gecko/extensions/java/xpcom/tools/xpidl/xpidl_javastub.c

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/* -*- Mode: C; tab-width: 4; indent-tabs-mode: nil; c-basic-offset: 4 -*-
* ***** BEGIN LICENSE BLOCK *****
* Version: MPL 1.1/GPL 2.0/LGPL 2.1
*
* The contents of this file are subject to the Mozilla Public License Version
* 1.1 (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
* http://www.mozilla.org/MPL/
*
* Software distributed under the License is distributed on an "AS IS" basis,
* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
* for the specific language governing rights and limitations under the
* License.
*
* The Original Code is mozilla.org code.
*
* The Initial Developer of the Original Code is
* Sun Microsystems, Inc.
* Portions created by the Initial Developer are Copyright (C) 1999
* the Initial Developer. All Rights Reserved.
*
* Contributor(s):
* Michael Allen (michael.allen@sun.com)
* Frank Mitchell (frank.mitchell@sun.com)
*
* Alternatively, the contents of this file may be used under the terms of
* either the GNU General Public License Version 2 or later (the "GPL"), or
* the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
* in which case the provisions of the GPL or the LGPL are applicable instead
* of those above. If you wish to allow use of your version of this file only
* under the terms of either the GPL or the LGPL, and not to allow others to
* use your version of this file under the terms of the MPL, indicate your
* decision by deleting the provisions above and replace them with the notice
* and other provisions required by the GPL or the LGPL. If you do not delete
* the provisions above, a recipient may use your version of this file under
* the terms of any one of the MPL, the GPL or the LGPL.
*
* ***** END LICENSE BLOCK ***** */
/*
* Generate Java interfaces from XPIDL.
*/
#define COUNT_METHODS
#include "xpidl.h"
#include <ctype.h>
#include <glib.h>
#ifdef XP_WIN
#include "windef.h"
#define PATH_MAX MAX_PATH
#endif
static char* subscriptIdentifier(TreeState *state, char *str);
/*
struct java_priv_data {
GHashTable *typedefTable;
int numMethods;
gboolean bHasBaseClass;
gboolean bCountingMethods;
};
*/
static char* javaKeywords[] = {
"abstract", "default", "if" , "private" , "this" ,
"boolean" , "do" , "implements", "protected" , "throw" ,
"break" , "double" , "import", "public" , "throws" ,
"byte" , "else" , "instanceof", "return" , "transient",
"case" , "extends", "int" , "short" , "try" ,
"catch" , "final" , "interface" , "static" , "void" ,
"char" , "finally", "long" , "strictfp" , "volatile" ,
"class" , "float" , "native" , "super" , "while" ,
"const" , "for" , "new" , "switch" , "assert" ,
"continue", "goto" , "package" , "synchronized",
"clone" , /* clone is a member function of java.lang.Object */
"finalize" /* finalize is a member function of java.lang.Object */};
#define TYPEDEFS(state) (((struct java_priv_data *)state->priv)->typedefTable)
#define PRIVDATA(state) (((struct java_priv_data *)state->priv))
#define KEYWORDS(state) (((struct java_priv_data *)state->priv)->keywords)
static gboolean
write_classname_iid_define(FILE *file, const char *className)
{
const char *iidName;
if (className[0] == 'n' && className[1] == 's') {
/* backcompat naming styles */
fputs("NS_", file);
iidName = className + 2;
} else {
iidName = className;
}
while (*iidName) {
fputc(toupper(*iidName++), file);
}
fputs("_IID", file);
return TRUE;
}
static gboolean
java_prolog(TreeState *state)
{
int len, i;
state->priv = calloc(1, sizeof(struct java_priv_data));
if (!state->priv)
return FALSE;
#ifdef COUNT_METHODS
PRIVDATA(state)->numMethods = 0;
PRIVDATA(state)->bHasBaseClass = FALSE;
PRIVDATA(state)->bCountingMethods = FALSE;
#endif
TYPEDEFS(state) = 0;
TYPEDEFS(state) = g_hash_table_new(g_str_hash, g_str_equal);
if (!TYPEDEFS(state)) {
/* XXX report error */
free(state->priv);
return FALSE;
}
KEYWORDS(state) = 0;
KEYWORDS(state) = g_hash_table_new(g_str_hash, g_str_equal);
if (!KEYWORDS(state)) {
g_hash_table_destroy(TYPEDEFS(state));
free(state->priv);
return FALSE;
}
len = sizeof(javaKeywords)/sizeof(*javaKeywords);
for (i = 0; i < len; i++) {
g_hash_table_insert(KEYWORDS(state),
javaKeywords[i],
javaKeywords[i]);
}
return TRUE;
}
static gboolean
java_epilog(TreeState *state)
{
/* points to other elements of the tree, so just destroy the table */
g_hash_table_destroy(TYPEDEFS(state));
g_hash_table_destroy(KEYWORDS(state));
free(state->priv);
state->priv = NULL;
return TRUE;
}
static gboolean
forward_declaration(TreeState *state)
{
return TRUE;
}
static gboolean
interface_declaration(TreeState *state)
{
char outname[PATH_MAX];
char* p;
IDL_tree interface = state->tree;
IDL_tree iterator = NULL;
char *interface_name =
subscriptIdentifier(state, IDL_IDENT(IDL_INTERFACE(interface).ident).str);
#ifdef COUNT_METHODS
char *baseclass_name = NULL;
#endif
if (!verify_interface_declaration(interface))
return FALSE;
/*
* Each interface decl is a single file
*/
p = strrchr(state->filename, '/');
if (p) {
strncpy(outname, state->filename, p + 1 - state->filename);
outname[p + 1 - state->filename] = '\0';
}
strcat(outname, interface_name);
strcat(outname, "_Stub.java");
state->file = fopen(outname, "w");
if (!state->file) {
perror("error opening output file");
return FALSE;
}
fputs("/*\n * ************* DO NOT EDIT THIS FILE ***********\n",
state->file);
fprintf(state->file,
" *\n * This file was automatically generated from %s.idl.\n",
state->basename);
fputs(" */\n\n", state->file);
if (state->package) {
fprintf(state->file, "\npackage %s.stubs;\n\n", state->package);
fprintf(state->file, "import %s.*;\n", state->package);
}
if (!state->package || strcmp(state->package, "org.mozilla.xpcom") != 0)
fputs("import org.mozilla.xpcom.*;\n", state->file);
fputs("\n", state->file);
/*
* Write "public class <foo>"
*/
fprintf(state->file, "public class %s_Stub", interface_name);
/*
* Check for inheritence, and iterator over the inherited names,
* if any.
*/
if ((iterator = IDL_INTERFACE(interface).inheritance_spec)) {
fputs(" extends ", state->file);
do {
#ifdef COUNT_METHODS
if (baseclass_name == NULL) {
baseclass_name = IDL_IDENT(IDL_LIST(iterator).data).str;
PRIVDATA(state)->bHasBaseClass = TRUE;
}
#endif
fprintf(state->file, "%s_Stub",
IDL_IDENT(IDL_LIST(iterator).data).str);
if (IDL_LIST(iterator).next) {
fputs(", ", state->file);
}
} while ((iterator = IDL_LIST(iterator).next));
} else {
fputs(" extends Object", state->file);
}
fprintf(state->file, " implements %s\n{\n", interface_name);
#ifdef COUNT_METHODS
/*
* Count number of methods
*/
state->tree = IDL_INTERFACE(interface).body;
PRIVDATA(state)->bCountingMethods = TRUE;
PRIVDATA(state)->numMethods = 0;
if (state->tree && !xpidl_process_node(state)) {
return FALSE;
}
if (PRIVDATA(state)->numMethods) {
fputs("\n static final int LAST_METHOD_ID = ", state->file);
if (!PRIVDATA(state)->bHasBaseClass)
fprintf(state->file, "%d;\n\n",PRIVDATA(state)->numMethods - 1);
else
fprintf(state->file, "%s_Stub.LAST_METHOD_ID + %d;\n\n", baseclass_name,
PRIVDATA(state)->numMethods);
}
state->tree = interface;
#endif
/*
* Check for inheritence.
*/
#if !defined(COUNT_METHODS)
PRIVDATA(state)->bHasBaseClass = FALSE;
if ((iterator = IDL_INTERFACE(interface).inheritance_spec)) {
PRIVDATA(state)->bHasBaseClass = TRUE;
}
#endif
/*
* Advance the state of the tree, go on to process more
*/
state->tree = IDL_INTERFACE(interface).body;
PRIVDATA(state)->bCountingMethods = FALSE;
PRIVDATA(state)->numMethods = 0;
if (state->tree && !xpidl_process_node(state)) {
return FALSE;
}
/*
* Create the finalize() method
*/
fputs(" protected void finalize() throws Throwable {\n", state->file);
fputs(" XPCOMPrivate.FinalizeStub(this);\n }", state->file);
/* fputs(" try {\n", state->file);
fputs(" XPCOM.FinalizeStub(this);\n", state->file);
fputs(" } finally {\n super.finalize();\n", state->file);
fputs(" }\n }", state->file);*/
fputs("\n}\n", state->file);
fprintf(state->file, "\n/*\n * end\n */\n");
fclose(state->file);
return TRUE;
}
static gboolean
process_list(TreeState *state)
{
IDL_tree iter;
for (iter = state->tree; iter; iter = IDL_LIST(iter).next) {
state->tree = IDL_LIST(iter).data;
if (!xpidl_process_node(state))
return FALSE;
}
return TRUE;
}
typedef enum JavaNativeType {
JAVA_NATIVE_ERROR, /* error condition */
JAVA_BYTE,
JAVA_SHORT,
JAVA_INT,
JAVA_LONG,
JAVA_FLOAT,
JAVA_DOUBLE,
JAVA_CHAR,
JAVA_BOOL,
JAVA_BYTEARRAY,
JAVA_STRING,
JAVA_NSISUPPORTS,
JAVA_OBJECT
} JavaNativeType;
static JavaNativeType
xpcom_to_java_type2(TreeState *state, IDL_tree type)
{
IDL_tree real_type;
IDL_tree up;
if (!type) {
return JAVA_OBJECT;
}
/* Could be a typedef; try to map it to the real type */
real_type = find_underlying_type(type);
type = real_type ? real_type : type;
switch(IDL_NODE_TYPE(type)) {
case IDLN_TYPE_INTEGER: {
switch(IDL_TYPE_INTEGER(type).f_type) {
case IDL_INTEGER_TYPE_SHORT:
return JAVA_SHORT;
break;
case IDL_INTEGER_TYPE_LONG:
return JAVA_INT;
break;
case IDL_INTEGER_TYPE_LONGLONG:
return JAVA_LONG;
break;
default:
g_error("Unknown integer type: %d\n",
IDL_TYPE_INTEGER(type).f_type);
return JAVA_NATIVE_ERROR;
}
break;
}
case IDLN_TYPE_CHAR:
case IDLN_TYPE_WIDE_CHAR:
return JAVA_CHAR;
break;
case IDLN_TYPE_WIDE_STRING:
case IDLN_TYPE_STRING:
return JAVA_STRING;
break;
case IDLN_TYPE_BOOLEAN:
return JAVA_BOOL;
break;
case IDLN_TYPE_OCTET:
return JAVA_BYTE;
break;
case IDLN_TYPE_FLOAT:
switch(IDL_TYPE_FLOAT(type).f_type) {
case IDL_FLOAT_TYPE_FLOAT:
return JAVA_FLOAT;
break;
case IDL_FLOAT_TYPE_DOUBLE:
return JAVA_DOUBLE;
break;
default:
g_error("Unknown floating point type: %d\n",
IDL_TYPE_FLOAT(type).f_type);
return JAVA_NATIVE_ERROR;
break;
}
break;
case IDLN_IDENT:
if (!(up = IDL_NODE_UP(type))) {
IDL_tree_error(state->tree,
"ERROR: orphan ident %s in param list\n",
IDL_IDENT(state->tree).str);
return JAVA_NATIVE_ERROR;
}
switch (IDL_NODE_TYPE(up)) {
/* This whole section is abominably ugly */
case IDLN_FORWARD_DCL:
case IDLN_INTERFACE: {
return JAVA_NSISUPPORTS;
break;
}
case IDLN_NATIVE: {
if (IDL_NODE_TYPE(state->tree) == IDLN_PARAM_DCL &&
IDL_tree_property_get(IDL_PARAM_DCL(state->tree).simple_declarator,
"iid_is"))
return JAVA_NSISUPPORTS;
if (IDL_tree_property_get(type, "nsid")) {
return JAVA_STRING;
} else if (IDL_tree_property_get(type, "domstring")) {
return JAVA_STRING;
} else if (IDL_tree_property_get(type, "astring")) {
return JAVA_STRING;
} else if (IDL_tree_property_get(type, "utf8string")) {
return JAVA_STRING;
} else if (IDL_tree_property_get(type, "cstring")) {
return JAVA_STRING;
} else {
const char* user_type = IDL_NATIVE(IDL_NODE_UP(type)).user_type;
IDL_tree real_type =
g_hash_table_lookup(TYPEDEFS(state), user_type);
if (real_type) {
return xpcom_to_java_type2(state, real_type);
} else {
if (strcmp(user_type, "PRInt8") == 0 ||
strcmp(user_type, "PRUint8") == 0) {
return JAVA_BYTE;
} else if (strcmp(user_type, "PRInt16") == 0 ||
strcmp(user_type, "PRUint16") == 0) {
return JAVA_SHORT;
} else if (strcmp(user_type, "PRInt32") == 0 ||
strcmp(user_type, "PRUint32") == 0 ||
strcmp(user_type, "int") == 0) {
return JAVA_INT;
} else if (strcmp(user_type, "PRInt64") == 0 ||
strcmp(user_type, "PRUint64") == 0) {
return JAVA_LONG;
} else if (strcmp(user_type, "PRBool") == 0) {
return JAVA_BOOL;
} else if (strncmp(user_type, "char", 4) == 0 ||
strncmp(user_type, "const char", 10) == 0 ||
strncmp(user_type, "unsigned char", 13) == 0) {
if (IDL_tree_property_get(type, "ptr")) {
return JAVA_BYTEARRAY;
} else {
return JAVA_CHAR;
}
} else if (strcmp(user_type, "nsIID") == 0) {
return JAVA_STRING;
} else if (strcmp(user_type, "nsString") == 0 ||
strcmp(user_type, "nsAString") == 0 ||
strcmp(user_type, "nsACString") == 0) {
return JAVA_STRING;
} else {
return JAVA_INT;
}
}
}
break;
}
default:
if (IDL_NODE_TYPE(IDL_NODE_UP(up)) == IDLN_TYPE_DCL) {
/* restart with the underlying type */
IDL_tree new_type;
new_type = IDL_TYPE_DCL(IDL_NODE_UP(up)).type_spec;
if (new_type) {
return xpcom_to_java_type2(state, new_type);
} else {
/* do what we would do in recursion if !type */
return JAVA_OBJECT;
}
}
IDL_tree_error(state->tree,
"can't handle %s ident in param list\n",
/* XXX is this safe to use on Win now? */
IDL_NODE_TYPE_NAME(IDL_NODE_UP(type))
/* "that type of"*/
);
return JAVA_NATIVE_ERROR;
}
break;
default:
IDL_tree_error(state->tree, "can't handle %s in param list\n",
/* XXX is this safe to use on Win now? */
IDL_NODE_TYPE_NAME(IDL_NODE_UP(type))
/* "that type"*/
);
return JAVA_NATIVE_ERROR;
}
return JAVA_NATIVE_ERROR;
}
static gboolean
xpcom_to_java_type(TreeState *state, IDL_tree type)
{
IDL_tree real_type;
IDL_tree up;
if (!type) {
fputs("Object", state->file);
return TRUE;
}
/* Could be a typedef; try to map it to the real type */
real_type = find_underlying_type(type);
type = real_type ? real_type : type;
switch(IDL_NODE_TYPE(type)) {
case IDLN_TYPE_INTEGER: {
switch(IDL_TYPE_INTEGER(type).f_type) {
case IDL_INTEGER_TYPE_SHORT:
fputs("short", state->file);
break;
case IDL_INTEGER_TYPE_LONG:
fputs("int", state->file);
break;
case IDL_INTEGER_TYPE_LONGLONG:
fputs("long", state->file);
break;
default:
g_error(" Unknown integer type: %d\n",
IDL_TYPE_INTEGER(type).f_type);
return FALSE;
}
break;
}
case IDLN_TYPE_CHAR:
case IDLN_TYPE_WIDE_CHAR:
fputs("char", state->file);
break;
case IDLN_TYPE_WIDE_STRING:
case IDLN_TYPE_STRING:
fputs("String", state->file);
break;
case IDLN_TYPE_BOOLEAN:
fputs("boolean", state->file);
break;
case IDLN_TYPE_OCTET:
fputs("byte", state->file);
break;
case IDLN_TYPE_FLOAT:
switch(IDL_TYPE_FLOAT(type).f_type) {
case IDL_FLOAT_TYPE_FLOAT:
fputs("float", state->file);
break;
case IDL_FLOAT_TYPE_DOUBLE:
fputs("double", state->file);
break;
default:
g_error(" Unknown floating point typ: %d\n",
IDL_NODE_TYPE(type));
break;
}
break;
case IDLN_IDENT:
if (!(up = IDL_NODE_UP(type))) {
IDL_tree_error(state->tree,
"ERROR: orphan ident %s in param list\n",
IDL_IDENT(state->tree).str);
return FALSE;
}
switch (IDL_NODE_TYPE(up)) {
case IDLN_FORWARD_DCL:
case IDLN_INTERFACE: {
char *className;
const char *iid_is;
handle_iid_is:
/* might get here via the goto, so re-check type */
if (IDL_NODE_TYPE(up) == IDLN_INTERFACE)
className = IDL_IDENT(IDL_INTERFACE(up).ident).str;
else if (IDL_NODE_TYPE(up) == IDLN_FORWARD_DCL)
className = IDL_IDENT(IDL_FORWARD_DCL(up).ident).str;
else
className = IDL_IDENT(IDL_NATIVE(up).ident).str;
iid_is = NULL;
if (IDL_NODE_TYPE(state->tree) == IDLN_PARAM_DCL) {
iid_is =
IDL_tree_property_get(IDL_PARAM_DCL(state->tree).simple_declarator,
"iid_is");
}
if (iid_is) {
fputs("nsISupports", state->file);
} else {
/* XXX How do we want to handle this? If it's an IDLN_INTERFACE,
* then we can just output the name of the class, since the IDL
* files exist for those classes. However, if it's an
* IDLN_FORWARD_DCL, some of those interfaces are not defined in
* IDL files, so we get an error when trying to compile the java
* files. So, for now, we just output them as the base iface
* (nsISupports).
*/
if (IDL_NODE_TYPE(up) == IDLN_FORWARD_DCL)
fputs("nsISupports", state->file);
else
fprintf(state->file, "%s", className);
}
break;
}
case IDLN_NATIVE: {
char *ident;
/* jband - adding goto for iid_is when type is native */
if (IDL_NODE_TYPE(state->tree) == IDLN_PARAM_DCL &&
IDL_tree_property_get(IDL_PARAM_DCL(state->tree).simple_declarator,
"iid_is"))
{
goto handle_iid_is;
/* fputs("nsISupports", state->file); */
break;
}
ident = IDL_IDENT(type).str;
if (IDL_tree_property_get(type, "nsid")) {
fputs("String", state->file);
} else if (IDL_tree_property_get(type, "domstring")) {
fputs("String", state->file);
} else if (IDL_tree_property_get(type, "astring")) {
fputs("String", state->file);
} else if (IDL_tree_property_get(type, "utf8string")) {
fputs("String", state->file);
} else if (IDL_tree_property_get(type, "cstring")) {
fputs("String", state->file);
} else {
const char* user_type = IDL_NATIVE(IDL_NODE_UP(type)).user_type;
IDL_tree real_type =
g_hash_table_lookup(TYPEDEFS(state), user_type);
if (real_type) {
return xpcom_to_java_type(state, real_type);
} else {
if (strcmp(user_type, "PRInt8") == 0 ||
strcmp(user_type, "PRUint8") == 0) {
fputs("byte", state->file);
} else if (strcmp(user_type, "PRInt16") == 0 ||
strcmp(user_type, "PRUint16") == 0) {
fputs("short", state->file);
} else if (strcmp(user_type, "PRInt32") == 0 ||
strcmp(user_type, "PRUint32") == 0 ||
strcmp(user_type, "int") == 0) {
fputs("int", state->file);
} else if (strcmp(user_type, "PRInt64") == 0 ||
strcmp(user_type, "PRUint64") == 0) {
fputs("long", state->file);
} else if (strcmp(user_type, "PRBool") == 0) {
fputs("boolean", state->file);
} else if (strncmp(user_type, "char", 4) == 0 ||
strncmp(user_type, "const char", 10) == 0 ||
strncmp(user_type, "unsigned char", 13) == 0) {
if (IDL_tree_property_get(type, "ptr")) {
fputs("byte[]", state->file);
} else {
fputs("char", state->file);
}
} else if (strcmp(user_type, "nsIID") == 0) {
fputs("String", state->file);
} else if (strcmp(user_type, "nsString") == 0 ||
strcmp(user_type, "nsAString") == 0 ||
strcmp(user_type, "nsACString") == 0) {
fputs("String", state->file);
} else {
fputs("int", state->file);
}
}
}
break;
}
default:
if (IDL_NODE_TYPE(IDL_NODE_UP(up)) == IDLN_TYPE_DCL) {
/* restart with the underlying type */
IDL_tree new_type;
new_type = IDL_TYPE_DCL(IDL_NODE_UP(up)).type_spec;
if (new_type) {
gboolean rc = xpcom_to_java_type(state, new_type);
return rc;
} else {
/* do what we would do in recursion if !type */
fputs("Object", state->file);
return TRUE;
}
}
IDL_tree_error(state->tree,
"can't handle %s ident in param list [1]\n",
/* XXX is this safe to use on Win now? */
IDL_NODE_TYPE_NAME(IDL_NODE_UP(type))
/* "that type of"*/
);
return FALSE;
}
break;
default:
IDL_tree_error(state->tree, "can't handle %s in param list [1]\n",
/* XXX is this safe to use on Win now? */
IDL_NODE_TYPE_NAME(IDL_NODE_UP(type))
/* "that type"*/
);
return FALSE;
}
return TRUE;
}
static gboolean
xpcom_to_java_object_type(TreeState *state, IDL_tree type, char* parmName, gboolean is_object)
{
JavaNativeType jtype = xpcom_to_java_type2(state, type);
switch (jtype) {
case JAVA_BYTE:
if (is_object) {
fputs(parmName, state->file);
} else {
fprintf(state->file, "new Byte(%s)", parmName);
}
break;
case JAVA_SHORT:
if (is_object) {
fputs(parmName, state->file);
} else {
fprintf(state->file, "new Short(%s)", parmName);
}
break;
case JAVA_INT:
if (is_object) {
fputs(parmName, state->file);
} else {
fprintf(state->file, "new Integer(%s)", parmName);
}
break;
case JAVA_LONG:
if (is_object) {
fputs(parmName, state->file);
} else {
fprintf(state->file, "new Long(%s)", parmName);
}
break;
case JAVA_FLOAT:
if (is_object) {
fputs(parmName, state->file);
} else {
fprintf(state->file, "new Float(%s)", parmName);
}
break;
case JAVA_DOUBLE:
if (is_object) {
fputs(parmName, state->file);
} else {
fprintf(state->file, "new Double(%s)", parmName);
}
break;
case JAVA_CHAR:
if (is_object) {
fputs(parmName, state->file);
} else {
fprintf(state->file, "new Character(%s)", parmName);
}
break;
case JAVA_BOOL:
if (is_object) {
fputs(parmName, state->file);
} else {
fprintf(state->file, "new Boolean(%s)", parmName);
}
break;
case JAVA_BYTEARRAY:
case JAVA_STRING:
case JAVA_OBJECT:
case JAVA_NSISUPPORTS:
fputs(parmName, state->file);
break;
default:
g_error("Unknown java type\n");
return FALSE;
break;
}
return TRUE;
}
static gboolean
xpcom_to_java_param(TreeState *state)
{
IDL_tree param = state->tree;
/*
* Put in type of parameter
*/
if (!xpcom_to_java_type(state, IDL_PARAM_DCL(param).param_type_spec)) {
return FALSE;
}
/*
* If the parameter is out or inout, make it a Java array of the
* appropriate type
*/
if (IDL_PARAM_DCL(param).attr != IDL_PARAM_IN) {
fputs("[]", state->file);
}
/*
* If the parameter is an array make it a Java array
*/
if (IDL_tree_property_get(IDL_PARAM_DCL(param).simple_declarator, "array"))
fputs("[]", state->file);
/*
* Put in name of parameter
*/
fputc(' ', state->file);
fputs(subscriptIdentifier(state,
IDL_IDENT(IDL_PARAM_DCL(param).simple_declarator).str),
state->file);
return TRUE;
}
static gboolean
xpcom_to_java_object(TreeState *state)
{
char* paramName;
gboolean is_object;
/*
* Write Java object param
*/
paramName = IDL_IDENT(IDL_PARAM_DCL(state->tree).simple_declarator).str;
is_object = IDL_PARAM_DCL(state->tree).attr != IDL_PARAM_IN ||
IDL_tree_property_get(IDL_PARAM_DCL(state->tree).simple_declarator, "array");
if (!xpcom_to_java_object_type(state,
IDL_PARAM_DCL(state->tree).param_type_spec,
paramName, is_object)) {
return FALSE;
}
return TRUE;
}
static gboolean
type_declaration(TreeState *state)
{
/*
* Unlike C, Java has no type declaration directive.
* Instead, we record the mapping, and look up the actual type
* when needed.
*/
IDL_tree type = IDL_TYPE_DCL(state->tree).type_spec;
IDL_tree dcls = IDL_TYPE_DCL(state->tree).dcls;
#ifdef COUNT_METHODS
if (PRIVDATA(state)->bCountingMethods) {
return TRUE;
}
#endif
/* XXX: check for illegal types */
g_hash_table_insert(TYPEDEFS(state),
IDL_IDENT(IDL_LIST(dcls).data).str,
type);
return TRUE;
}
static gboolean
method_declaration(TreeState *state)
{
gboolean bHasOutParm = FALSE;
gboolean bHasReturnValue = TRUE;
char *parmBuffer = NULL;
IDL_tree orig_tree = NULL;
GSList *doc_comments = IDL_IDENT(IDL_OP_DCL(state->tree).ident).comments;
int numMethods;
const char* array = NULL;
struct _IDL_OP_DCL *method = &IDL_OP_DCL(state->tree);
gboolean method_notxpcom =
(IDL_tree_property_get(method->ident, "notxpcom") != NULL);
gboolean method_noscript =
(IDL_tree_property_get(method->ident, "noscript") != NULL);
IDL_tree iterator = NULL;
IDL_tree retval_param = NULL;
char *method_name =
g_strdup_printf("%c%s",
tolower(IDL_IDENT(method->ident).str[0]),
IDL_IDENT(method->ident).str + 1);
if (!verify_method_declaration(state->tree))
return FALSE;
#ifdef COUNT_METHODS
if (PRIVDATA(state)->bCountingMethods) {
PRIVDATA(state)->numMethods++;
return TRUE;
}
#endif
#if 1
/* do not write non-xpcom methods */
if (method_notxpcom) {
xpidl_write_comment(state, 4);
fputc('\n', state->file);
PRIVDATA(state)->numMethods++;
return TRUE;
}
/*
* Write beginning of method declaration
*/
fputs(" public ", state->file);
#else
/* do not write nonscriptable methods */
if (method_notxpcom || method_noscript) {
xpidl_write_comment(state, 4);
fputc('\n', state->file);
PRIVDATA(state)->numMethods++;
return TRUE;
}
/*
* Write beginning of method declaration
*/
fputs(" ", state->file);
if (!method_noscript) {
/* Nonscriptable methods become package-protected */
fputs("public ", state->file);
}
#endif
/*
* Write return type
* Unlike C++ headers, Java interfaces return the declared
* return value; an exception indicates XPCOM method failure.
*/
if (method->op_type_spec) {
state->tree = method->op_type_spec;
if (!xpcom_to_java_type(state, method->op_type_spec)) {
return FALSE;
}
} else {
/* Check for retval attribute */
for (iterator = method->parameter_dcls; iterator != NULL;
iterator = IDL_LIST(iterator).next) {
IDL_tree original_tree = state->tree;
state->tree = IDL_LIST(iterator).data;
if (IDL_tree_property_get(IDL_PARAM_DCL(state->tree).simple_declarator,
"retval")) {
retval_param = iterator;
array =
IDL_tree_property_get(IDL_PARAM_DCL(state->tree).simple_declarator,
"array");
/*
* Put in type of parameter
*/
if (!xpcom_to_java_type(state,
IDL_PARAM_DCL(state->tree).param_type_spec)) {
return FALSE;
}
if (array)
fputs("[]", state->file);
}
state->tree = original_tree;
}
if (retval_param == NULL) {
fputs("void", state->file);
}
}
/*
* Write method name
*/
fprintf(state->file, " %s(", subscriptIdentifier(state, method_name));
/*
* Write parameters
*/
for (iterator = method->parameter_dcls; iterator != NULL;
iterator = IDL_LIST(iterator).next) {
/* Skip "retval" */
if (iterator == retval_param) {
continue;
}
if (iterator != method->parameter_dcls) {
fputs(", ", state->file);
}
state->tree = IDL_LIST(iterator).data;
if (!xpcom_to_java_param(state)) {
return FALSE;
}
}
fputs(")", state->file);
/* if (method->raises_expr) {
IDL_tree iter = method->raises_expr;
IDL_tree dataNode = IDL_LIST(iter).data;
fputs(" throws ", state->file);
fputs(IDL_IDENT(dataNode).str, state->file);
iter = IDL_LIST(iter).next;
while (iter) {
dataNode = IDL_LIST(iter).data;
fprintf(state->file, ", %s", IDL_IDENT(dataNode).str);
iter = IDL_LIST(iter).next;
}
} */
fputs(" {\n ", state->file);
/*
* If method has a return value, then we will return what we
* get from CallXPCOMMethod()
*/
if (method->op_type_spec || retval_param)
fputs("return ", state->file);
/*
* Create CallXPCOMMethod invocation
*/
if (method->op_type_spec || retval_param) {
IDL_tree list = NULL;
const char* is_array = NULL;
JavaNativeType jtype = JAVA_NATIVE_ERROR;
if (method->op_type_spec) {
jtype = xpcom_to_java_type2(state, method->op_type_spec);
} else {
IDL_tree original_tree = state->tree;
state->tree = IDL_LIST(retval_param).data;
jtype = xpcom_to_java_type2(state,
IDL_PARAM_DCL(state->tree).param_type_spec);
state->tree = original_tree;
}
if (jtype == JAVA_NATIVE_ERROR)
return FALSE;
/* is return type an array? */
if (retval_param) {
list = IDL_LIST(retval_param).data;
is_array = IDL_tree_property_get(IDL_PARAM_DCL(list).simple_declarator,
"array");
}
switch (jtype) {
case JAVA_BYTE:
fputs("XPCOMPrivate.CallXPCOMMethodByte", state->file);
break;
case JAVA_BYTEARRAY:
fputs("(byte[]) XPCOMPrivate.CallXPCOMMethodObj", state->file);
break;
case JAVA_SHORT:
fputs("XPCOMPrivate.CallXPCOMMethodShort", state->file);
break;
case JAVA_INT:
fputs("XPCOMPrivate.CallXPCOMMethodInt", state->file);
break;
case JAVA_LONG:
fputs("XPCOMPrivate.CallXPCOMMethodLong", state->file);
break;
case JAVA_FLOAT:
fputs("XPCOMPrivate.CallXPCOMMethodFloat", state->file);
break;
case JAVA_DOUBLE:
fputs("XPCOMPrivate.CallXPCOMMethodDouble", state->file);
break;
case JAVA_CHAR:
fputs("XPCOMPrivate.CallXPCOMMethodChar", state->file);
break;
case JAVA_BOOL:
fputs("XPCOMPrivate.CallXPCOMMethodBool", state->file);
break;
case JAVA_STRING:
fputs("(String", state->file);
if (is_array)
fputs("[]", state->file);
fputs(") XPCOMPrivate.CallXPCOMMethodObj", state->file);
break;
case JAVA_NSISUPPORTS:
fputs("(", state->file);
if (method->op_type_spec) {
if (!xpcom_to_java_type(state, method->op_type_spec))
return FALSE;
} else {
IDL_tree original_tree = state->tree;
state->tree = IDL_LIST(retval_param).data;
if (!xpcom_to_java_type(state, IDL_PARAM_DCL(state->tree).param_type_spec))
return FALSE;
state->tree = original_tree;
}
if (is_array)
fputs("[]", state->file);
fputs(") XPCOMPrivate.CallXPCOMMethodObj", state->file);
break;
case JAVA_OBJECT:
fputs("XPCOMPrivate.CallXPCOMMethodObj", state->file);
break;
default:
g_error("Unknown jtype: %d\n", jtype);
return FALSE;
}
if (is_array)
fputs("A", state->file);
state->tree = orig_tree;
} else {
fputs("XPCOMPrivate.CallXPCOMMethodVoid", state->file);
}
fputs("(this, ", state->file);
numMethods = PRIVDATA(state)->numMethods;
if (PRIVDATA(state)->bHasBaseClass) {
numMethods++;
fputs("super.LAST_METHOD_ID + ", state->file);
}
fprintf(state->file, "%d, ", numMethods);
/*
* Write parameters
*/
for (iterator = method->parameter_dcls; iterator != NULL;
iterator = IDL_LIST(iterator).next) {
/* Skip "retval" */
if (iterator == retval_param) {
if (iterator == method->parameter_dcls)
fputs("null", state->file);
continue;
}
/* Start of object array decl */
if (iterator == method->parameter_dcls) {
fputs("new Object[] { ", state->file);
}
if (iterator != method->parameter_dcls) {
fputs(", ", state->file);
}
state->tree = IDL_LIST(iterator).data;
if (!xpcom_to_java_object(state)) {
return FALSE;
}
/* Close object array decl */
if (IDL_LIST(iterator).next == NULL ||
(IDL_LIST(iterator).next == retval_param &&
IDL_LIST(retval_param).next == NULL))
fputs(" }", state->file);
}
if (method->parameter_dcls == NULL) {
fputs("null", state->file);
}
fputs(");\n }\n\n", state->file);
PRIVDATA(state)->numMethods++;
return TRUE;
}
static gboolean
constant_declaration(TreeState *state)
{
/* Don't output constants for stubs */
return TRUE;
}
#define ATTR_IDENT(tree) (IDL_IDENT(IDL_LIST(IDL_ATTR_DCL((tree)).simple_declarations).data))
#define ATTR_PROPS(tree) (IDL_LIST(IDL_ATTR_DCL((tree)).simple_declarations).data)
#define ATTR_TYPE_DECL(tree) (IDL_ATTR_DCL((tree)).param_type_spec)
static gboolean
attribute_declaration(TreeState *state)
{
char* attribute_text;
char* name;
int numMethods;
JavaNativeType jtype;
gboolean read_only = IDL_ATTR_DCL(state->tree).f_readonly;
char *attribute_name = ATTR_IDENT(state->tree).str;
gboolean method_noscript =
(IDL_tree_property_get(ATTR_PROPS(state->tree), "noscript") != NULL);
gboolean method_notxpcom =
(IDL_tree_property_get(ATTR_PROPS(state->tree), "notxpcom") != NULL);
#ifdef COUNT_METHODS
if (PRIVDATA(state)->bCountingMethods) {
PRIVDATA(state)->numMethods++;
if (!read_only)
PRIVDATA(state)->numMethods++;
return TRUE;
}
#endif
#if 1
/*
* Write access permission ("public")
*/
fputs(" public ", state->file);
#else
if (method_notxpcom || method_noscript)
return TRUE;
/*
* Write access permission ("public" unless nonscriptable)
*/
fputs(" ", state->file);
if (!method_noscript) {
fputs("public ", state->file);
}
#endif
/*
* Write the proper Java return value for the get operation
*/
if (!xpcom_to_java_type(state, ATTR_TYPE_DECL(state->tree))) {
return FALSE;
}
/*
* Write the name of the accessor ("get") method.
*/
fprintf(state->file, " get%c%s()\n",
toupper(attribute_name[0]), attribute_name + 1);
fputs(" {\n ", state->file);
jtype = xpcom_to_java_type2(state, ATTR_TYPE_DECL(state->tree));
if (jtype == JAVA_NATIVE_ERROR)
return FALSE;
fputs("return ", state->file);
switch (jtype) {
case JAVA_BYTE:
fputs("XPCOMPrivate.CallXPCOMMethodByte", state->file);
break;
case JAVA_BYTEARRAY:
fputs("(byte[]) XPCOMPrivate.CallXPCOMMethodObj", state->file);
break;
case JAVA_SHORT:
fputs("XPCOMPrivate.CallXPCOMMethodShort", state->file);
break;
case JAVA_INT:
fputs("XPCOMPrivate.CallXPCOMMethodInt", state->file);
break;
case JAVA_LONG:
fputs("XPCOMPrivate.CallXPCOMMethodLong", state->file);
break;
case JAVA_FLOAT:
fputs("XPCOMPrivate.CallXPCOMMethodFloat", state->file);
break;
case JAVA_DOUBLE:
fputs("XPCOMPrivate.CallXPCOMMethodDouble", state->file);
break;
case JAVA_CHAR:
fputs("XPCOMPrivate.CallXPCOMMethodChar", state->file);
break;
case JAVA_BOOL:
fputs("XPCOMPrivate.CallXPCOMMethodBool", state->file);
break;
case JAVA_STRING:
fputs("(String) XPCOMPrivate.CallXPCOMMethodObj", state->file);
break;
case JAVA_NSISUPPORTS:
fputs("(", state->file);
if (!xpcom_to_java_type(state, ATTR_TYPE_DECL(state->tree))) {
return FALSE;
}
fputs(") XPCOMPrivate.CallXPCOMMethodObj", state->file);
break;
case JAVA_OBJECT:
fputs("XPCOMPrivate.CallXPCOMMethodObj", state->file);
break;
default:
g_error("Unknown jtype: %d\n", jtype);
return FALSE;
}
fputs("(this, ", state->file);
numMethods = PRIVDATA(state)->numMethods;
if (PRIVDATA(state)->bHasBaseClass) {
numMethods++;
fputs("super.LAST_METHOD_ID + ", state->file);
}
fprintf(state->file, "%d, null);\n", numMethods);
fputs(" }\n\n", state->file);
PRIVDATA(state)->numMethods++;
if (!read_only) {
#if 1
fputs(" public ", state->file);
#else
/* Nonscriptable methods become package-protected */
fputs(" ", state->file);
if (!method_noscript) {
fputs("public ", state->file);
}
#endif
/*
* Write attribute access method name and return type
*/
fprintf(state->file, "void set%c%s(",
toupper(attribute_name[0]),
attribute_name+1);
/*
* Write the proper Java type for the set operation
*/
if (!xpcom_to_java_type(state, ATTR_TYPE_DECL(state->tree))) {
return FALSE;
}
/*
* Write the name of the formal parameter.
*/
fputs(" value)\n", state->file);
/* fprintf(state->file, " a%c%s)\n", toupper(attribute_name[0]), attribute_name + 1);*/
fputs(" {\n ", state->file);
/*
* Write CallXPCOMMethod invocation
*/
fputs("XPCOMPrivate.CallXPCOMMethodVoid(this, ", state->file);
numMethods = PRIVDATA(state)->numMethods;
if (PRIVDATA(state)->bHasBaseClass) {
numMethods++;
fputs("super.LAST_METHOD_ID + ", state->file);
}
fprintf(state->file, "%d, ", numMethods);
/*
* Write parameter
*/
fputs("new Object[] { ", state->file);
/* if (!xpcom_to_java_object(state)) {
return FALSE;
} */
if (!xpcom_to_java_object_type(state, ATTR_TYPE_DECL(state->tree), "value", 0)) {
return FALSE;
}
fputs(" });", state->file);
fputs("\n }\n\n", state->file);
PRIVDATA(state)->numMethods++;
}
return TRUE;
}
static gboolean
enum_declaration(TreeState *state)
{
XPIDL_WARNING((state->tree, IDL_WARNING1,
"enums not supported, enum \'%s\' ignored",
IDL_IDENT(IDL_TYPE_ENUM(state->tree).ident).str));
return TRUE;
}
backend *
xpidl_javastub_dispatch(void)
{
static backend result;
static nodeHandler table[IDLN_LAST];
static gboolean initialized = FALSE;
result.emit_prolog = java_prolog;
result.emit_epilog = java_epilog;
if (!initialized) {
table[IDLN_INTERFACE] = interface_declaration;
table[IDLN_LIST] = process_list;
table[IDLN_OP_DCL] = method_declaration;
table[IDLN_ATTR_DCL] = attribute_declaration;
table[IDLN_CONST_DCL] = constant_declaration;
table[IDLN_TYPE_DCL] = type_declaration;
table[IDLN_FORWARD_DCL] = forward_declaration;
table[IDLN_TYPE_ENUM] = enum_declaration;
initialized = TRUE;
}
result.dispatch_table = table;
return &result;
}
char* subscriptIdentifier(TreeState *state, char *str)
{
char *sstr = NULL;
char *keyword = g_hash_table_lookup(KEYWORDS(state), str);
if (keyword) {
sstr = g_strdup_printf("%s_", keyword);
return sstr;
}
return str;
}