variable %s\n", Getattr(n, "name"));
#endif
return SWIG_OK;
}
int ALLEGROCL::memberfunctionHandler(Node *n) {
#ifdef ALLEGROCL_DEBUG
Printf(stderr, "memberfunctionHandler %s::%s\n", Getattr(parent_node_skipping_extends(n), "name"), Getattr(n, "name"));
Swig_print_node(n);
#endif
Setattr(n, "allegrocl:kind", "member function");
Setattr(n, "allegrocl:old-sym:name", Getattr(n, "sym:name"));
// Let SWIG generate a global forwarding function.
return Language::memberfunctionHandler(n);
}
int ALLEGROCL::membervariableHandler(Node *n) {
#ifdef ALLEGROCL_DEBUG
Printf(stderr, "membervariableHandler %s::%s\n", Getattr(parent_node_skipping_extends(n), "name"), Getattr(n, "name"));
#endif
Setattr(n, "allegrocl:kind", "member variable");
Setattr(n, "allegrocl:old-sym:name", Getattr(n, "sym:name"));
// Let SWIG generate a get/set function pair.
return Language::membervariableHandler(n);
}
int ALLEGROCL::typedefHandler(Node *n) {
#ifdef ALLEGROCL_TYPE_DEBUG
Printf(stderr, "In typedefHandler\n");
#endif
SwigType *typedef_type = Getattr(n,"type");
// has the side-effect of noting any implicit
// template instantiations in type.
String *ff_type = compose_foreign_type(n, typedef_type);
String *sym_name = Getattr(n, "sym:name");
String *name;
String *type_ref;
if (in_class) {
#ifdef ALLEGROCL_TYPE_DEBUG
Printf(stderr, " typedef in class '%s'(%x)\n", Getattr(in_class, "sym:name"), in_class);
#endif
Setattr(n, "allegrocl:typedef:in-class", in_class);
String *class_name = Getattr(in_class, "name");
name = NewStringf("%s__%s", class_name, sym_name);
type_ref = NewStringf("%s::%s", class_name, sym_name);
Setattr(n, "allegrocl:in-class", in_class);
} else {
name = Copy(sym_name);
type_ref = Copy(Getattr(n, "name"));
}
Setattr(n, "allegrocl:namespace", current_namespace);
String *lookup = lookup_defined_foreign_type(typedef_type);
#ifdef ALLEGROCL_TYPE_DEBUG
Printf(stderr, "** lookup='%s'(%x), typedef_type='%s', strcmp = '%d' strstr = '%d'\n", lookup, lookup, typedef_type, Strcmp(typedef_type,"void"), Strstr(ff_type,"__SWIGACL_FwdReference"));
#endif
if(lookup || (!lookup && Strcmp(typedef_type,"void")) ||
(!lookup && Strstr(ff_type,"__SWIGACL_FwdReference"))) {
add_defined_foreign_type(n, 0, type_ref, name);
} else {
add_forward_referenced_type(n);
}
#ifdef ALLEGROCL_TYPE_DEBUG
Printf(stderr, "Out typedefHandler\n");
#endif
Delete(ff_type);
return SWIG_OK;
}
// forward referenced classes are added specially to defined_foreign_types
int ALLEGROCL::classforwardDeclaration(Node *n) {
#ifdef ALLEGROCL_DEBUG
Printf(stderr, "classforwardDeclaration %s\n", Getattr(n, "name"));
#endif
add_forward_referenced_type(n);
return SWIG_OK;
}
int ALLEGROCL::classHandler(Node *n) {
#ifdef ALLEGROCL_DEBUG
Printf(stderr, "classHandler %s::%s\n", current_namespace, Getattr(n, "sym:name"));
#endif
int result;
if (Generate_Wrapper)
result = cppClassHandler(n);
else
result = cClassHandler(n);
return result;
}
int ALLEGROCL::cClassHandler(Node *n) {
#ifdef ALLEGROCL_TYPE_DEBUG
Printf(stderr, "In cClassHandler\n");
#endif
/* Add this structure to the known lisp types */
// Printf(stderr, "Adding %s foreign type\n", name);
String *ns = listify_namespace(current_namespace);
add_defined_foreign_type(n);
Delete(ns);
#ifdef ALLEGROCL_TYPE_DEBUG
Printf(stderr, "Out cClassHandler\n");
#endif
return SWIG_OK;
}
int ALLEGROCL::cppClassHandler(Node *n) {
#ifdef ALLEGROCL_DEBUG
Printf(stderr, "cppClassHandler %s\n", Getattr(n, "name"));
#endif
// String *name=Getattr(n, "sym:name");
// String *kind = Getattr(n,"kind");
/* Template instantiation.
Careful.
SWIG does not create instantiations of templated classes whenever
it sees a templated class reference (say, as a return type, or
in a parameter list).
The %template directive results in a templated class instantiation
that will actually be seen by <LANG> :: classHandler().
In this case, we don't want to error if the type already exists;
the point is to force the creation of wrappers for the templated
class.
*/
String *templated = Getattr(n, "template");
String *t_name;
// String *ns = listify_namespace(current_namespace);
if (templated) {
t_name = namespaced_name(n);
} else {
t_name = Getattr(n, "name");
}
Setattr(n, "allegrocl:namespace", current_namespace);
/* Add this structure to the known lisp types.
Class may contain references to the type currently being
defined */
if (!templated || !lookup_defined_foreign_type(t_name)) {
#ifdef ALLEGROCL_CLASS_DEBUG
Printf(stderr, "Adding %s foreign type\n", Getattr(n, "sym:name"));
#endif
add_defined_foreign_type(n);
} else {
#ifdef ALLEGROCL_CLASS_DEBUG
Printf(stderr, "cppClassHand: type %s already exists. Assuming %%template instantiation for wrapping purposes.\n", Getattr(n, "sym:name"));
#endif
add_defined_foreign_type(n, 1);
}
// Generate slot accessors, constructor, and destructor.
Node *prev_class = in_class;
in_class = n;
Node *c;
// walk all member variables.
#ifdef ALLEGROCL_CLASS_DEBUG
Printf(stderr, " MANUALLY walking class members... \n");
#endif
for (c = firstChild(n); c; c = nextSibling(c)) {
// ping the types of all children--even protected and private
// so their types can be added to the linked_type_list.
SwigType *childType = NewStringf("%s%s", Getattr(c, "decl"),
Getattr(c, "type"));
#ifdef ALLEGROCL_CLASS_DEBUG
Printf(stderr, "looking at child '%x' of type '%s' '%d'\n", c, childType, SwigType_isfunction(childType));
// Swig_print_node(c);
#endif
if (!SwigType_isfunction(childType))
Delete(compose_foreign_type(n, childType));
Delete(childType);
}
#ifdef ALLEGROCL_CLASS_DEBUG
Printf(stderr, " MANUAL walk DONE.\n");
#endif
// this will walk all necessary methods.
#ifdef ALLEGROCL_CLASS_DEBUG
Printf(stderr, " LANGUAGE walk of children...\n");
#endif
Language::classHandler(n);
#ifdef ALLEGROCL_CLASS_DEBUG
Printf(stderr, " LANGUAGE walk DONE\n");
#endif
in_class = prev_class;
return SWIG_OK;
}
int ALLEGROCL::emit_one(Node *n) {
// When the current package does not correspond with the current
// namespace we need to generate an IN-PACKAGE form, unless the
// current node is another namespace node.
if (Cmp(nodeType(n), "namespace") != 0 && Cmp(current_package, current_namespace) != 0) {
String *lispy_namespace = listify_namespace(current_namespace);
Printf(f_clwrap, "(swig-in-package %s)\n", lispy_namespace);
Delete(lispy_namespace);
Delete(current_package);
current_package = NewStringf("%s", current_namespace);
}
Setattr(n, "allegrocl:package", current_package);
return Language::emit_one(n);
}
int ALLEGROCL::enumDeclaration(Node *n) {
#ifdef ALLEGROCL_DEBUG
Printf(stderr, "enumDeclaration %s\n", Getattr(n, "name"));
#endif
if (Getattr(n, "sym:name")) {
add_defined_foreign_type(n);
}
Node *c;
for (c = firstChild(n); c; c = nextSibling(c)) {
ALLEGROCL::enumvalueDeclaration(c);
// since we walk our own children, we need to add
// the current package ourselves.
Setattr(c, "allegrocl:package", current_package);
}
return SWIG_OK;
}
int ALLEGROCL::enumvalueDeclaration(Node *n) {
#ifdef ALLEGROCL_DEBUG
Printf(stderr, "enumvalueDeclaration %s\n", Getattr(n, "name"));
#endif
/* print this when in C mode? make this a command-line arg? */
if (Generate_Wrapper) {
SwigType *enum_type = Copy(Getattr(n,"type"));
String *mangled_name =
mangle_name(n, "ACL_ENUM",
in_class ? Getattr(in_class,"name") :
current_namespace);
SwigType_add_qualifier(enum_type,"const");
String *enum_decl = SwigType_str(enum_type, mangled_name);
Printf(f_cxx_wrapper, "EXPORT %s;\n", enum_decl);
Printf(f_cxx_wrapper, "%s = %s;\n", enum_decl, Getattr(n, "value"));
Delete(mangled_name);
Delete(enum_type);
Delete(enum_decl);
}
return SWIG_OK;
}
int ALLEGROCL::templateDeclaration(Node *n) {
#ifdef ALLEGROCL_DEBUG
Printf(stderr, "templateDeclaration %s\n", Getattr(n, "name"));
#endif
String *type = Getattr(n, "templatetype");
// Printf(stderr, "tempDecl: %s %s\n", Getattr(n,"name"),
// type);
// Swig_print_node(n);
if (!Strcmp(type, "cdecl")) {
SwigType *ty = NewStringf("%s%s", Getattr(n, "decl"),
Getattr(n, "type"));
Delete(ty);
}
Delete(type);
return SWIG_OK;
}
Reference in New Issue View Git Blame Copy Permalink