Google Git
Sign in
android / platform / external / swig / d6d7afb75529f95edee21422a9dba07465b34266 / . / Source / Modules / lang.cxx
blob: 4dc39e069def2dbcc8aecb00607e2dd8001192fa [file] [log] [blame]
/* -----------------------------------------------------------------------------
* 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.
*
* lang.cxx
*
* Language base class functions. Default C++ handling is also implemented here.
* ----------------------------------------------------------------------------- */
#include "swigmod.h"
#include "cparse.h"
#include <ctype.h>
/* default mode settings */
static int director_mode = 0;
static int director_protected_mode = 1;
static int all_protected_mode = 0;
static int naturalvar_mode = 0;
Language *Language::this_ = 0;
/* Set director_protected_mode */
void Wrapper_director_mode_set(int flag) {
director_mode = flag;
}
void Wrapper_director_protected_mode_set(int flag) {
director_protected_mode = flag;
}
void Wrapper_all_protected_mode_set(int flag) {
all_protected_mode = flag;
}
void Wrapper_naturalvar_mode_set(int flag) {
naturalvar_mode = flag;
}
extern "C" {
int Swig_director_mode() {
return director_mode;
}
int Swig_director_protected_mode() {
return director_protected_mode;
}
int Swig_all_protected_mode() {
return all_protected_mode;
}
void Language_replace_special_variables(String *method, String *tm, Parm *parm) {
Language::instance()->replaceSpecialVariables(method, tm, parm);
}
}
/* Some status variables used during parsing */
static int InClass = 0; /* Parsing C++ or not */
static String *ClassName = 0; /* This is the real name of the current class */
static String *EnumClassName = 0; /* Enum class name */
static String *ClassPrefix = 0; /* Class prefix */
static String *EnumClassPrefix = 0; /* Prefix for strongly typed enums (including ClassPrefix) */
static String *NSpace = 0; /* Namespace for the nspace feature */
static String *ClassType = 0; /* Fully qualified type name to use */
static String *DirectorClassName = 0; /* Director name of the current class */
int Abstract = 0;
int ImportMode = 0;
int IsVirtual = 0;
static String *AttributeFunctionGet = 0;
static String *AttributeFunctionSet = 0;
static Node *CurrentClass = 0;
int line_number = 0;
String *input_file = 0;
int SmartPointer = 0;
static Hash *classhash;
extern int GenerateDefault;
extern int ForceExtern;
extern int AddExtern;
/* import modes */
#define IMPORT_MODE 1
#define IMPORT_MODULE 2
/* ----------------------------------------------------------------------
* Dispatcher::emit_one()
*
* Dispatch a single node
* ---------------------------------------------------------------------- */
int Dispatcher::emit_one(Node *n) {
int ret = SWIG_OK;
char *tag = Char(nodeType(n));
if (!tag) {
/* Printf(stderr,"SWIG: Fatal internal error. Malformed parse tree
node!\n"); */
return SWIG_OK;
}
/* Do not proceed if marked with an error */
if (Getattr(n, "error"))
return SWIG_OK;
/* Look for warnings */
String *wrn = Getattr(n, "feature:warnfilter");
if (wrn)
Swig_warnfilter(wrn, 1);
/* ============================================================
* C/C++ parsing
* ============================================================ */
if (strcmp(tag, "extern") == 0) {
ret = externDeclaration(n);
} else if (strcmp(tag, "cdecl") == 0) {
ret = cDeclaration(n);
} else if (strcmp(tag, "enum") == 0) {
ret = enumDeclaration(n);
} else if (strcmp(tag, "enumitem") == 0) {
ret = enumvalueDeclaration(n);
} else if (strcmp(tag, "enumforward") == 0) {
ret = enumforwardDeclaration(n);
} else if (strcmp(tag, "class") == 0) {
ret = classDeclaration(n);
} else if (strcmp(tag, "classforward") == 0) {
ret = classforwardDeclaration(n);
} else if (strcmp(tag, "constructor") == 0) {
ret = constructorDeclaration(n);
} else if (strcmp(tag, "destructor") == 0) {
ret = destructorDeclaration(n);
} else if (strcmp(tag, "access") == 0) {
ret = accessDeclaration(n);
} else if (strcmp(tag, "using") == 0) {
ret = usingDeclaration(n);
} else if (strcmp(tag, "namespace") == 0) {
ret = namespaceDeclaration(n);
} else if (strcmp(tag, "template") == 0) {
ret = templateDeclaration(n);
} else if (strcmp(tag, "lambda") == 0) {
ret = lambdaDeclaration(n);
}
/* ===============================================================
* SWIG directives
* =============================================================== */
else if (strcmp(tag, "top") == 0) {
ret = top(n);
} else if (strcmp(tag, "extend") == 0) {
ret = extendDirective(n);
} else if (strcmp(tag, "apply") == 0) {
ret = applyDirective(n);
} else if (strcmp(tag, "clear") == 0) {
ret = clearDirective(n);
} else if (strcmp(tag, "constant") == 0) {
ret = constantDirective(n);
} else if (strcmp(tag, "fragment") == 0) {
ret = fragmentDirective(n);
} else if (strcmp(tag, "import") == 0) {
ret = importDirective(n);
} else if (strcmp(tag, "include") == 0) {
ret = includeDirective(n);
} else if (strcmp(tag, "insert") == 0) {
ret = insertDirective(n);
} else if (strcmp(tag, "module") == 0) {
ret = moduleDirective(n);
} else if (strcmp(tag, "native") == 0) {
ret = nativeDirective(n);
} else if (strcmp(tag, "pragma") == 0) {
ret = pragmaDirective(n);
} else if (strcmp(tag, "typemap") == 0) {
ret = typemapDirective(n);
} else if (strcmp(tag, "typemapcopy") == 0) {
ret = typemapcopyDirective(n);
} else if (strcmp(tag, "typemapitem") == 0) {
ret = typemapitemDirective(n);
} else if (strcmp(tag, "types") == 0) {
ret = typesDirective(n);
} else {
Swig_error(input_file, line_number, "Unrecognized parse tree node type '%s'\n", tag);
ret = SWIG_ERROR;
}
if (wrn)
Swig_warnfilter(wrn, 0);
return ret;
}
/* ----------------------------------------------------------------------
* Dispatcher::emit_children()
*
* Emit all children that match the given type. type = 0 means all types.
* ---------------------------------------------------------------------- */
int Dispatcher::emit_children(Node *n) {
Node *c;
char *eo = Char(Getattr(n, "feature:emitonlychildren"));
for (c = firstChild(n); c; c = nextSibling(c)) {
if (eo) {
const char *tag = Char(nodeType(c));
if (strcmp(tag, "cdecl") == 0) {
if (checkAttribute(c, "storage", "typedef"))
tag = "typedef";
}
if (strstr(eo, tag) == 0) {
continue;
}
}
emit_one(c);
}
return SWIG_OK;
}
/* Stubs for dispatcher class. We don't do anything by default---up to derived class
to fill in traversal code */
int Dispatcher::defaultHandler(Node *) {
return SWIG_OK;
}
int Dispatcher::extendDirective(Node *n) {
return defaultHandler(n);
}
int Dispatcher::applyDirective(Node *n) {
return defaultHandler(n);
}
int Dispatcher::clearDirective(Node *n) {
return defaultHandler(n);
}
int Dispatcher::constantDirective(Node *n) {
return defaultHandler(n);
}
int Dispatcher::fragmentDirective(Node *n) {
return defaultHandler(n);
}
int Dispatcher::importDirective(Node *n) {
return defaultHandler(n);
}
int Dispatcher::includeDirective(Node *n) {
return defaultHandler(n);
}
int Dispatcher::insertDirective(Node *n) {
return defaultHandler(n);
}
int Dispatcher::moduleDirective(Node *n) {
return defaultHandler(n);
}
int Dispatcher::nativeDirective(Node *n) {
return defaultHandler(n);
}
int Dispatcher::pragmaDirective(Node *n) {
return defaultHandler(n);
}
int Dispatcher::typemapDirective(Node *n) {
return defaultHandler(n);
}
int Dispatcher::typemapitemDirective(Node *n) {
return defaultHandler(n);
}
int Dispatcher::typemapcopyDirective(Node *n) {
return defaultHandler(n);
}
int Dispatcher::typesDirective(Node *n) {
return defaultHandler(n);
}
int Dispatcher::cDeclaration(Node *n) {
return defaultHandler(n);
}
int Dispatcher::externDeclaration(Node *n) {
return defaultHandler(n);
}
int Dispatcher::enumDeclaration(Node *n) {
return defaultHandler(n);
}
int Dispatcher::enumvalueDeclaration(Node *n) {
return defaultHandler(n);
}
int Dispatcher::enumforwardDeclaration(Node *n) {
return defaultHandler(n);
}
int Dispatcher::classDeclaration(Node *n) {
return defaultHandler(n);
}
int Dispatcher::templateDeclaration(Node *n) {
return defaultHandler(n);
}
int Dispatcher::lambdaDeclaration(Node *n) {
return defaultHandler(n);
}
int Dispatcher::classforwardDeclaration(Node *n) {
return defaultHandler(n);
}
int Dispatcher::constructorDeclaration(Node *n) {
return defaultHandler(n);
}
int Dispatcher::destructorDeclaration(Node *n) {
return defaultHandler(n);
}
int Dispatcher::accessDeclaration(Node *n) {
return defaultHandler(n);
}
int Dispatcher::usingDeclaration(Node *n) {
return defaultHandler(n);
}
int Dispatcher::namespaceDeclaration(Node *n) {
return defaultHandler(n);
}
/* Allocators */
Language::Language():
none_comparison(NewString("$arg != 0")),
director_ctor_code(NewString("")),
director_prot_ctor_code(0),
symtabs(NewHash()),
classtypes(NewHash()),
enumtypes(NewHash()),
overloading(0),
multiinput(0),
cplus_runtime(0),
directors(0) {
symbolAddScope(""); // create top level/global symbol table scope
argc_template_string = NewString("argc");
argv_template_string = NewString("argv[%d]");
/* Default director constructor code, passed to Swig_ConstructorToFunction */
Printv(director_ctor_code, "if ( $comparison ) { /* subclassed */\n", " $director_new \n", "} else {\n", " $nondirector_new \n", "}\n", NIL);
/*
Default director 'protected' constructor code, disabled by
default. Each language that needs it, has to define it.
*/
director_prot_ctor_code = 0;
director_multiple_inheritance = 1;
director_language = 0;
assert(!this_);
this_ = this;
}
Language::~Language() {
Delete(symtabs);
Delete(classtypes);
Delete(enumtypes);
Delete(director_ctor_code);
Delete(none_comparison);
this_ = 0;
}
/* -----------------------------------------------------------------------------
* directorClassName()
* ----------------------------------------------------------------------------- */
String *Language::directorClassName(Node *n) {
String *dirclassname;
String *nspace = NewString(Getattr(n, "sym:nspace"));
const char *attrib = "director:classname";
String *classname = getClassPrefix();
Replace(nspace, NSPACE_SEPARATOR, "_", DOH_REPLACE_ANY);
if (Len(nspace) > 0)
dirclassname = NewStringf("SwigDirector_%s_%s", nspace, classname);
else
dirclassname = NewStringf("SwigDirector_%s", classname);
Setattr(n, attrib, dirclassname);
Delete(nspace);
return dirclassname;
}
/* ----------------------------------------------------------------------
emit_one()
---------------------------------------------------------------------- */
int Language::emit_one(Node *n) {
int ret;
int oldext;
if (!n)
return SWIG_OK;
if (GetFlag(n, "feature:ignore")
&& !Getattr(n, "feature:onlychildren"))
return SWIG_OK;
oldext = Extend;
if (Getattr(n, "feature:extend"))
Extend = 1;
line_number = Getline(n);
input_file = Getfile(n);
/*
symtab = Getattr(n,"symtab");
if (symtab) {
symtab = Swig_symbol_setscope(symtab);
}
*/
ret = Dispatcher::emit_one(n);
/*
if (symtab) {
Swig_symbol_setscope(symtab);
}
*/
Extend = oldext;
return ret;
}
static Parm *nonvoid_parms(Parm *p) {
if (p) {
SwigType *t = Getattr(p, "type");
if (SwigType_type(t) == T_VOID)
return 0;
}
return p;
}
/* -----------------------------------------------------------------------------
* cplus_value_type()
*
* Returns the alternative value type needed in C++ for class value
* types. When swig is not sure about using a plain $ltype value,
* since the class doesn't have a default constructor, or it can't be
* assigned, you will get back 'SwigValueWrapper<type >'.
*
* ----------------------------------------------------------------------------- */
SwigType *cplus_value_type(SwigType *t) {
return SwigType_alttype(t, 0);
}
static Node *first_nontemplate(Node *n) {
while (n) {
if (Strcmp(nodeType(n), "template") != 0)
return n;
n = Getattr(n, "sym:nextSibling");
}
return n;
}
/* --------------------------------------------------------------------------
* swig_pragma()
*
* Handle swig pragma directives.
* -------------------------------------------------------------------------- */
void swig_pragma(char *lang, char *name, char *value) {
if (strcmp(lang, "swig") == 0) {
if ((strcmp(name, "make_default") == 0) || ((strcmp(name, "makedefault") == 0))) {
GenerateDefault = 1;
} else if ((strcmp(name, "no_default") == 0) || ((strcmp(name, "nodefault") == 0))) {
Swig_warning(WARN_DEPRECATED_NODEFAULT, "SWIG", 1, "dangerous, use %%nodefaultctor, %%nodefaultdtor instead.\n");
GenerateDefault = 0;
} else if (strcmp(name, "attributefunction") == 0) {
String *nvalue = NewString(value);
char *s = strchr(Char(nvalue), ':');
if (!s) {
Swig_error(input_file, line_number, "Bad value for attributefunction. Expected \"fmtget:fmtset\".\n");
} else {
*s = 0;
AttributeFunctionGet = NewString(Char(nvalue));
AttributeFunctionSet = NewString(s + 1);
}
Delete(nvalue);
} else if (strcmp(name, "noattributefunction") == 0) {
AttributeFunctionGet = 0;
AttributeFunctionSet = 0;
}
}
}
/* --------------------------------------------------------------------------
* Language::use_naturalvar_mode()
*
* Determine whether to use const ref typemaps instead of pointer typemaps
* for variable access.
* -------------------------------------------------------------------------- */
int Language::use_naturalvar_mode(Node *n) const {
if (Getattr(n, "unnamed"))
return 0;
// The naturalvar feature can be attached to either the variable name or the variable's type
// naturalvar on the variable name is more specific and overrides naturalvar on the variable's type
String *naturalvar = Getattr(n, "feature:naturalvar");
bool explicitly_off = naturalvar && Strcmp(naturalvar, "0") == 0;
int nvar = GetFlag(n, "feature:naturalvar");
if (!explicitly_off && !nvar) {
/* look for feature in the class */
SwigType *ty = Getattr(n, "type");
SwigType *fullty = SwigType_typedef_resolve_all(ty);
if (SwigType_isclass(fullty)) {
SwigType *tys = SwigType_strip_qualifiers(fullty);
if (!CPlusPlus) {
Replaceall(tys, "struct ", "");
Replaceall(tys, "union ", "");
Replaceall(tys, "class ", "");
}
Node *typenode = Swig_symbol_clookup(tys, 0);
if (typenode) {
naturalvar = Getattr(typenode, "feature:naturalvar");
explicitly_off = naturalvar && Strcmp(naturalvar, "0") == 0;
nvar = nvar || GetFlag(typenode, "feature:naturalvar");
}
Delete(tys);
}
Delete(fullty);
}
nvar = nvar || naturalvar_mode;
return explicitly_off ? 0 : nvar ? CWRAP_NATURAL_VAR : 0;
}
/* ----------------------------------------------------------------------
* Language::top() - Top of parsing tree
* ---------------------------------------------------------------------- */
int Language::top(Node *n) {
Node *mod = Getattr(n, "module");
if (mod) {
Node *options = Getattr(mod, "options");
if (options) {
if (Getattr(options, "naturalvar")) {
naturalvar_mode = 1;
}
}
}
classhash = Getattr(n, "classes");
return emit_children(n);
}
/* ----------------------------------------------------------------------
* Language::extendDirective()
* ---------------------------------------------------------------------- */
int Language::extendDirective(Node *n) {
save_value<int> oldam(Extend, CWRAP_EXTEND);
save_value<AccessMode> oldmode(cplus_mode, PUBLIC);
emit_children(n);
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::applyDirective()
* ---------------------------------------------------------------------- */
int Language::applyDirective(Node *n) {
Parm *pattern = Getattr(n, "pattern");
Node *c = firstChild(n);
while (c) {
Parm *apattern = Getattr(c, "pattern");
if (ParmList_len(pattern) != ParmList_len(apattern)) {
Swig_error(input_file, line_number, "Can't apply (%s) to (%s). Number of arguments don't match.\n", ParmList_str(pattern), ParmList_str(apattern));
} else {
if (!Swig_typemap_apply(pattern, apattern)) {
Swig_warning(WARN_TYPEMAP_APPLY_UNDEF, input_file, line_number, "Can't apply (%s). No typemaps are defined.\n", ParmList_str(pattern));
}
}
c = nextSibling(c);
}
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::clearDirective()
* ---------------------------------------------------------------------- */
int Language::clearDirective(Node *n) {
Node *p;
for (p = firstChild(n); p; p = nextSibling(p)) {
ParmList *pattern = Getattr(p, "pattern");
Swig_typemap_clear_apply(pattern);
}
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::constantDirective()
* ---------------------------------------------------------------------- */
int Language::constantDirective(Node *n) {
if (CurrentClass && (cplus_mode != PUBLIC))
return SWIG_NOWRAP;
if (!GetFlag(n, "feature:allowexcept")) {
UnsetFlag(n, "feature:except");
}
if (Getattr(n, "feature:exceptvar")) {
Setattr(n, "feature:except", Getattr(n, "feature:exceptvar"));
}
if (!ImportMode) {
Swig_require("constantDirective", n, "name", "?value", NIL);
String *name = Getattr(n, "name");
String *value = Getattr(n, "value");
if (!value) {
value = Copy(name);
} else {
/* if (checkAttribute(n,"type","char")) {
value = NewString(value);
} else {
value = NewStringf("%(escape)s", value);
}
*/
Setattr(n, "rawvalue", value);
value = NewStringf("%(escape)s", value);
if (!Len(value))
Append(value, "\\0");
/* Printf(stdout,"'%s' = '%s'\n", name, value); */
}
Setattr(n, "value", value);
this->constantWrapper(n);
Swig_restore(n);
return SWIG_OK;
}
return SWIG_NOWRAP;
}
/* ----------------------------------------------------------------------
* Language::fragmentDirective()
* ---------------------------------------------------------------------- */
int Language::fragmentDirective(Node *n) {
Swig_fragment_register(n);
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::importDirective()
* ---------------------------------------------------------------------- */
int Language::importDirective(Node *n) {
int oldim = ImportMode;
ImportMode = IMPORT_MODE;
emit_children(n);
ImportMode = oldim;
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::includeDirective()
* ---------------------------------------------------------------------- */
int Language::includeDirective(Node *n) {
emit_children(n);
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::insertDirective()
* ---------------------------------------------------------------------- */
int Language::insertDirective(Node *n) {
/* %insert directive */
if ((!ImportMode) || Getattr(n, "generated")) {
String *code = Getattr(n, "code");
String *section = Getattr(n, "section");
File *f = 0;
if (!section) { /* %{ ... %} */
f = Swig_filebyname("header");
} else {
f = Swig_filebyname(section);
}
if (f) {
Printf(f, "%s\n", code);
} else {
Swig_error(input_file, line_number, "Unknown target '%s' for %%insert directive.\n", section);
}
return SWIG_OK;
} else {
return SWIG_NOWRAP;
}
}
/* ----------------------------------------------------------------------
* Language::moduleDirective()
* ---------------------------------------------------------------------- */
int Language::moduleDirective(Node *n) {
(void) n;
/* %module directive */
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::nativeDirective()
* ---------------------------------------------------------------------- */
int Language::nativeDirective(Node *n) {
if (!ImportMode) {
return nativeWrapper(n);
} else {
return SWIG_NOWRAP;
}
}
/* ----------------------------------------------------------------------
* Language::pragmaDirective()
* ---------------------------------------------------------------------- */
int Language::pragmaDirective(Node *n) {
/* %pragma directive */
if (!ImportMode) {
String *lan = Getattr(n, "lang");
String *name = Getattr(n, "name");
String *value = Getattr(n, "value");
swig_pragma(Char(lan), Char(name), Char(value));
/* pragma(Char(lan),Char(name),Char(value)); */
return SWIG_OK;
}
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::typemapDirective()
* ---------------------------------------------------------------------- */
int Language::typemapDirective(Node *n) {
/* %typemap directive */
String *method = Getattr(n, "method");
String *code = Getattr(n, "code");
Parm *kwargs = Getattr(n, "kwargs");
Node *items = firstChild(n);
static int namewarn = 0;
if (code && (Strstr(code, "$source") || (Strstr(code, "$target")))) {
Swig_warning(WARN_TYPEMAP_SOURCETARGET, Getfile(n), Getline(n), "Deprecated typemap feature ($source/$target).\n");
if (!namewarn) {
Swig_warning(WARN_TYPEMAP_SOURCETARGET, Getfile(n), Getline(n), "The use of $source and $target in a typemap declaration is deprecated.\n\
For typemaps related to argument input (in,ignore,default,arginit,check), replace\n\
$source by $input and $target by $1. For typemaps related to return values (out,\n\
argout,ret,except), replace $source by $1 and $target by $result. See the file\n\
Doc/Manual/Typemaps.html for complete details.\n");
namewarn = 1;
}
}
if (Strcmp(method, "except") == 0) {
Swig_warning(WARN_DEPRECATED_EXCEPT_TM, Getfile(n), Getline(n), "%%typemap(except) is deprecated. Use the %%exception directive.\n");
}
if (Strcmp(method, "in") == 0) {
Hash *k;
k = kwargs;
while (k) {
if (checkAttribute(k, "name", "numinputs")) {
if (!multiinput && (GetInt(k, "value") > 1)) {
Swig_error(Getfile(n), Getline(n), "Multiple-input typemaps (numinputs > 1) not supported by this target language module.\n");
return SWIG_ERROR;
}
break;
}
k = nextSibling(k);
}
if (!k) {
k = NewHash();
Setattr(k, "name", "numinputs");
Setattr(k, "value", "1");
set_nextSibling(k, kwargs);
Setattr(n, "kwargs", k);
kwargs = k;
}
}
if (Strcmp(method, "ignore") == 0) {
Swig_warning(WARN_DEPRECATED_IGNORE_TM, Getfile(n), Getline(n), "%%typemap(ignore) has been replaced by %%typemap(in,numinputs=0).\n");
Clear(method);
Append(method, "in");
Hash *k = NewHash();
Setattr(k, "name", "numinputs");
Setattr(k, "value", "0");
set_nextSibling(k, kwargs);
Setattr(n, "kwargs", k);
kwargs = k;
}
/* Replace $descriptor() macros */
if (code) {
Setfile(code, Getfile(n));
Setline(code, Getline(n));
Swig_cparse_replace_descriptor(code);
}
while (items) {
Parm *pattern = Getattr(items, "pattern");
Parm *parms = Getattr(items, "parms");
if (code) {
Swig_typemap_register(method, pattern, code, parms, kwargs);
} else {
Swig_typemap_clear(method, pattern);
}
items = nextSibling(items);
}
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::typemapcopyDirective()
* ---------------------------------------------------------------------- */
int Language::typemapcopyDirective(Node *n) {
String *method = Getattr(n, "method");
Parm *pattern = Getattr(n, "pattern");
Node *items = firstChild(n);
int nsrc = 0;
nsrc = ParmList_len(pattern);
while (items) {
ParmList *npattern = Getattr(items, "pattern");
if (nsrc != ParmList_len(npattern)) {
Swig_error(input_file, line_number, "Can't copy typemap. Number of types differ.\n");
} else {
if (Swig_typemap_copy(method, pattern, npattern) < 0) {
Swig_error(input_file, line_number, "Can't copy typemap (%s) %s = %s\n", method, ParmList_str(pattern), ParmList_str(npattern));
}
}
items = nextSibling(items);
}
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::typesDirective()
* ---------------------------------------------------------------------- */
int Language::typesDirective(Node *n) {
Parm *parms = Getattr(n, "parms");
String *convcode = Getattr(n, "convcode"); /* optional user supplied conversion code for custom casting */
while (parms) {
SwigType *t = Getattr(parms, "type");
String *v = Getattr(parms, "value");
if (!v) {
SwigType_remember(t);
} else {
if (SwigType_issimple(t)) {
SwigType_inherit(t, v, 0, convcode);
}
}
parms = nextSibling(parms);
}
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::cDeclaration()
* ---------------------------------------------------------------------- */
int Language::cDeclaration(Node *n) {
String *name = Getattr(n, "name");
String *symname = Getattr(n, "sym:name");
SwigType *type = Getattr(n, "type");
SwigType *decl = Getattr(n, "decl");
String *storage = Getattr(n, "storage");
Node *over;
File *f_header = 0;
SwigType *ty, *fullty;
if (Getattr(n, "feature:onlychildren")) {
if (GetFlag(n, "feature:ignore")) {
return SWIG_NOWRAP;
} else {
// Found an unignored templated method that has an empty template instantiation (%template())
// Ignore it unless it has been %rename'd
if (Strncmp(symname, "__dummy_", 8) == 0 && Cmp(storage, "typedef") != 0) {
SetFlag(n, "feature:ignore");
Swig_warning(WARN_LANG_TEMPLATE_METHOD_IGNORE, input_file, line_number,
"%%template() contains no name. Template method ignored: %s\n", Swig_name_decl(n));
return SWIG_NOWRAP;
}
}
}
/* discards nodes following the access control rules */
if (cplus_mode != PUBLIC || !is_public(n)) {
/* except for friends, they are not affected by access control */
int isfriend = Cmp(storage, "friend") == 0;
if (!isfriend) {
/* Check what the director needs. If the method is pure virtual, it is always needed.
* Also wrap non-virtual protected members if asked for (allprotected mode). */
if (!(directorsEnabled() && ((is_member_director(CurrentClass, n) && need_nonpublic_member(n)) || isNonVirtualProtectedAccess(n)))) {
return SWIG_NOWRAP;
}
// Prevent wrapping protected overloaded director methods more than once -
// This bit of code is only needed due to the cDeclaration call in classHandler()
String *wrapname = NewStringf("nonpublic_%s%s", symname, Getattr(n, "sym:overname"));
if (Getattr(CurrentClass, wrapname)) {
Delete(wrapname);
return SWIG_NOWRAP;
}
SetFlag(CurrentClass, wrapname);
Delete(wrapname);
}
}
if (Cmp(storage, "typedef") == 0) {
Swig_save("cDeclaration", n, "type", NIL);
SwigType *t = Copy(type);
if (t) {
SwigType_push(t, decl);
Setattr(n, "type", t);
typedefHandler(n);
}
Swig_restore(n);
return SWIG_OK;
}
/* If in import mode, we proceed no further */
if (ImportMode)
return SWIG_NOWRAP;
/* If we're in extend mode and there is code, replace the $descriptor macros */
if (Extend) {
String *code = Getattr(n, "code");
if (code) {
Setfile(code, Getfile(n));
Setline(code, Getline(n));
Swig_cparse_replace_descriptor(code);
}
}
/* Overloaded symbol check */
over = Swig_symbol_isoverloaded(n);
if (!overloading) {
if (over)
over = first_nontemplate(over);
if (over && (over != n)) {
Swig_warning(WARN_LANG_OVERLOAD_DECL, input_file, line_number, "Overloaded declaration ignored. %s\n", Swig_name_decl(n));
Swig_warning(WARN_LANG_OVERLOAD_DECL, Getfile(over), Getline(over), "Previous declaration is %s\n", Swig_name_decl(over));
return SWIG_NOWRAP;
}
}
if (!validIdentifier(symname)) {
Swig_warning(WARN_LANG_IDENTIFIER, input_file, line_number, "Can't wrap '%s' unless renamed to a valid identifier.\n", SwigType_namestr(symname));
return SWIG_NOWRAP;
}
ty = NewString(type);
SwigType_push(ty, decl);
fullty = SwigType_typedef_resolve_all(ty);
if (SwigType_isfunction(fullty)) {
if (!SwigType_isfunction(ty)) {
Delete(ty);
ty = fullty;
fullty = 0;
ParmList *parms = SwigType_function_parms(ty, n);
Setattr(n, "parms", parms);
}
/* Transform the node into a 'function' node and emit */
if (!CurrentClass) {
f_header = Swig_filebyname("header");
if (AddExtern) {
if (f_header) {
if (Swig_storage_isextern(n) || (ForceExtern && !storage)) {
/* we don't need the 'extern' part in the C/C++ declaration,
and it produces some problems when namespace and SUN
Studio is used.
Printf(f_header,"extern %s", SwigType_str(ty,name));
In fact generating extern declarations is quite error prone and is
no longer the default. Getting it right seems impossible with namespaces
and default arguments and when a method is declared with the various Windows
calling conventions - SWIG doesn't understand Windows (non standard) calling
conventions in the first place, so can't regenerate them.
*/
String *str = SwigType_str(ty, name);
Printf(f_header, "%s", str);
Delete(str);
{
DOH *t = Getattr(n, "throws");
if (t) {
Printf(f_header, " throw(");
while (t) {
Printf(f_header, "%s", Getattr(t, "type"));
t = nextSibling(t);
if (t)
Printf(f_header, ",");
}
Printf(f_header, ")");
}
}
Printf(f_header, ";\n");
} else if (Swig_storage_isexternc(n)) {
/* here 'extern "C"' is needed */
String *str = SwigType_str(ty, name);
Printf(f_header, "extern \"C\" %s;\n", str);
Delete(str);
}
}
}
}
/* This needs to check qualifiers */
if (SwigType_isqualifier(ty)) {
SwigType *qual = SwigType_pop(ty);
Setattr(n, "qualifier", qual);
Delete(qual);
}
Delete(SwigType_pop_function(ty));
DohIncref(type);
Setattr(n, "type", ty);
functionHandler(n);
Setattr(n, "type", type);
Delete(ty);
Delete(type);
return SWIG_OK;
} else {
/* Some kind of variable declaration */
String *declaration = Copy(decl);
Delattr(n, "decl");
if (!CurrentClass) {
if (Swig_storage_isextern(n) || ForceExtern) {
if (AddExtern) {
f_header = Swig_filebyname("header");
if (f_header) {
String *str = SwigType_str(ty, name);
Printf(f_header, "%s %s;\n", Getattr(n, "storage"), str);
Delete(str);
}
}
}
}
if (!SwigType_ismutable(ty)) {
SetFlag(n, "feature:immutable");
}
/* If an array and elements are const, then read-only */
if (SwigType_isarray(ty)) {
SwigType *tya = SwigType_array_type(ty);
if (SwigType_isconst(tya)) {
SetFlag(n, "feature:immutable");
}
Delete(tya);
}
DohIncref(type);
Setattr(n, "type", ty);
variableHandler(n);
Setattr(n, "type", type);
Setattr(n, "decl", declaration);
Delete(ty);
Delete(type);
Delete(fullty);
return SWIG_OK;
}
}
/* ----------------------------------------------------------------------
* Language::functionHandler()
* ---------------------------------------------------------------------- */
int Language::functionHandler(Node *n) {
String *storage = Getattr(n, "storage");
int isfriend = CurrentClass && Cmp(storage, "friend") == 0;
int isstatic = CurrentClass && Swig_storage_isstatic(n) && !(SmartPointer && Getattr(n, "allocate:smartpointeraccess"));
Parm *p = Getattr(n, "parms");
if (GetFlag(n, "feature:del")) {
/* the method acts like a delete operator, ie, we need to disown the parameter */
if (CurrentClass && !isstatic && !isfriend) {
SetFlag(n, "feature:self:disown");
} else {
if (p)
SetFlag(p, "wrap:disown");
}
}
if (!CurrentClass) {
globalfunctionHandler(n);
} else {
if (isstatic) {
staticmemberfunctionHandler(n);
} else if (isfriend) {
int oldInClass = InClass;
InClass = 0;
globalfunctionHandler(n);
InClass = oldInClass;
} else {
Node *explicit_n = 0;
if (directorsEnabled() && is_member_director(CurrentClass, n) && !extraDirectorProtectedCPPMethodsRequired()) {
bool virtual_but_not_pure_virtual = (!(Cmp(storage, "virtual")) && (Cmp(Getattr(n, "value"), "0") != 0));
if (virtual_but_not_pure_virtual) {
// Add additional wrapper which makes an explicit call to the virtual method (ie not a virtual call)
explicit_n = Copy(n);
String *new_symname = Copy(Getattr(n, "sym:name"));
String *suffix = Getattr(parentNode(n), "sym:name");
Printv(new_symname, "SwigExplicit", suffix, NIL);
Setattr(explicit_n, "sym:name", new_symname);
Delattr(explicit_n, "storage");
Delattr(explicit_n, "override");
Delattr(explicit_n, "hides");
SetFlag(explicit_n, "explicitcall");
Setattr(n, "explicitcallnode", explicit_n);
}
}
memberfunctionHandler(n);
if (explicit_n) {
memberfunctionHandler(explicit_n);
Delattr(explicit_n, "explicitcall");
Delete(explicit_n);
}
}
}
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::globalfunctionHandler()
* ---------------------------------------------------------------------- */
int Language::globalfunctionHandler(Node *n) {
Swig_require("globalfunctionHandler", n, "name", "sym:name", "type", "?parms", NIL);
String *name = Getattr(n, "name");
String *symname = Getattr(n, "sym:name");
SwigType *type = Getattr(n, "type");
ParmList *parms = Getattr(n, "parms");
/* Check for callback mode */
String *cb = GetFlagAttr(n, "feature:callback");
if (cb) {
String *cbname = Getattr(n, "feature:callback:name");
if (!cbname) {
cbname = NewStringf(cb, symname);
Setattr(n, "feature:callback:name", cbname);
}
callbackfunctionHandler(n);
if (Cmp(cbname, symname) == 0) {
Delete(cbname);
Swig_restore(n);
return SWIG_NOWRAP;
}
Delete(cbname);
}
Setattr(n, "parms", nonvoid_parms(parms));
String *extendname = Getattr(n, "extendname");
String *call = Swig_cfunction_call(extendname ? extendname : name, parms);
String *cres = Swig_cresult(type, Swig_cresult_name(), call);
Setattr(n, "wrap:action", cres);
Delete(cres);
Delete(call);
functionWrapper(n);
Swig_restore(n);
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::callbackfunctionHandler()
* ---------------------------------------------------------------------- */
int Language::callbackfunctionHandler(Node *n) {
Swig_require("callbackfunctionHandler", n, "name", "*sym:name", "*type", "?value", NIL);
String *type = Getattr(n, "type");
String *name = Getattr(n, "name");
String *parms = Getattr(n, "parms");
String *cbname = Getattr(n, "feature:callback:name");
String *calltype = NewStringf("(%s (*)(%s))(%s)", SwigType_str(type, 0), ParmList_str(parms), SwigType_namestr(name));
SwigType *cbty = Copy(type);
SwigType_add_function(cbty, parms);
SwigType_add_pointer(cbty);
Setattr(n, "sym:name", cbname);
Setattr(n, "type", cbty);
Setattr(n, "value", calltype);
Node *ns = symbolLookup(cbname);
if (!ns)
constantWrapper(n);
Delete(cbty);
Swig_restore(n);
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::memberfunctionHandler()
* ---------------------------------------------------------------------- */
int Language::memberfunctionHandler(Node *n) {
Swig_require("memberfunctionHandler", n, "*name", "*sym:name", "*type", "?parms", "?value", NIL);
String *storage = Getattr(n, "storage");
String *name = Getattr(n, "name");
String *symname = Getattr(n, "sym:name");
SwigType *type = Getattr(n, "type");
String *value = Getattr(n, "value");
ParmList *parms = Getattr(n, "parms");
String *cb = GetFlagAttr(n, "feature:callback");
if (Cmp(storage, "virtual") == 0) {
if (Cmp(value, "0") == 0) {
IsVirtual = PURE_VIRTUAL;
} else {
IsVirtual = PLAIN_VIRTUAL;
}
} else {
IsVirtual = 0;
}
if (cb) {
Node *cbn = NewHash();
String *cbname = Getattr(n, "feature:callback:name");
if (!cbname) {
cbname = NewStringf(cb, symname);
}
SwigType *cbty = Copy(type);
SwigType_add_function(cbty, parms);
SwigType_add_memberpointer(cbty, ClassName);
String *cbvalue = NewStringf("&%s::%s", ClassName, name);
Setattr(cbn, "sym:name", cbname);
Setattr(cbn, "type", cbty);
Setattr(cbn, "value", cbvalue);
Setattr(cbn, "name", name);
Setfile(cbn, Getfile(n));
Setline(cbn, Getline(n));
memberconstantHandler(cbn);
Setattr(n, "feature:callback:name", Swig_name_member(NSpace, ClassPrefix, cbname));
Delete(cb);
Delete(cbn);
Delete(cbvalue);
Delete(cbty);
Delete(cbname);
if (Cmp(cbname, symname) == 0) {
Swig_restore(n);
return SWIG_NOWRAP;
}
}
String *fname = Swig_name_member(NSpace, ClassPrefix, symname);
if (Extend && SmartPointer) {
if (!Getattr(n, "extendsmartclassname")) {
Setattr(n, "extendsmartclassname", Getattr(CurrentClass, "allocate:smartpointerpointeeclassname"));
}
}
// Set up the type for the cast to this class for use when wrapping const director (virtual) methods.
// Note: protected director methods or when allprotected mode turned on.
String *director_type = 0;
if (!is_public(n) && (is_member_director(CurrentClass, n) || GetFlag(n, "explicitcall") || isNonVirtualProtectedAccess(n))) {
director_type = Copy(DirectorClassName);
String *qualifier = Getattr(n, "qualifier");
if (qualifier)
SwigType_push(director_type, qualifier);
SwigType_add_pointer(director_type);
}
int DirectorExtraCall = 0;
if (directorsEnabled() && is_member_director(CurrentClass, n) && !SmartPointer)
if (extraDirectorProtectedCPPMethodsRequired())
DirectorExtraCall = CWRAP_DIRECTOR_TWO_CALLS;
if (GetFlag(n, "explicitcall"))
DirectorExtraCall = CWRAP_DIRECTOR_ONE_CALL;
int extendmember = GetFlag(n, "isextendmember") ? Extend : 0;
int flags = Getattr(n, "template") ? extendmember | SmartPointer : Extend | SmartPointer | DirectorExtraCall;
Swig_MethodToFunction(n, NSpace, ClassType, flags, director_type, is_member_director(CurrentClass, n));
Setattr(n, "sym:name", fname);
functionWrapper(n);
Delete(director_type);
Delete(fname);
Swig_restore(n);
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::staticmemberfunctionHandler()
* ---------------------------------------------------------------------- */
int Language::staticmemberfunctionHandler(Node *n) {
Swig_require("staticmemberfunctionHandler", n, "*name", "*sym:name", "*type", NIL);
Swig_save("staticmemberfunctionHandler", n, "storage", NIL);
String *name = Getattr(n, "name");
String *symname = Getattr(n, "sym:name");
SwigType *type = Getattr(n, "type");
ParmList *parms = Getattr(n, "parms");
String *cb = GetFlagAttr(n, "feature:callback");
String *cname, *mrename;
if (!Extend) {
Node *sb = Getattr(n, "cplus:staticbase");
String *sname = Getattr(sb, "name");
if (isNonVirtualProtectedAccess(n))
cname = NewStringf("%s::%s", DirectorClassName, name);
else
cname = NewStringf("%s::%s", sname, name);
} else {
String *mname = Swig_name_mangle(ClassName);
cname = Swig_name_member(NSpace, mname, name);
Delete(mname);
}
mrename = Swig_name_member(NSpace, ClassPrefix, symname);
if (Extend) {
String *code = Getattr(n, "code");
String *defaultargs = Getattr(n, "defaultargs");
String *mangled = Swig_name_mangle(mrename);
Delete(mrename);
mrename = mangled;
if (Getattr(n, "sym:overloaded") && code) {
Append(cname, Getattr(defaultargs ? defaultargs : n, "sym:overname"));
}
if (!defaultargs && code) {
/* Hmmm. An added static member. We have to create a little wrapper for this */
String *mangled_cname = Swig_name_mangle(cname);
Swig_add_extension_code(n, mangled_cname, parms, type, code, CPlusPlus, 0);
Setattr(n, "extendname", mangled_cname);
Delete(mangled_cname);
}
}
Setattr(n, "name", cname);
Setattr(n, "sym:name", mrename);
if (cb) {
String *cbname = NewStringf(cb, symname);
Setattr(n, "feature:callback:name", Swig_name_member(NSpace, ClassPrefix, cbname));
Setattr(n, "feature:callback:staticname", name);
}
Delattr(n, "storage");
globalfunctionHandler(n);
Delete(cname);
Delete(mrename);
Swig_restore(n);
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::variableHandler()
* ---------------------------------------------------------------------- */
int Language::variableHandler(Node *n) {
/* If not a smart-pointer access or added method. We clear
feature:except. There is no way C++ or C would throw
an exception merely for accessing a member data.
Caveat: Some compilers seem to route attribute access through
methods which can generate exceptions. The feature:allowexcept
allows this. Also, the feature:exceptvar can be used to match
only variables.
*/
if (!(Extend | SmartPointer)) {
if (!GetFlag(n, "feature:allowexcept")) {
UnsetFlag(n, "feature:except");
}
if (Getattr(n, "feature:exceptvar")) {
Setattr(n, "feature:except", Getattr(n, "feature:exceptvar"));
}
}
if (!CurrentClass) {
globalvariableHandler(n);
} else {
Swig_save("variableHandler", n, "feature:immutable", NIL);
if (SmartPointer) {
/* If a smart-pointer and it's a constant access, we have to set immutable */
if (!Getattr(CurrentClass, "allocate:smartpointermutable")) {
SetFlag(n, "feature:immutable");
}
}
if (Swig_storage_isstatic(n) && !(SmartPointer && Getattr(n, "allocate:smartpointeraccess"))) {
staticmembervariableHandler(n);
} else {
membervariableHandler(n);
}
Swig_restore(n);
}
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::globalvariableHandler()
* ---------------------------------------------------------------------- */
int Language::globalvariableHandler(Node *n) {
variableWrapper(n);
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::membervariableHandler()
* ---------------------------------------------------------------------- */
int Language::membervariableHandler(Node *n) {
Swig_require("membervariableHandler", n, "*name", "*sym:name", "*type", NIL);
Swig_save("membervariableHandler", n, "parms", NIL);
String *name = Getattr(n, "name");
String *symname = Getattr(n, "sym:name");
SwigType *type = Getattr(n, "type");
if (!AttributeFunctionGet) {
String *mname = Swig_name_member(0, ClassPrefix, symname);
String *mrename_get = Swig_name_get(NSpace, mname);
String *mrename_set = Swig_name_set(NSpace, mname);
Delete(mname);
/* Create a function to set the value of the variable */
int assignable = is_assignable(n);
if (SmartPointer) {
if (!Getattr(CurrentClass, "allocate:smartpointermutable")) {
assignable = 0;
}
}
if (assignable) {
int make_set_wrapper = 1;
String *tm = 0;
String *target = 0;
if (!Extend) {
if (SmartPointer) {
if (Swig_storage_isstatic(n)) {
Node *sn = Getattr(n, "cplus:staticbase");
String *base = Getattr(sn, "name");
target = NewStringf("%s::%s", base, name);
} else {
String *pname = Swig_cparm_name(0, 0);
target = NewStringf("(*%s)->%s", pname, name);
Delete(pname);
}
} else {
String *pname = isNonVirtualProtectedAccess(n) ? NewString("darg") : Swig_cparm_name(0, 0);
target = NewStringf("%s->%s", pname, name);
Delete(pname);
}
// This is an input type typemap lookup and so it should not use Node n
// otherwise qualification is done on the parameter name for the setter function
Parm *nin = NewParm(type, name, n);
tm = Swig_typemap_lookup("memberin", nin, target, 0);
Delete(nin);
}
int flags = Extend | SmartPointer | use_naturalvar_mode(n);
if (isNonVirtualProtectedAccess(n))
flags = flags | CWRAP_ALL_PROTECTED_ACCESS;
Swig_MembersetToFunction(n, ClassType, flags);
Setattr(n, "memberset", "1");
if (!Extend) {
/* Check for a member in typemap here */
if (!tm) {
if (SwigType_isarray(type)) {
Swig_warning(WARN_TYPEMAP_VARIN_UNDEF, input_file, line_number, "Unable to set variable of type %s.\n", SwigType_str(type, 0));
make_set_wrapper = 0;
}
} else {
String *pname0 = Swig_cparm_name(0, 0);
String *pname1 = Swig_cparm_name(0, 1);
Replace(tm, "$source", pname1, DOH_REPLACE_ANY);
Replace(tm, "$target", target, DOH_REPLACE_ANY);
Replace(tm, "$input", pname1, DOH_REPLACE_ANY);
Replace(tm, "$self", pname0, DOH_REPLACE_ANY);
Setattr(n, "wrap:action", tm);
Delete(tm);
Delete(pname0);
Delete(pname1);
}
Delete(target);
}
if (make_set_wrapper) {
Setattr(n, "sym:name", mrename_set);
functionWrapper(n);
} else {
SetFlag(n, "feature:immutable");
}
/* Restore parameters */
Setattr(n, "type", type);
Setattr(n, "name", name);
Setattr(n, "sym:name", symname);
Delattr(n, "memberset");
/* Delete all attached typemaps and typemap attributes */
Iterator ki;
for (ki = First(n); ki.key; ki = Next(ki)) {
if (Strncmp(ki.key, "tmap:", 5) == 0)
Delattr(n, ki.key);
}
}
/* Emit get function */
{
int flags = Extend | SmartPointer | use_naturalvar_mode(n);
if (isNonVirtualProtectedAccess(n))
flags = flags | CWRAP_ALL_PROTECTED_ACCESS;
Swig_MembergetToFunction(n, ClassType, flags);
Setattr(n, "sym:name", mrename_get);
Setattr(n, "memberget", "1");
functionWrapper(n);
Delattr(n, "memberget");
}
Delete(mrename_get);
Delete(mrename_set);
} else {
/* This code is used to support the attributefunction directive
where member variables are converted automagically to
accessor functions */
#if 0
Parm *p;
String *gname;
SwigType *vty;
p = NewParm(type, 0, n);
gname = NewStringf(AttributeFunctionGet, symname);
if (!Extend) {
ActionFunc = Copy(Swig_cmemberget_call(name, type));
cpp_member_func(Char(gname), Char(gname), type, 0);
Delete(ActionFunc);
} else {
String *cname = Swig_name_get(NSpace, name);
cpp_member_func(Char(cname), Char(gname), type, 0);
Delete(cname);
}
Delete(gname);
if (!GetFlag(n, "feature:immutable")) {
gname = NewStringf(AttributeFunctionSet, symname);
vty = NewString("void");
if (!Extend) {
ActionFunc = Copy(Swig_cmemberset_call(name, type));
cpp_member_func(Char(gname), Char(gname), vty, p);
Delete(ActionFunc);
} else {
String *cname = Swig_name_set(NSpace, name);
cpp_member_func(Char(cname), Char(gname), vty, p);
Delete(cname);
}
Delete(gname);
}
ActionFunc = 0;
#endif
}
Swig_restore(n);
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::staticmembervariableHandler()
* ---------------------------------------------------------------------- */
int Language::staticmembervariableHandler(Node *n) {
Swig_require("staticmembervariableHandler", n, "*name", "*sym:name", "*type", "?value", NIL);
String *value = Getattr(n, "value");
String *classname = !SmartPointer ? (isNonVirtualProtectedAccess(n) ? DirectorClassName : ClassName) : Getattr(CurrentClass, "allocate:smartpointerpointeeclassname");
if (!value || !Getattr(n, "hasconsttype")) {
String *name = Getattr(n, "name");
String *symname = Getattr(n, "sym:name");
String *cname, *mrename;
/* Create the variable name */
mrename = Swig_name_member(0, ClassPrefix, symname);
cname = NewStringf("%s::%s", classname, name);
Setattr(n, "sym:name", mrename);
Setattr(n, "name", cname);
/* Wrap as an ordinary global variable */
variableWrapper(n);
Delete(mrename);
Delete(cname);
} else {
/* This is a C++ static member declaration with an initializer and it's const.
Certain C++ compilers optimize this out so that there is no linkage to a
memory address. Example:
class Foo {
public:
static const int x = 3;
};
Some discussion of this in section 9.4 of the C++ draft standard.
Also, we have to manage the case:
class Foo {
public:
%extend {
static const int x = 3;
}
};
in which there's no actual Foo::x variable to refer to. In this case,
the best we can do is to wrap the given value verbatim.
*/
String *name = Getattr(n, "name");
String *cname = NewStringf("%s::%s", classname, name);
if (Extend) {
/* the variable is a synthesized one.
There's nothing we can do; we just keep the given value */
} else {
/* we refer to the value as Foo::x */
String *value = SwigType_namestr(cname);
Setattr(n, "value", value);
}
SwigType *t1 = SwigType_typedef_resolve_all(Getattr(n, "type"));
SwigType *t2 = SwigType_strip_qualifiers(t1);
Setattr(n, "type", t2);
Delete(t1);
Delete(t2);
SetFlag(n, "wrappedasconstant");
memberconstantHandler(n);
Delete(cname);
}
Swig_restore(n);
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::externDeclaration()
* ---------------------------------------------------------------------- */
int Language::externDeclaration(Node *n) {
return emit_children(n);
}
/* ----------------------------------------------------------------------
* Language::enumDeclaration()
* ---------------------------------------------------------------------- */
int Language::enumDeclaration(Node *n) {
if (CurrentClass && (cplus_mode != PUBLIC))
return SWIG_NOWRAP;
String *oldNSpace = NSpace;
NSpace = Getattr(n, "sym:nspace");
String *oldEnumClassPrefix = EnumClassPrefix;
if (GetFlag(n, "scopedenum")) {
assert(Getattr(n, "sym:name"));
assert(Getattr(n, "name"));
EnumClassPrefix = ClassPrefix ? NewStringf("%s_", ClassPrefix) : NewString("");
Printv(EnumClassPrefix, Getattr(n, "sym:name"), NIL);
EnumClassName = Copy(Getattr(n, "name"));
}
if (!ImportMode) {
emit_children(n);
}
if (GetFlag(n, "scopedenum")) {
Delete(EnumClassName);
EnumClassName = 0;
Delete(EnumClassPrefix);
EnumClassPrefix = oldEnumClassPrefix;
}
NSpace = oldNSpace;
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::enumvalueDeclaration()
* ---------------------------------------------------------------------- */
int Language::enumvalueDeclaration(Node *n) {
if (CurrentClass && (cplus_mode != PUBLIC))
return SWIG_NOWRAP;
Swig_require("enumvalueDeclaration", n, "*name", "*sym:name", "?value", NIL);
String *value = Getattr(n, "value");
String *name = Getattr(n, "name");
String *tmpValue;
if (value)
tmpValue = NewString(value);
else
tmpValue = NewString(name);
Setattr(n, "value", tmpValue);
Node *parent = parentNode(n);
if (GetFlag(parent, "scopedenum")) {
String *symname = Swig_name_member(0, Getattr(parent, "sym:name"), Getattr(n, "sym:name"));
Setattr(n, "sym:name", symname);
Delete(symname);
}
if (!CurrentClass || !cparse_cplusplus) {
Setattr(n, "name", tmpValue); /* for wrapping of enums in a namespace when emit_action is used */
constantWrapper(n);
} else {
memberconstantHandler(n);
}
Delete(tmpValue);
Swig_restore(n);
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::enumforwardDeclaration()
* ---------------------------------------------------------------------- */
int Language::enumforwardDeclaration(Node *n) {
(void) n;
if (GetFlag(n, "enumMissing"))
enumDeclaration(n); // Generate an empty enum in target language
return SWIG_OK;
}
/* -----------------------------------------------------------------------------
* Language::memberconstantHandler()
* ----------------------------------------------------------------------------- */
int Language::memberconstantHandler(Node *n) {
Swig_require("memberconstantHandler", n, "*name", "*sym:name", "value", NIL);
if (!GetFlag(n, "feature:allowexcept")) {
UnsetFlag(n, "feature:except");
}
if (Getattr(n, "feature:exceptvar")) {
Setattr(n, "feature:except", Getattr(n, "feature:exceptvar"));
}
String *enumvalue_symname = Getattr(n, "enumvalueDeclaration:sym:name"); // Only set if a strongly typed enum
String *name = Getattr(n, "name");
String *symname = Getattr(n, "sym:name");
String *value = Getattr(n, "value");
String *mrename = Swig_name_member(0, EnumClassPrefix, enumvalue_symname ? enumvalue_symname : symname);
Setattr(n, "sym:name", mrename);
String *new_name = 0;
if (Extend)
new_name = Copy(value);
else if (EnumClassName)
new_name = NewStringf("%s::%s", isNonVirtualProtectedAccess(n) ? DirectorClassName : EnumClassName, name);
else
new_name = NewStringf("%s::%s", isNonVirtualProtectedAccess(n) ? DirectorClassName : ClassName, name);
Setattr(n, "name", new_name);
constantWrapper(n);
Delete(mrename);
Delete(new_name);
Swig_restore(n);
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::typedefHandler()
* ---------------------------------------------------------------------- */
int Language::typedefHandler(Node *n) {
/* since this is a recurring issue, we are going to remember the
typedef pointer, if already it is not a pointer or reference, as
in
typedef void NT;
int func(NT *p);
see director_basic.i for example.
*/
SwigType *name = Getattr(n, "name");
SwigType *decl = Getattr(n, "decl");
if (!SwigType_ispointer(decl) && !SwigType_isreference(decl)) {
SwigType *pname = Copy(name);
SwigType_add_pointer(pname);
SwigType_remember(pname);
Delete(pname);
}
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::classDirectorMethod()
* ---------------------------------------------------------------------- */
int Language::classDirectorMethod(Node *n, Node *parent, String *super) {
(void) n;
(void) parent;
(void) super;
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::classDirectorConstructor()
* ---------------------------------------------------------------------- */
int Language::classDirectorConstructor(Node *n) {
(void) n;
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::classDirectorDefaultConstructor()
* ---------------------------------------------------------------------- */
int Language::classDirectorDefaultConstructor(Node *n) {
(void) n;
return SWIG_OK;
}
static String *vtable_method_id(Node *n) {
String *nodeType = Getattr(n, "nodeType");
int is_destructor = (Cmp(nodeType, "destructor") == 0);
if (is_destructor)
return 0;
String *name = Getattr(n, "name");
String *decl = Getattr(n, "decl");
String *local_decl = SwigType_typedef_resolve_all(decl);
String *tmp = SwigType_pop_function(local_decl);
Delete(local_decl);
local_decl = tmp;
Node *method_id = NewStringf("%s|%s", name, local_decl);
Delete(local_decl);
return method_id;
}
/* ----------------------------------------------------------------------
* Language::unrollVirtualMethods()
* ---------------------------------------------------------------------- */
int Language::unrollVirtualMethods(Node *n, Node *parent, List *vm, int default_director, int &virtual_destructor, int protectedbase) {
Node *ni;
String *nodeType;
String *classname;
String *decl;
bool first_base = false;
// recurse through all base classes to build the vtable
List *bl = Getattr(n, "bases");
if (bl) {
Iterator bi;
for (bi = First(bl); bi.item; bi = Next(bi)) {
if (first_base && !director_multiple_inheritance)
break;
unrollVirtualMethods(bi.item, parent, vm, default_director, virtual_destructor);
first_base = true;
}
}
// recurse through all protected base classes to build the vtable, as needed
bl = Getattr(n, "protectedbases");
if (bl) {
Iterator bi;
for (bi = First(bl); bi.item; bi = Next(bi)) {
if (first_base && !director_multiple_inheritance)
break;
unrollVirtualMethods(bi.item, parent, vm, default_director, virtual_destructor, 1);
first_base = true;
}
}
// find the methods that need directors
classname = Getattr(n, "name");
for (ni = Getattr(n, "firstChild"); ni; ni = nextSibling(ni)) {
/* we only need to check the virtual members */
nodeType = Getattr(ni, "nodeType");
int is_using = (Cmp(nodeType, "using") == 0);
Node *nn = is_using ? firstChild(ni) : ni; /* assume there is only one child node for "using" nodes */
if (is_using) {
if (nn)
nodeType = Getattr(nn, "nodeType");
else
continue; // A private "using" node
}
if (!checkAttribute(nn, "storage", "virtual"))
continue;
/* we need to add methods(cdecl) and destructor (to check for throw decl) */
int is_destructor = (Cmp(nodeType, "destructor") == 0);
if ((Cmp(nodeType, "cdecl") == 0) || is_destructor) {
decl = Getattr(nn, "decl");
/* extra check for function type and proper access */
if (SwigType_isfunction(decl) && (((!protectedbase || dirprot_mode()) && is_public(nn)) || need_nonpublic_member(nn))) {
String *name = Getattr(nn, "name");
Node *method_id = is_destructor ? NewStringf("~destructor") : vtable_method_id(nn);
/* Make sure that the new method overwrites the existing: */
int len = Len(vm);
const int DO_NOT_REPLACE = -1;
int replace = DO_NOT_REPLACE;
for (int i = 0; i < len; i++) {
Node *item = Getitem(vm, i);
String *check_vmid = Getattr(item, "vmid");
if (Strcmp(method_id, check_vmid) == 0) {
replace = i;
break;
}
}
/* filling a new method item */
String *fqdname = NewStringf("%s::%s", classname, name);
Hash *item = NewHash();
Setattr(item, "fqdname", fqdname);
Node *m = Copy(nn);
/* Store the complete return type - needed for non-simple return types (pointers, references etc.) */
SwigType *ty = NewString(Getattr(m, "type"));
SwigType_push(ty, decl);
if (SwigType_isqualifier(ty)) {
Delete(SwigType_pop(ty));
}
Delete(SwigType_pop_function(ty));
Setattr(m, "returntype", ty);
String *mname = NewStringf("%s::%s", Getattr(parent, "name"), name);
/* apply the features of the original method found in the base class */
Swig_features_get(Swig_cparse_features(), 0, mname, Getattr(m, "decl"), m);
Setattr(item, "methodNode", m);
Setattr(item, "vmid", method_id);
if (replace == DO_NOT_REPLACE)
Append(vm, item);
else
Setitem(vm, replace, item);
Setattr(nn, "directorNode", m);
Delete(mname);
}
if (is_destructor) {
virtual_destructor = 1;
}
}
}
/*
We delete all the nodirector methods. This prevents the
generation of 'empty' director classes.
But this has to be done outside the previous 'for'
an the recursive loop!.
*/
if (n == parent) {
int len = Len(vm);
for (int i = 0; i < len; i++) {
Node *item = Getitem(vm, i);
Node *m = Getattr(item, "methodNode");
/* retrieve the director features */
int mdir = GetFlag(m, "feature:director");
int mndir = GetFlag(m, "feature:nodirector");
/* 'nodirector' has precedence over 'director' */
int dir = (mdir || mndir) ? (mdir && !mndir) : 1;
/* check if the method was found only in a base class */
Node *p = Getattr(m, "parentNode");
if (p != n) {
Node *c = Copy(m);
Setattr(c, "parentNode", n);
int cdir = GetFlag(c, "feature:director");
int cndir = GetFlag(c, "feature:nodirector");
dir = (cdir || cndir) ? (cdir && !cndir) : dir;
Delete(c);
}
if (dir) {
/* be sure the 'nodirector' feature is disabled */
if (mndir)
Delattr(m, "feature:nodirector");
} else {
/* or just delete from the vm, since is not a director method */
Delitem(vm, i);
len--;
i--;
}
}
}
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::classDirectorDisown()
* ---------------------------------------------------------------------- */
int Language::classDirectorDisown(Node *n) {
Node *disown = NewHash();
String *mrename;
String *symname = Getattr(n, "sym:name");
mrename = Swig_name_disown(NSpace, symname);
String *type = NewString(ClassType);
String *name = NewString("self");
SwigType_add_pointer(type);
Parm *p = NewParm(type, name, n);
Delete(name);
Delete(type);
type = NewString("void");
String *action = NewString("");
Printv(action, "{\n", "Swig::Director *director = SWIG_DIRECTOR_CAST(arg1);\n", "if (director) director->swig_disown();\n", "}\n", NULL);
Setfile(disown, Getfile(n));
Setline(disown, Getline(n));
Setattr(disown, "wrap:action", action);
Setattr(disown, "name", mrename);
Setattr(disown, "sym:name", mrename);
Setattr(disown, "type", type);
Setattr(disown, "parms", p);
Delete(action);
Delete(mrename);
Delete(type);
Delete(p);
functionWrapper(disown);
Delete(disown);
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::classDirectorConstructors()
* ---------------------------------------------------------------------- */
int Language::classDirectorConstructors(Node *n) {
Node *ni;
String *nodeType;
Node *parent = Swig_methodclass(n);
int default_ctor = Getattr(parent, "allocate:default_constructor") ? 1 : 0;
int protected_ctor = 0;
int constructor = 0;
/* emit constructors */
for (ni = Getattr(n, "firstChild"); ni; ni = nextSibling(ni)) {
nodeType = Getattr(ni, "nodeType");
if (Cmp(nodeType, "constructor") == 0) {
if (GetFlag(ni, "feature:ignore"))
continue;
Parm *parms = Getattr(ni, "parms");
if (is_public(ni)) {
/* emit public constructor */
classDirectorConstructor(ni);
constructor = 1;
if (default_ctor)
default_ctor = !ParmList_numrequired(parms);
} else {
/* emit protected constructor if needed */
if (need_nonpublic_ctor(ni)) {
classDirectorConstructor(ni);
constructor = 1;
protected_ctor = 1;
if (default_ctor)
default_ctor = !ParmList_numrequired(parms);
}
}
}
}
/* emit default constructor if needed */
if (!constructor) {
if (!default_ctor) {
/* we get here because the class has no public, protected or
default constructor, therefore, the director class can't be
created, ie, is kind of abstract. */
Swig_warning(WARN_LANG_DIRECTOR_ABSTRACT, Getfile(n), Getline(n), "Director class '%s' can't be constructed\n", SwigType_namestr(Getattr(n, "name")));
return SWIG_OK;
}
classDirectorDefaultConstructor(n);
default_ctor = 1;
}
/* this is just to support old java behavior, ie, the default
constructor is always emitted, even when protected, and not
needed, since there is a public constructor already defined.
(scottm) This code is needed here to make the director_abstract +
test generate compilable code (Example2 in director_abastract.i).
(mmatus) This is very strange, since swig compiled with gcc3.2.3
doesn't need it here....
*/
if (!default_ctor && !protected_ctor) {
if (Getattr(parent, "allocate:default_base_constructor")) {
classDirectorDefaultConstructor(n);
}
}
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::classDirectorMethods()
* ---------------------------------------------------------------------- */
int Language::classDirectorMethods(Node *n) {
Node *vtable = Getattr(n, "vtable");
int len = Len(vtable);
for (int i = 0; i < len; i++) {
Node *item = Getitem(vtable, i);
String *method = Getattr(item, "methodNode");
String *fqdname = Getattr(item, "fqdname");
if (GetFlag(method, "feature:nodirector"))
continue;
String *wrn = Getattr(method, "feature:warnfilter");
if (wrn)
Swig_warnfilter(wrn, 1);
String *type = Getattr(method, "nodeType");
if (!Cmp(type, "destructor")) {
classDirectorDestructor(method);
} else {
Swig_require("classDirectorMethods", method, "*type", NIL);
assert(Getattr(method, "returntype"));
Setattr(method, "type", Getattr(method, "returntype"));
if (classDirectorMethod(method, n, fqdname) == SWIG_OK)
SetFlag(item, "director");
Swig_restore(method);
}
if (wrn)
Swig_warnfilter(wrn, 0);
}
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::classDirectorInit()
* ---------------------------------------------------------------------- */
int Language::classDirectorInit(Node *n) {
(void) n;
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::classDirectorDestructor()
* ---------------------------------------------------------------------- */
int Language::classDirectorDestructor(Node *n) {
/*
Always emit the virtual destructor in the declaration and in the
compilation unit. Been explicit here can't make any damage, and
can solve some nasty C++ compiler problems.
*/
File *f_directors = Swig_filebyname("director");
File *f_directors_h = Swig_filebyname("director_h");
if (Getattr(n, "throw")) {
Printf(f_directors_h, " virtual ~%s() throw ();\n", DirectorClassName);
Printf(f_directors, "%s::~%s() throw () {\n}\n\n", DirectorClassName, DirectorClassName);
} else {
Printf(f_directors_h, " virtual ~%s();\n", DirectorClassName);
Printf(f_directors, "%s::~%s() {\n}\n\n", DirectorClassName, DirectorClassName);
}
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::classDirectorEnd()
* ---------------------------------------------------------------------- */
int Language::classDirectorEnd(Node *n) {
(void) n;
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::classDirector()
* ---------------------------------------------------------------------- */
int Language::classDirector(Node *n) {
Node *module = Getattr(n, "module");
String *classtype = Getattr(n, "classtype");
Hash *directormap = 0;
if (module) {
directormap = Getattr(module, "wrap:directormap");
if (directormap == 0) {
directormap = NewHash();
Setattr(module, "wrap:directormap", directormap);
}
}
List *vtable = NewList();
int virtual_destructor = 0;
unrollVirtualMethods(n, n, vtable, 0, virtual_destructor);
// Emit all the using base::member statements for non virtual members (allprotected mode)
Node *ni;
String *using_protected_members_code = NewString("");
for (ni = Getattr(n, "firstChild"); ni; ni = nextSibling(ni)) {
Node *nodeType = Getattr(ni, "nodeType");
bool cdeclaration = (Cmp(nodeType, "cdecl") == 0);
if (cdeclaration && !GetFlag(ni, "feature:ignore")) {
if (isNonVirtualProtectedAccess(ni)) {
Node *overloaded = Getattr(ni, "sym:overloaded");
// emit the using base::member statement (but only once if the method is overloaded)
if (!overloaded || (overloaded && (overloaded == ni)))
Printf(using_protected_members_code, " using %s::%s;\n", SwigType_namestr(ClassName), Getattr(ni, "name"));
}
}
}
if (virtual_destructor || Len(vtable) > 0) {
if (!virtual_destructor) {
String *classtype = Getattr(n, "classtype");
Swig_warning(WARN_LANG_DIRECTOR_VDESTRUCT, input_file, line_number, "Director base class %s has no virtual destructor.\n", classtype);
}
Setattr(n, "vtable", vtable);
if (directormap != 0) {
Setattr(directormap, classtype, n);
}
classDirectorInit(n);
classDirectorConstructors(n);
classDirectorMethods(n);
File *f_directors_h = Swig_filebyname("director_h");
Printv(f_directors_h, using_protected_members_code, NIL);
classDirectorEnd(n);
}
Delete(vtable);
Delete(using_protected_members_code);
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::classDeclaration()
* ---------------------------------------------------------------------- */
static void addCopyConstructor(Node *n) {
Node *cn = NewHash();
set_nodeType(cn, "constructor");
Setattr(cn, "access", "public");
Setfile(cn, Getfile(n));
Setline(cn, Getline(n));
String *cname = Getattr(n, "name");
SwigType *type = Copy(cname);
String *name = Swig_scopename_last(cname);
String *cc = NewStringf("r.q(const).%s", type);
String *decl = NewStringf("f(%s).", cc);
String *oldname = Getattr(n, "sym:name");
if (Getattr(n, "allocate:has_constructor")) {
// to work properly with '%rename Class', we must look
// for any other constructor in the class, which has not been
// renamed, and use its name as oldname.
Node *c;
for (c = firstChild(n); c; c = nextSibling(c)) {
const char *tag = Char(nodeType(c));
if (strcmp(tag, "constructor") == 0) {
String *cname = Getattr(c, "name");
String *csname = Getattr(c, "sym:name");
String *clast = Swig_scopename_last(cname);
if (Equal(csname, clast)) {
oldname = csname;
break;
}
}
}
}
String *symname = Swig_name_make(cn, cname, name, decl, oldname);
if (Strcmp(symname, "$ignore") != 0) {
Parm *p = NewParm(cc, "other", n);
Setattr(cn, "name", name);
Setattr(cn, "sym:name", symname);
SetFlag(cn, "feature:new");
Setattr(cn, "decl", decl);
Setattr(cn, "parentNode", n);
Setattr(cn, "parms", p);
Setattr(cn, "copy_constructor", "1");
Symtab *oldscope = Swig_symbol_setscope(Getattr(n, "symtab"));
Node *on = Swig_symbol_add(symname, cn);
Swig_features_get(Swig_cparse_features(), Swig_symbol_qualifiedscopename(0), name, decl, cn);
Swig_symbol_setscope(oldscope);
if (on == cn) {
Node *access = NewHash();
set_nodeType(access, "access");
Setattr(access, "kind", "public");
appendChild(n, access);
appendChild(n, cn);
Setattr(n, "has_copy_constructor", "1");
Setattr(n, "copy_constructor_decl", decl);
Setattr(n, "allocate:copy_constructor", "1");
Delete(access);
}
}
Delete(cn);
Delete(name);
Delete(decl);
Delete(symname);
}
static void addDefaultConstructor(Node *n) {
Node *cn = NewHash();
set_nodeType(cn, "constructor");
Setattr(cn, "access", "public");
Setfile(cn, Getfile(n));
Setline(cn, Getline(n));
String *cname = Getattr(n, "name");
String *name = Swig_scopename_last(cname);
String *decl = NewString("f().");
String *oldname = Getattr(n, "sym:name");
String *symname = Swig_name_make(cn, cname, name, decl, oldname);
if (Strcmp(symname, "$ignore") != 0) {
Setattr(cn, "name", name);
Setattr(cn, "sym:name", symname);
SetFlag(cn, "feature:new");
Setattr(cn, "decl", decl);
Setattr(cn, "parentNode", n);
Setattr(cn, "default_constructor", "1");
Symtab *oldscope = Swig_symbol_setscope(Getattr(n, "symtab"));
Node *on = Swig_symbol_add(symname, cn);
Swig_features_get(Swig_cparse_features(), Swig_symbol_qualifiedscopename(0), name, decl, cn);
Swig_symbol_setscope(oldscope);
if (on == cn) {
Node *access = NewHash();
set_nodeType(access, "access");
Setattr(access, "kind", "public");
appendChild(n, access);
appendChild(n, cn);
Setattr(n, "has_default_constructor", "1");
Setattr(n, "allocate:default_constructor", "1");
Delete(access);
}
}
Delete(cn);
Delete(name);
Delete(decl);
Delete(symname);
}
static void addDestructor(Node *n) {
Node *cn = NewHash();
set_nodeType(cn, "destructor");
Setattr(cn, "access", "public");
Setfile(cn, Getfile(n));
Setline(cn, Getline(n));
String *cname = Getattr(n, "name");
String *name = Swig_scopename_last(cname);
Insert(name, 0, "~");
String *decl = NewString("f().");
String *symname = Swig_name_make(cn, cname, name, decl, 0);
if (Strcmp(symname, "$ignore") != 0) {
String *possible_nonstandard_symname = NewStringf("~%s", Getattr(n, "sym:name"));
Setattr(cn, "name", name);
Setattr(cn, "sym:name", symname);
Setattr(cn, "decl", "f().");
Setattr(cn, "parentNode", n);
Symtab *oldscope = Swig_symbol_setscope(Getattr(n, "symtab"));
Node *nonstandard_destructor = Equal(possible_nonstandard_symname, symname) ? 0 : Swig_symbol_clookup(possible_nonstandard_symname, 0);
Node *on = Swig_symbol_add(symname, cn);
Swig_features_get(Swig_cparse_features(), Swig_symbol_qualifiedscopename(0), name, decl, cn);
Swig_symbol_setscope(oldscope);
if (on == cn) {
// SWIG accepts a non-standard named destructor in %extend that uses a typedef for the destructor name
// For example: typedef struct X {} XX; %extend X { ~XX() {...} }
// Don't add another destructor if a nonstandard one has been declared
if (!nonstandard_destructor) {
Node *access = NewHash();
set_nodeType(access, "access");
Setattr(access, "kind", "public");
appendChild(n, access);
appendChild(n, cn);
Setattr(n, "has_destructor", "1");
Setattr(n, "allocate:destructor", "1");
Delete(access);
}
}
Delete(possible_nonstandard_symname);
}
Delete(cn);
Delete(name);
Delete(decl);
Delete(symname);
}
int Language::classDeclaration(Node *n) {
String *ochildren = Getattr(n, "feature:onlychildren");
if (ochildren) {
Setattr(n, "feature:emitonlychildren", ochildren);
emit_children(n);
Delattr(n, "feature:emitonlychildren");
SetFlag(n, "feature:ignore");
return SWIG_NOWRAP;
}
// save class local variables for nested classes support
int oldInClass = InClass;
String *oldClassType = ClassType;
String *oldClassPrefix = ClassPrefix;
String *oldEnumClassPrefix = EnumClassPrefix;
String *oldClassName = ClassName;
String *oldDirectorClassName = DirectorClassName;
String *oldNSpace = NSpace;
Node *oldCurrentClass = CurrentClass;
int dir = 0;
String *kind = Getattr(n, "kind");
String *name = Getattr(n, "name");
String *tdname = Getattr(n, "tdname");
String *unnamed = Getattr(n, "unnamed");
String *symname = Getattr(n, "sym:name");
int strip = CPlusPlus ? 1 : unnamed && tdname;
if (cplus_mode != PUBLIC)
return SWIG_NOWRAP;
if (!name) {
Swig_warning(WARN_LANG_CLASS_UNNAMED, input_file, line_number, "Can't generate wrappers for unnamed struct/class.\n");
return SWIG_NOWRAP;
}
/* Check symbol name for template. If not renamed. Issue a warning */
if (!validIdentifier(symname)) {
Swig_warning(WARN_LANG_IDENTIFIER, input_file, line_number, "Can't wrap class %s unless renamed to a valid identifier.\n", SwigType_namestr(symname));
return SWIG_NOWRAP;
}
AccessMode oldAccessMode = cplus_mode;
Node *outerClass = Getattr(n, "nested:outer");
if (outerClass && oldAccessMode != PUBLIC)
return SWIG_NOWRAP;
ClassName = Copy(name);
ClassPrefix = Copy(symname);
if (Cmp(kind, "class") == 0) {
cplus_mode = PRIVATE;
} else {
cplus_mode = PUBLIC;
}
for (; outerClass; outerClass = Getattr(outerClass, "nested:outer")) {
Push(ClassPrefix, "_");
Push(ClassPrefix, Getattr(outerClass, "sym:name"));
}
EnumClassPrefix = Copy(ClassPrefix);
if (strip) {
ClassType = Copy(name);
} else {
ClassType = NewStringf("%s %s", kind, name);
}
Setattr(n, "classtypeobj", Copy(ClassType));
Setattr(n, "classtype", SwigType_namestr(ClassType));
InClass = 1;
CurrentClass = n;
NSpace = Getattr(n, "sym:nspace");
int oldAbstract = Abstract;
/* Call classHandler() here */
if (!ImportMode) {
if (directorsEnabled()) {
int ndir = GetFlag(n, "feature:director");
int nndir = GetFlag(n, "feature:nodirector");
/* 'nodirector' has precedence over 'director' */
dir = (ndir || nndir) ? (ndir && !nndir) : 0;
}
int abstract = !dir && abstractClassTest(n);
int odefault = (GenerateDefault && !GetFlag(n, "feature:nodefault"));
/* default constructor */
if (!abstract && !GetFlag(n, "feature:nodefaultctor") && odefault) {
if (!Getattr(n, "has_constructor") && !Getattr(n, "allocate:has_constructor") && (Getattr(n, "allocate:default_constructor"))) {
addDefaultConstructor(n);
}
}
/* copy constructor */
if (CPlusPlus && !abstract && GetFlag(n, "feature:copyctor")) {
if (!Getattr(n, "has_copy_constructor") && !Getattr(n, "allocate:has_copy_constructor")
&& (Getattr(n, "allocate:copy_constructor"))
&& (!GetFlag(n, "feature:ignore"))) {
addCopyConstructor(n);
}
}
/* default destructor */
if (!GetFlag(n, "feature:nodefaultdtor") && odefault) {
if (!Getattr(n, "has_destructor") && (!Getattr(n, "allocate:has_destructor"))
&& (Getattr(n, "allocate:default_destructor"))
&& (!GetFlag(n, "feature:ignore"))) {
addDestructor(n);
}
}
if (dir) {
DirectorClassName = directorClassName(n);
classDirector(n);
}
/* check for abstract after resolving directors */
Abstract = abstractClassTest(n);
classHandler(n);
} else {
Abstract = abstractClassTest(n);
Language::classHandler(n);
}
Abstract = oldAbstract;
cplus_mode = oldAccessMode;
NSpace = oldNSpace;
InClass = oldInClass;
CurrentClass = oldCurrentClass;
Delete(ClassType);
ClassType = oldClassType;
Delete(EnumClassPrefix);
EnumClassPrefix = oldEnumClassPrefix;
Delete(ClassPrefix);
ClassPrefix = oldClassPrefix;
Delete(ClassName);
ClassName = oldClassName;
if (dir) {
Delete(DirectorClassName);
}
DirectorClassName = oldDirectorClassName;
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::classHandler()
* ---------------------------------------------------------------------- */
int Language::classHandler(Node *n) {
save_value<int> oldExtend(Extend);
if (Getattr(n, "template"))
Extend = 0;
bool hasDirector = Swig_directorclass(n) ? true : false;
/* Emit all of the class members */
emit_children(n);
/* Look for smart pointer handling */
if (Getattr(n, "allocate:smartpointer")) {
List *methods = Getattr(n, "allocate:smartpointer");
cplus_mode = PUBLIC;
SmartPointer = CWRAP_SMART_POINTER;
if (Getattr(n, "allocate:smartpointerconst") && Getattr(n, "allocate:smartpointermutable")) {
SmartPointer |= CWRAP_SMART_POINTER_OVERLOAD;
}
Iterator c;
for (c = First(methods); c.item; c = Next(c)) {
emit_one(c.item);
}
SmartPointer = 0;
}
cplus_mode = PUBLIC;
/* emit director disown method */
if (hasDirector) {
classDirectorDisown(n);
/* Emit additional protected virtual methods - only needed if the language module
* codes logic in the C++ layer instead of the director proxy class method - primarily
* to catch public use of protected methods by the scripting languages. */
if (dirprot_mode() && extraDirectorProtectedCPPMethodsRequired()) {
Node *vtable = Getattr(n, "vtable");
String *symname = Getattr(n, "sym:name");
save_value<AccessMode> old_mode(cplus_mode);
cplus_mode = PROTECTED;
int len = Len(vtable);
for (int i = 0; i < len; i++) {
Node *item = Getitem(vtable, i);
Node *method = Getattr(item, "methodNode");
SwigType *type = Getattr(method, "nodeType");
if (Strcmp(type, "cdecl") != 0)
continue;
if (GetFlag(method, "feature:ignore"))
continue;
String *methodname = Getattr(method, "sym:name");
String *wrapname = NewStringf("%s_%s", symname, methodname);
if (!symbolLookup(wrapname, "") && (!is_public(method))) {
Node *m = Copy(method);
Setattr(m, "director", "1");
Setattr(m, "parentNode", n);
/*
* There is a bug that needs fixing still...
* This area of code is creating methods which have not been overridden in a derived class (director methods that are protected in the base)
* If the method is overloaded, then Swig_overload_dispatch() incorrectly generates a call to the base wrapper, _wrap_xxx method
* See director_protected_overloaded.i - Possibly sym:overname needs correcting here.
Printf(stdout, "new method: %s::%s(%s)\n", Getattr(parentNode(m), "name"), Getattr(m, "name"), ParmList_str_defaultargs(Getattr(m, "parms")));
*/
cDeclaration(m);
Delete(m);
}
Delete(wrapname);
}
}
}
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::classforwardDeclaration()
* ---------------------------------------------------------------------- */
int Language::classforwardDeclaration(Node *n) {
(void) n;
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::constructorDeclaration()
* ---------------------------------------------------------------------- */
int Language::constructorDeclaration(Node *n) {
String *name = Getattr(n, "name");
String *symname = Getattr(n, "sym:name");
if (!symname)
return SWIG_NOWRAP;
if (!CurrentClass)
return SWIG_NOWRAP;
if (ImportMode)
return SWIG_NOWRAP;
if (Extend) {
/* extend default constructor can be safely ignored if there is already one */
int num_required = ParmList_numrequired(Getattr(n, "parms"));
if ((num_required == 0) && Getattr(CurrentClass, "has_default_constructor")) {
return SWIG_NOWRAP;
}
if ((num_required == 1) && Getattr(CurrentClass, "has_copy_constructor")) {
String *ccdecl = Getattr(CurrentClass, "copy_constructor_decl");
if (ccdecl && (Strcmp(ccdecl, Getattr(n, "decl")) == 0)) {
return SWIG_NOWRAP;
}
}
}
/* clean protected overloaded constructors, in case they are not needed anymore */
Node *over = Swig_symbol_isoverloaded(n);
if (over && !Getattr(CurrentClass, "sym:cleanconstructor")) {
int dirclass = Swig_directorclass(CurrentClass);
Node *nn = over;
while (nn) {
if (!is_public(nn)) {
if (!dirclass || !need_nonpublic_ctor(nn)) {
SetFlag(nn, "feature:ignore");
}
}
nn = Getattr(nn, "sym:nextSibling");
}
clean_overloaded(over);
Setattr(CurrentClass, "sym:cleanconstructor", "1");
}
if ((cplus_mode != PUBLIC)) {
/* check only for director classes */
if (!Swig_directorclass(CurrentClass) || !need_nonpublic_ctor(n))
return SWIG_NOWRAP;
}
/* Name adjustment for %name */
Swig_save("constructorDeclaration", n, "sym:name", NIL);
{
String *base = Swig_scopename_last(name);
if ((Strcmp(base, symname) == 0) && (Strcmp(symname, ClassPrefix) != 0)) {
Setattr(n, "sym:name", ClassPrefix);
}
Delete(base);
}
/* Only create a constructor if the class is not abstract */
if (!Abstract) {
Node *over;
over = Swig_symbol_isoverloaded(n);
if (over)
over = first_nontemplate(over);
if ((over) && (!overloading)) {
/* If the symbol is overloaded. We check to see if it is a copy constructor. If so,
we invoke copyconstructorHandler() as a special case. */
if (Getattr(n, "copy_constructor") && (!Getattr(CurrentClass, "has_copy_constructor"))) {
copyconstructorHandler(n);
Setattr(CurrentClass, "has_copy_constructor", "1");
} else {
if (Getattr(over, "copy_constructor"))
over = Getattr(over, "sym:nextSibling");
if (over != n) {
Swig_warning(WARN_LANG_OVERLOAD_CONSTRUCT, input_file, line_number,
"Overloaded constructor ignored. %s\n", Swig_name_decl(n));
Swig_warning(WARN_LANG_OVERLOAD_CONSTRUCT, Getfile(over), Getline(over),
"Previous declaration is %s\n", Swig_name_decl(over));
} else {
constructorHandler(n);
}
}
} else {
String *expected_name = ClassName;
String *scope = Swig_scopename_check(ClassName) ? Swig_scopename_prefix(ClassName) : 0;
String *actual_name = scope ? NewStringf("%s::%s", scope, name) : NewString(name);
Delete(scope);
if (!Equal(actual_name, expected_name) && !SwigType_istemplate(expected_name) && !SwigType_istemplate(actual_name)) {
// Checking templates is skipped but they ought to be checked... they are just somewhat more tricky to check correctly
bool illegal_name = true;
if (Extend) {
// Check for typedef names used as a constructor name in %extend. This is deprecated except for anonymous
// typedef structs which have had their symbol names adjusted to the typedef name in the parser.
SwigType *name_resolved = SwigType_typedef_resolve_all(actual_name);
SwigType *expected_name_resolved = SwigType_typedef_resolve_all(expected_name);
if (!CPlusPlus) {
if (Strncmp(name_resolved, "struct ", 7) == 0)
Replace(name_resolved, "struct ", "", DOH_REPLACE_FIRST);
else if (Strncmp(name_resolved, "union ", 6) == 0)
Replace(name_resolved, "union ", "", DOH_REPLACE_FIRST);
}
illegal_name = !Equal(name_resolved, expected_name_resolved);
if (!illegal_name)
Swig_warning(WARN_LANG_EXTEND_CONSTRUCTOR, input_file, line_number, "Use of an illegal constructor name '%s' in %%extend is deprecated, the constructor name should be '%s'.\n",
SwigType_str(Swig_scopename_last(actual_name), 0), SwigType_str(Swig_scopename_last(expected_name), 0));
Delete(name_resolved);
Delete(expected_name_resolved);
}
if (illegal_name) {
Swig_warning(WARN_LANG_RETURN_TYPE, input_file, line_number, "Function %s must have a return type. Ignored.\n", Swig_name_decl(n));
Swig_restore(n);
return SWIG_NOWRAP;
}
}
constructorHandler(n);
}
}
Setattr(CurrentClass, "has_constructor", "1");
Swig_restore(n);
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* get_director_ctor_code()
* ---------------------------------------------------------------------- */
static String *get_director_ctor_code(Node *n, String *director_ctor_code, String *director_prot_ctor_code, List *&abstracts) {
String *director_ctor = director_ctor_code;
int use_director = Swig_directorclass(n);
if (use_director) {
Node *pn = Swig_methodclass(n);
abstracts = Getattr(pn, "abstracts");
if (director_prot_ctor_code) {
int is_notabstract = GetFlag(pn, "feature:notabstract");
int is_abstract = abstracts && !is_notabstract;
if (is_protected(n) || is_abstract) {
director_ctor = director_prot_ctor_code;
abstracts = Copy(abstracts);
Delattr(pn, "abstracts");
} else {
if (is_notabstract) {
abstracts = Copy(abstracts);
Delattr(pn, "abstracts");
} else {
abstracts = 0;
}
}
}
}
return director_ctor;
}
/* ----------------------------------------------------------------------
* Language::constructorHandler()
* ---------------------------------------------------------------------- */
int Language::constructorHandler(Node *n) {
Swig_require("constructorHandler", n, "?name", "*sym:name", "?type", "?parms", NIL);
String *symname = Getattr(n, "sym:name");
String *mrename = Swig_name_construct(NSpace, symname);
String *nodeType = Getattr(n, "nodeType");
int constructor = (!Cmp(nodeType, "constructor"));
List *abstracts = 0;
String *director_ctor = get_director_ctor_code(n, director_ctor_code,
director_prot_ctor_code,
abstracts);
if (!constructor) {
/* if not originally a constructor, still handle it as one */
Setattr(n, "handled_as_constructor", "1");
}
int extendmember = GetFlag(n, "isextendmember") ? Extend : 0;
int flags = Getattr(n, "template") ? extendmember : Extend;
Swig_ConstructorToFunction(n, NSpace, ClassType, none_comparison, director_ctor, CPlusPlus, flags, DirectorClassName);
Setattr(n, "sym:name", mrename);
functionWrapper(n);
Delete(mrename);
Swig_restore(n);
if (abstracts)
Setattr(Swig_methodclass(n), "abstracts", abstracts);
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::copyconstructorHandler()
* ---------------------------------------------------------------------- */
int Language::copyconstructorHandler(Node *n) {
Swig_require("copyconstructorHandler", n, "?name", "*sym:name", "?type", "?parms", NIL);
String *symname = Getattr(n, "sym:name");
String *mrename = Swig_name_copyconstructor(NSpace, symname);
List *abstracts = 0;
String *director_ctor = get_director_ctor_code(n, director_ctor_code,
director_prot_ctor_code,
abstracts);
Swig_ConstructorToFunction(n, NSpace, ClassType, none_comparison, director_ctor, CPlusPlus, Getattr(n, "template") ? 0 : Extend, DirectorClassName);
Setattr(n, "sym:name", mrename);
functionWrapper(n);
Delete(mrename);
Swig_restore(n);
if (abstracts)
Setattr(Swig_methodclass(n), "abstracts", abstracts);
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::destructorDeclaration()
* ---------------------------------------------------------------------- */
int Language::destructorDeclaration(Node *n) {
if (!CurrentClass)
return SWIG_NOWRAP;
if (cplus_mode != PUBLIC && !Getattr(CurrentClass, "feature:unref"))
return SWIG_NOWRAP;
if (ImportMode)
return SWIG_NOWRAP;
Swig_save("destructorDeclaration", n, "name", "sym:name", NIL);
char *c = GetChar(n, "sym:name");
if (c && (*c == '~')) {
Setattr(n, "sym:name", c + 1);
}
String *name = Getattr(n, "name");
String *symname = Getattr(n, "sym:name");
if ((Strcmp(name, symname) == 0) || (Strcmp(symname, ClassPrefix) != 0)) {
Setattr(n, "sym:name", ClassPrefix);
}
String *expected_name = ClassName;
String *scope = Swig_scopename_check(ClassName) ? Swig_scopename_prefix(ClassName) : 0;
String *actual_name = scope ? NewStringf("%s::%s", scope, name) : NewString(name);
Delete(scope);
Replace(actual_name, "~", "", DOH_REPLACE_FIRST);
if (!Equal(actual_name, expected_name) && !(Getattr(n, "template"))) {
bool illegal_name = true;
if (Extend) {
// Check for typedef names used as a destructor name in %extend. This is deprecated except for anonymous
// typedef structs which have had their symbol names adjusted to the typedef name in the parser.
SwigType *name_resolved = SwigType_typedef_resolve_all(actual_name);
SwigType *expected_name_resolved = SwigType_typedef_resolve_all(expected_name);
if (!CPlusPlus) {
if (Strncmp(name_resolved, "struct ", 7) == 0)
Replace(name_resolved, "struct ", "", DOH_REPLACE_FIRST);
else if (Strncmp(name_resolved, "union ", 6) == 0)
Replace(name_resolved, "union ", "", DOH_REPLACE_FIRST);
}
illegal_name = !Equal(name_resolved, expected_name_resolved);
if (!illegal_name)
Swig_warning(WARN_LANG_EXTEND_DESTRUCTOR, input_file, line_number, "Use of an illegal destructor name '%s' in %%extend is deprecated, the destructor name should be '%s'.\n",
SwigType_str(Swig_scopename_last(actual_name), 0), SwigType_str(Swig_scopename_last(expected_name), 0));
Delete(name_resolved);
Delete(expected_name_resolved);
}
if (illegal_name) {
Swig_warning(WARN_LANG_ILLEGAL_DESTRUCTOR, input_file, line_number, "Illegal destructor name %s. Ignored.\n", Swig_name_decl(n));
Swig_restore(n);
return SWIG_NOWRAP;
}
}
destructorHandler(n);
Setattr(CurrentClass, "has_destructor", "1");
Swig_restore(n);
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::destructorHandler()
* ---------------------------------------------------------------------- */
int Language::destructorHandler(Node *n) {
Swig_require("destructorHandler", n, "?name", "*sym:name", NIL);
Swig_save("destructorHandler", n, "type", "parms", NIL);
String *symname = Getattr(n, "sym:name");
String *mrename;
char *csymname = Char(symname);
if (*csymname == '~')
csymname += 1;
mrename = Swig_name_destroy(NSpace, csymname);
Swig_DestructorToFunction(n, NSpace, ClassType, CPlusPlus, Extend);
Setattr(n, "sym:name", mrename);
functionWrapper(n);
Delete(mrename);
Swig_restore(n);
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::accessDeclaration()
* ---------------------------------------------------------------------- */
int Language::accessDeclaration(Node *n) {
String *kind = Getattr(n, "kind");
if (Cmp(kind, "public") == 0) {
cplus_mode = PUBLIC;
} else if (Cmp(kind, "private") == 0) {
cplus_mode = PRIVATE;
} else if (Cmp(kind, "protected") == 0) {
cplus_mode = PROTECTED;
}
return SWIG_OK;
}
/* -----------------------------------------------------------------------------
* Language::namespaceDeclaration()
* ----------------------------------------------------------------------------- */
int Language::namespaceDeclaration(Node *n) {
if (Getattr(n, "alias"))
return SWIG_OK;
if (Getattr(n, "unnamed"))
return SWIG_OK;
emit_children(n);
return SWIG_OK;
}
int Language::validIdentifier(String *s) {
char *c = Char(s);
while (*c) {
if (!(isalnum(*c) || (*c == '_')))
return 0;
c++;
}
return 1;
}
/* -----------------------------------------------------------------------------
* Language::usingDeclaration()
* ----------------------------------------------------------------------------- */
int Language::usingDeclaration(Node *n) {
if ((cplus_mode == PUBLIC) || (!is_public(n) && dirprot_mode())) {
Node *np = Copy(n);
Node *c;
for (c = firstChild(np); c; c = nextSibling(c)) {
/* it seems for some cases this is needed, like A* A::boo() */
if (CurrentClass)
Setattr(c, "parentNode", CurrentClass);
emit_one(c);
}
Delete(np);
}
return SWIG_OK;
}
/* Stubs. Language modules need to implement these */
/* ----------------------------------------------------------------------
* Language::constantWrapper()
* ---------------------------------------------------------------------- */
int Language::constantWrapper(Node *n) {
String *name = Getattr(n, "sym:name");
SwigType *type = Getattr(n, "type");
String *value = Getattr(n, "value");
String *str = SwigType_str(type, name);
Printf(stdout, "constantWrapper : %s = %s\n", str, value);
Delete(str);
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::variableWrapper()
* ---------------------------------------------------------------------- */
int Language::variableWrapper(Node *n) {
Swig_require("variableWrapper", n, "*name", "*sym:name", "*type", "?parms", "?varset", "?varget", NIL);
String *symname = Getattr(n, "sym:name");
SwigType *type = Getattr(n, "type");
String *name = Getattr(n, "name");
Delattr(n,"varset");
Delattr(n,"varget");
String *newsymname = 0;
if (!CurrentClass && EnumClassPrefix) {
newsymname = Swig_name_member(0, EnumClassPrefix, symname);
symname = newsymname;
}
/* If no way to set variables. We simply create functions */
int assignable = is_assignable(n);
int flags = use_naturalvar_mode(n);
if (!GetFlag(n, "wrappedasconstant"))
flags = flags | Extend;
if (assignable) {
int make_set_wrapper = 1;
String *tm = Swig_typemap_lookup("globalin", n, name, 0);
Swig_VarsetToFunction(n, flags);
String *sname = Swig_name_set(NSpace, symname);
Setattr(n, "sym:name", sname);
Delete(sname);
if (!tm) {
if (SwigType_isarray(type)) {
Swig_warning(WARN_TYPEMAP_VARIN_UNDEF, input_file, line_number, "Unable to set variable of type %s.\n", SwigType_str(type, 0));
make_set_wrapper = 0;
}
} else {
String *pname0 = Swig_cparm_name(0, 0);
Replace(tm, "$source", pname0, DOH_REPLACE_ANY);
Replace(tm, "$target", name, DOH_REPLACE_ANY);
Replace(tm, "$input", pname0, DOH_REPLACE_ANY);
Setattr(n, "wrap:action", tm);
Delete(tm);
Delete(pname0);
}
if (make_set_wrapper) {
Setattr(n, "varset", "1");
functionWrapper(n);
} else {
SetFlag(n, "feature:immutable");
}
/* Restore parameters */
Setattr(n, "sym:name", symname);
Setattr(n, "type", type);
Setattr(n, "name", name);
Delattr(n, "varset");
/* Delete all attached typemaps and typemap attributes */
Iterator ki;
for (ki = First(n); ki.key; ki = Next(ki)) {
if (Strncmp(ki.key, "tmap:", 5) == 0)
Delattr(n, ki.key);
}
}
Swig_VargetToFunction(n, flags);
String *gname = Swig_name_get(NSpace, symname);
Setattr(n, "sym:name", gname);
Delete(gname);
Setattr(n, "varget", "1");
functionWrapper(n);
Delattr(n, "varget");
Swig_restore(n);
Delete(newsymname);
return SWIG_OK;
}
/* ----------------------------------------------------------------------
* Language::functionWrapper()
* ---------------------------------------------------------------------- */
int Language::functionWrapper(Node *n) {
String *name = Getattr(n, "sym:name");
SwigType *type = Getattr(n, "type");
ParmList *parms = Getattr(n, "parms");
Printf(stdout, "functionWrapper : %s\n", SwigType_str(type, NewStringf("%s(%s)", name, ParmList_str_defaultargs(parms))));
Printf(stdout, " action : %s\n", Getattr(n, "wrap:action"));
return SWIG_OK;
}
/* -----------------------------------------------------------------------------
* Language::nativeWrapper()
* ----------------------------------------------------------------------------- */
int Language::nativeWrapper(Node *n) {
(void) n;
return SWIG_OK;
}
void Language::main(int argc, char *argv[]) {
(void) argc;
(void) argv;
}
/* -----------------------------------------------------------------------------
* Language::addSymbol()
*
* Adds a symbol entry into the target language symbol tables.
* Returns 1 if the symbol is added successfully.
* Prints an error message and returns 0 if a conflict occurs.
* The scope is optional for target languages and if supplied must be a fully
* qualified scope and the symbol s must not contain any scope qualifiers.
* ----------------------------------------------------------------------------- */
int Language::addSymbol(const String *s, const Node *n, const_String_or_char_ptr scope) {
//Printf( stdout, "addSymbol: %s %s\n", s, scope );
Hash *symbols = Getattr(symtabs, scope ? scope : "");
if (!symbols) {
symbols = symbolAddScope(scope);
} else {
Node *c = Getattr(symbols, s);
if (c && (c != n)) {
if (scope && Len(scope) > 0)
Swig_error(input_file, line_number, "'%s' is multiply defined in the generated target language module in scope '%s'.\n", s, scope);
else
Swig_error(input_file, line_number, "'%s' is multiply defined in the generated target language module.\n", s);
Swig_error(Getfile(c), Getline(c), "Previous declaration of '%s'\n", s);
return 0;
}
}
Setattr(symbols, s, n);
return 1;
}
/* -----------------------------------------------------------------------------
* Language::addInterfaceSymbol()
*
* Adds a symbol entry into the target language symbol tables - for the interface
* feature only.
* Returns 1 if the symbol is added successfully.
* The scope is as per addSymbol.
* ----------------------------------------------------------------------------- */
int Language::addInterfaceSymbol(const String *interface_name, Node *n, const_String_or_char_ptr scope) {
if (interface_name) {
Node *existing_symbol = symbolLookup(interface_name, scope);
if (existing_symbol) {
String *proxy_class_name = Getattr(n, "sym:name");
Swig_error(input_file, line_number, "The interface feature name '%s' for proxy class '%s' is already defined in the generated target language module in scope '%s'.\n",
interface_name, proxy_class_name, scope);
Swig_error(Getfile(existing_symbol), Getline(existing_symbol), "Previous declaration of '%s'\n", interface_name);
return 0;
}
if (!addSymbol(interface_name, n, scope))
return 0;
}
return 1;
}
/* -----------------------------------------------------------------------------
* Language::symbolAddScope()
*
* Creates a scope (symbols Hash) for given name. This method is auxiliary,
* you don't have to call it - addSymbols will lazily create scopes automatically.
* If scope with given name already exists, then do nothing.
* Returns newly created (or already existing) scope.
* ----------------------------------------------------------------------------- */
Hash* Language::symbolAddScope(const_String_or_char_ptr scope) {
Hash *symbols = symbolScopeLookup(scope);
if(!symbols) {
// The order in which the following code is executed is important. In the Language
// constructor addScope("") is called to create a top level scope.
// Thus we must first add a symbols hash to symtab and only then add pseudo
// symbols to the top-level scope.
// New scope which has not been added by the target language - lazily created.
symbols = NewHash();
Setattr(symtabs, scope, symbols);
// Add the new scope as a symbol in the top level scope.
// Alternatively the target language must add it in before attempting to add symbols into the scope.
const_String_or_char_ptr top_scope = "";
Hash *topscope_symbols = Getattr(symtabs, top_scope);
Hash *pseudo_symbol = NewHash();
Setattr(pseudo_symbol, "sym:scope", "1");
Setattr(topscope_symbols, scope, pseudo_symbol);
}
return symbols;
}
/* -----------------------------------------------------------------------------
* Language::symbolScopeLookup()
*
* Lookup and returns a symtable (hash) representing given scope. Hash contains
* all symbols in this scope.
* ----------------------------------------------------------------------------- */
Hash* Language::symbolScopeLookup( const_String_or_char_ptr scope ) {
Hash *symbols = Getattr(symtabs, scope ? scope : "");
return symbols;
}
/* -----------------------------------------------------------------------------
* Language::symbolScopePseudoSymbolLookup()
*
* For every scope there is a special pseudo-symbol in the top scope (""). It
* exists solely to detect name clashes. This pseudo symbol may contain a few properties,
* but more could be added. This is also true for the top level scope ("").
* It contains a pseudo symbol with name "" (empty). Pseudo symbol contains the
* following properties:
* sym:scope = "1" - a flag that this is a scope pseudo symbol
*
* Pseudo symbols are a Hash*, not a Node*.
* There is no difference from symbolLookup() method except for signature
* and return type.
* ----------------------------------------------------------------------------- */
Hash* Language::symbolScopePseudoSymbolLookup( const_String_or_char_ptr scope )
{
/* Getting top scope */
const_String_or_char_ptr top_scope = "";
Hash *symbols = Getattr(symtabs, top_scope);
return Getattr(symbols, scope);
}
/* -----------------------------------------------------------------------------
* Language::dumpSymbols()
* ----------------------------------------------------------------------------- */
void Language::dumpSymbols() {
Printf(stdout, "LANGUAGE SYMBOLS start =======================================\n");
Node *table = symtabs;
Iterator ki = First(table);
while (ki.key) {
String *k = ki.key;
Printf(stdout, "===================================================\n");
Printf(stdout, "%s -\n", k);
{
Symtab *symtab = Getattr(table, k);
Iterator it = First(symtab);
while (it.key) {
String *symname = it.key;
Printf(stdout, " %s\n", symname);
it = Next(it);
}
}
ki = Next(ki);
}
Printf(stdout, "LANGUAGE SYMBOLS finish =======================================\n");
}
/* -----------------------------------------------------------------------------
* Language::symbolLookup()
* ----------------------------------------------------------------------------- */
Node *Language::symbolLookup(const String *s, const_String_or_char_ptr scope) {
Hash *symbols = Getattr(symtabs, scope ? scope : "");
if (!symbols) {
return NULL;
}
return Getattr(symbols, s);
}
/* -----------------------------------------------------------------------------
* Language::classLookup()
*
* Tries to locate a class from a type definition
* ----------------------------------------------------------------------------- */
Node *Language::classLookup(const SwigType *s) const {
Node *n = 0;
/* Look in hash of cached values */
n = Getattr(classtypes, s);
if (!n) {
Symtab *stab = 0;
SwigType *ty1 = SwigType_typedef_resolve_all(s);
SwigType *ty2 = SwigType_strip_qualifiers(ty1);
String *base = SwigType_base(ty2);
Replaceall(base, "class ", "");
Replaceall(base, "struct ", "");
Replaceall(base, "union ", "");
if (strncmp(Char(base), "::", 2) == 0) {
String *oldbase = base;
base = NewString(Char(base) + 2);
Delete(oldbase);
}
String *prefix = SwigType_prefix(ty2);
/* Do a symbol table search on the base type */
while (!n) {
Hash *nstab;
n = Swig_symbol_clookup(base, stab);
if (!n)
break;
if (Strcmp(nodeType(n), "class") == 0)
break;
n = parentNode(n);
if (!n)
break;
nstab = Getattr(n, "sym:symtab");
n = 0;
if ((!nstab) || (nstab == stab)) {
break;
}
stab = nstab;
}
if (n) {
/* Found a match. Look at the prefix. We only allow
the cases where where we want a proxy class for the particular type */
bool acceptable_prefix =
(Len(prefix) == 0) || // simple type (pass by value)
(Strcmp(prefix, "p.") == 0) || // pointer
(Strcmp(prefix, "r.") == 0) || // reference
(Strcmp(prefix, "z.") == 0) || // rvalue reference
SwigType_prefix_is_simple_1D_array(prefix); // Simple 1D array (not arrays of pointers/references)
// Also accept pointer by const reference, not non-const pointer reference
if (!acceptable_prefix && (Strcmp(prefix, "r.p.") == 0)) {
Delete(prefix);
prefix = SwigType_prefix(ty1);
acceptable_prefix = (Strncmp(prefix, "r.q(const", 9) == 0);
}
if (acceptable_prefix) {
SwigType *cs = Copy(s);
Setattr(classtypes, cs, n);
Delete(cs);
} else {
n = 0;
}
}
Delete(prefix);
Delete(base);
Delete(ty2);
Delete(ty1);
}
if (n && (GetFlag(n, "feature:ignore") || Getattr(n, "feature:onlychildren"))) {
n = 0;
}
return n;
}
/* -----------------------------------------------------------------------------
* Language::enumLookup()
*
* Finds and returns the Node containing the enum declaration for the (enum)
* type passed in.
* ----------------------------------------------------------------------------- */
Node *Language::enumLookup(SwigType *s) {
Node *n = 0;
/* Look in hash of cached values */
n = Getattr(enumtypes, s);
if (!n) {
Symtab *stab = 0;
SwigType *lt = SwigType_ltype(s);
SwigType *ty1 = SwigType_typedef_resolve_all(lt);
SwigType *ty2 = SwigType_strip_qualifiers(ty1);
String *base = SwigType_base(ty2);
Replaceall(base, "enum ", "");
String *prefix = SwigType_prefix(ty2);
if (strncmp(Char(base), "::", 2) == 0) {
String *oldbase = base;
base = NewString(Char(base) + 2);
Delete(oldbase);
}
/* Look for type in symbol table */
while (!n) {
Hash *nstab;
n = Swig_symbol_clookup(base, stab);
if (!n)
break;
if (Equal(nodeType(n), "enum"))
break;
if (Equal(nodeType(n), "enumforward") && GetFlag(n, "enumMissing"))
break;
n = parentNode(n);
if (!n)
break;
nstab = Getattr(n, "sym:symtab");
n = 0;
if ((!nstab) || (nstab == stab)) {
break;
}
stab = nstab;
}
if (n) {
/* Found a match. Look at the prefix. We only allow simple types. */
if (Len(prefix) == 0) { /* Simple type */
Setattr(enumtypes, Copy(s), n);
} else {
n = 0;
}
}
Delete(prefix);
Delete(base);
Delete(ty2);
Delete(ty1);
Delete(lt);
}
if (n && (GetFlag(n, "feature:ignore"))) {
n = 0;
}
return n;
}
/* -----------------------------------------------------------------------------
* Language::allow_overloading()
* ----------------------------------------------------------------------------- */
void Language::allow_overloading(int val) {
overloading = val;
}
/* -----------------------------------------------------------------------------
* Language::allow_multiple_input()
* ----------------------------------------------------------------------------- */
void Language::allow_multiple_input(int val) {
multiinput = val;
}
/* -----------------------------------------------------------------------------
* Language::enable_cplus_runtime_mode()
* ----------------------------------------------------------------------------- */
void Language::enable_cplus_runtime_mode() {
cplus_runtime = 1;
}
/* -----------------------------------------------------------------------------
* Language::cplus_runtime_mode()
* ----------------------------------------------------------------------------- */
int Language::cplus_runtime_mode() {
return cplus_runtime;
}
/* -----------------------------------------------------------------------------
* Language::allow_directors()
* ----------------------------------------------------------------------------- */
void Language::allow_directors(int val) {
directors = val;
}
/* -----------------------------------------------------------------------------
* Language::directorsEnabled()
* ----------------------------------------------------------------------------- */
int Language::directorsEnabled() const {
return director_language && CPlusPlus && (directors || director_mode);
}
/* -----------------------------------------------------------------------------
* Language::allow_dirprot()
* ----------------------------------------------------------------------------- */
void Language::allow_dirprot(int val) {
director_protected_mode = val;
}
/* -----------------------------------------------------------------------------
* Language::allow_allprotected()
* ----------------------------------------------------------------------------- */
void Language::allow_allprotected(int val) {
all_protected_mode = val;
}
/* -----------------------------------------------------------------------------
* Language::dirprot_mode()
* ----------------------------------------------------------------------------- */
int Language::dirprot_mode() const {
return directorsEnabled() ? director_protected_mode : 0;
}
/* -----------------------------------------------------------------------------
* Language::need_nonpublic_ctor()
* ----------------------------------------------------------------------------- */
int Language::need_nonpublic_ctor(Node *n) {
/*
detects when a protected constructor is needed, which is always
the case if 'dirprot' mode is used. However, if that is not the
case, we will try to strictly emit what is minimal to don't break
the generated, while preserving compatibility with java, which
always try to emit the default constructor.
rules:
- when dirprot mode is used, the protected constructors are
always needed.
- the protected default constructor is always needed.
- if dirprot mode is not used, the protected constructors will be
needed only if:
- there is no any public constructor in the class, and
- there is no protected default constructor
In that case, all the declared protected constructors are
needed since we don't know which one to pick up.
Note: given all the complications here, I am always in favor to
always enable 'dirprot', since is the C++ idea of protected
members, and use %ignore for the method you don't whan to add in
the director class.
*/
if (directorsEnabled()) {
if (is_protected(n)) {
if (dirprot_mode()) {
/* when using dirprot mode, the protected constructors are
always needed */
return 1;
} else {
int is_default_ctor = !ParmList_numrequired(Getattr(n, "parms"));
if (is_default_ctor) {
/* the default protected constructor is always needed, for java compatibility */
return 1;
} else {
/* check if there is a public constructor */
Node *parent = Swig_methodclass(n);
int public_ctor = Getattr(parent, "allocate:default_constructor")
|| Getattr(parent, "allocate:public_constructor");
if (!public_ctor) {
/* if not, the protected constructor will be needed only
if there is no protected default constructor declared */
int no_prot_default_ctor = !Getattr(parent, "allocate:default_base_constructor");
return no_prot_default_ctor;
}
}
}
}
}
return 0;
}
/* -----------------------------------------------------------------------------
* Language::need_nonpublic_member()
* ----------------------------------------------------------------------------- */
int Language::need_nonpublic_member(Node *n) {
if (directorsEnabled() && DirectorClassName) {
if (is_protected(n)) {
if (dirprot_mode()) {
/* when using dirprot mode, the protected members are always needed. */
return 1;
} else {
/* if the method is pure virtual, we need it. */
int pure_virtual = (Cmp(Getattr(n, "value"), "0") == 0);
return pure_virtual;
}
}
}
return 0;
}
/* -----------------------------------------------------------------------------
* Language::is_smart_pointer()
* ----------------------------------------------------------------------------- */
int Language::is_smart_pointer() const {
return SmartPointer;
}
/* -----------------------------------------------------------------------------
* Language::makeParameterName()
*
* Inputs:
* n - Node
* p - parameter node
* arg_num - parameter argument number
* setter - set this flag when wrapping variables
* Return:
* arg - a unique parameter name
* ----------------------------------------------------------------------------- */
String *Language::makeParameterName(Node *n, Parm *p, int arg_num, bool setter) const {
String *arg = 0;
String *pn = Getattr(p, "name");
// Use C parameter name unless it is a duplicate or an empty parameter name
int count = 0;
ParmList *plist = Getattr(n, "parms");
while (plist) {
if ((Cmp(pn, Getattr(plist, "name")) == 0))
count++;
plist = nextSibling(plist);
}
String *wrn = pn ? Swig_name_warning(p, 0, pn, 0) : 0;
arg = (!pn || (count > 1) || wrn) ? NewStringf("arg%d", arg_num) : Copy(pn);
if (setter && Cmp(arg, "self") != 0) {
// Some languages (C#) insist on calling the input variable "value" while
// others (D, Java) could, in principle, use something different but this
// would require more work, and so we just use "value" for them too.
// For setters the parameter name sometimes includes C++ scope resolution which needs removing.
Delete(arg);
arg = NewString("value");
}
return arg;
}
/* -----------------------------------------------------------------------------
* Language::()
* ----------------------------------------------------------------------------- */
bool Language::isNonVirtualProtectedAccess(Node *n) const {
// Ideally is_non_virtual_protected_access() would contain all this logic, see
// comments therein about vtable.
return DirectorClassName && is_non_virtual_protected_access(n);
}
/* -----------------------------------------------------------------------------
* Language::extraDirectorProtectedCPPMethodsRequired()
* ----------------------------------------------------------------------------- */
bool Language::extraDirectorProtectedCPPMethodsRequired() const {
return true;
}
/* -----------------------------------------------------------------------------
* Language::nestedClassesSupport()
* ----------------------------------------------------------------------------- */
Language::NestedClassSupport Language::nestedClassesSupport() const {
return NCS_Unknown;
}
/* -----------------------------------------------------------------------------
* Language::kwargsSupport()
* ----------------------------------------------------------------------------- */
bool Language::kwargsSupport() const {
return false;
}
/* -----------------------------------------------------------------------------
* Language::is_wrapping_class()
* ----------------------------------------------------------------------------- */
int Language::is_wrapping_class() const {
return InClass;
}
/* -----------------------------------------------------------------------------
* Language::getCurrentClass()
* ----------------------------------------------------------------------------- */
Node *Language::getCurrentClass() const {
return CurrentClass;
}
/* -----------------------------------------------------------------------------
* Language::getNSpace()
* ----------------------------------------------------------------------------- */
String *Language::getNSpace() const {
return NSpace;
}
/* -----------------------------------------------------------------------------
* Language::getClassName()
* ----------------------------------------------------------------------------- */
String *Language::getClassName() const {
return ClassName;
}
/* -----------------------------------------------------------------------------
* Language::getClassPrefix()
* ----------------------------------------------------------------------------- */
String *Language::getClassPrefix() const {
return ClassPrefix;
}
/* -----------------------------------------------------------------------------
* Language::getEnumClassPrefix()
* ----------------------------------------------------------------------------- */
String *Language::getEnumClassPrefix() const {
return EnumClassPrefix;
}
/* -----------------------------------------------------------------------------
* Language::getClassType()
* ----------------------------------------------------------------------------- */
String *Language::getClassType() const {
return ClassType;
}
/* -----------------------------------------------------------------------------
* Language::abstractClassTest()
* ----------------------------------------------------------------------------- */
//#define SWIG_DEBUG
int Language::abstractClassTest(Node *n) {
/* check for non public operator new */
if (GetFlag(n, "feature:notabstract"))
return 0;
if (Getattr(n, "allocate:nonew"))
return 1;
// A class cannot be instantiated if one of its bases has a private destructor
// Note that if the above does not hold the class can be instantiated if its own destructor is private
List *bases = Getattr(n, "bases");
if (bases) {
for (int i = 0; i < Len(bases); i++) {
Node *b = Getitem(bases, i);
if (GetFlag(b, "allocate:private_destructor"))
return 1;
}
}
/* now check for the rest */
List *abstracts = Getattr(n, "abstracts");
if (!abstracts)
return 0;
int labs = Len(abstracts);
#ifdef SWIG_DEBUG
List *allbases = Getattr(n, "allbases");
Printf(stderr, "testing %s %d %d\n", Getattr(n, "name"), labs, Len(allbases));
#endif
if (!labs)
return 0; /*strange, but need to be fixed */
if (abstracts && !directorsEnabled())
return 1;
if (!GetFlag(n, "feature:director"))
return 1;
Node *dirabstract = 0;
Node *vtable = Getattr(n, "vtable");
if (vtable) {
#ifdef SWIG_DEBUG
Printf(stderr, "vtable %s %d %d\n", Getattr(n, "name"), Len(vtable), labs);
#endif
for (int i = 0; i < labs; i++) {
Node *ni = Getitem(abstracts, i);
Node *method_id = vtable_method_id(ni);
if (!method_id)
continue;
bool exists_item = false;
int len = Len(vtable);
for (int i = 0; i < len; i++) {
Node *item = Getitem(vtable, i);
String *check_item = Getattr(item, "vmid");
if (Strcmp(method_id, check_item) == 0) {
exists_item = true;
break;
}
}
#ifdef SWIG_DEBUG
Printf(stderr, "method %s %d\n", method_id, exists_item ? 1 : 0);
#endif
Delete(method_id);
if (!exists_item) {
dirabstract = ni;
break;
}
}
if (dirabstract) {
if (is_public(dirabstract)) {
Swig_warning(WARN_LANG_DIRECTOR_ABSTRACT, Getfile(n), Getline(n),
"Director class '%s' is abstract, abstract method '%s' is not accesible, maybe due to multiple inheritance or 'nodirector' feature\n",
SwigType_namestr(Getattr(n, "name")), Getattr(dirabstract, "name"));
} else {
Swig_warning(WARN_LANG_DIRECTOR_ABSTRACT, Getfile(n), Getline(n),
"Director class '%s' is abstract, abstract method '%s' is private\n", SwigType_namestr(Getattr(n, "name")), Getattr(dirabstract, "name"));
}
return 1;
}
} else {
return 1;
}
return 0;
}
void Language::setSubclassInstanceCheck(String *nc) {
none_comparison = nc;
}
void Language::setOverloadResolutionTemplates(String *argc, String *argv) {
Delete(argc_template_string);
argc_template_string = Copy(argc);
Delete(argv_template_string);
argv_template_string = Copy(argv);
}
int Language::is_assignable(Node *n) {
if (GetFlag(n, "feature:immutable"))
return 0;
SwigType *type = Getattr(n, "type");
Node *cn = 0;
SwigType *ftd = SwigType_typedef_resolve_all(type);
SwigType *td = SwigType_strip_qualifiers(ftd);
if (SwigType_type(td) == T_USER) {
cn = Swig_symbol_clookup(td, 0);
if (cn) {
if ((Strcmp(nodeType(cn), "class") == 0)) {
if (Getattr(cn, "allocate:noassign")) {
SetFlag(n, "feature:immutable");
Delete(ftd);
Delete(td);
return 0;
}
}
}
}
Delete(ftd);
Delete(td);
return 1;
}
String *Language::runtimeCode() {
return NewString("");
}
String *Language::defaultExternalRuntimeFilename() {
return 0;
}
/* -----------------------------------------------------------------------------
* Language::replaceSpecialVariables()
*
* Language modules should implement this if special variables are to be handled
* correctly in the $typemap(...) special variable macro.
* method - typemap method name
* tm - string containing typemap contents
* parm - a parameter describing the typemap type to be handled
* ----------------------------------------------------------------------------- */
void Language::replaceSpecialVariables(String *method, String *tm, Parm *parm) {
(void)method;
(void)tm;
(void)parm;
}
Language *Language::instance() {
return this_;
}
Hash *Language::getClassHash() const {
return classhash;
}