/* * Copyright (C) 2003 Apple Computer, Inc. All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions * are met: * 1. Redistributions of source code must retain the above copyright * notice, this list of conditions and the following disclaimer. * 2. Redistributions in binary form must reproduce the above copyright * notice, this list of conditions and the following disclaimer in the * documentation and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY APPLE COMPUTER, INC. ``AS IS'' AND ANY * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR * PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE COMPUTER, INC. OR * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "config.h" #include "jni_utility.h" #include "interpreter.h" #include "list.h" #include "jni_runtime.h" #include "runtime_array.h" #include "runtime_object.h" #include namespace KJS { namespace Bindings { static jint KJS_GetCreatedJavaVMs(JavaVM** vmBuf, jsize bufLen, jsize* nVMs) { static void* javaVMFramework = 0; if (!javaVMFramework) javaVMFramework = dlopen("/System/Library/Frameworks/JavaVM.framework/JavaVM", RTLD_LAZY); if (!javaVMFramework) return JNI_ERR; static jint(*functionPointer)(JavaVM**, jsize, jsize *) = 0; if (!functionPointer) functionPointer = (jint(*)(JavaVM**, jsize, jsize *))dlsym(javaVMFramework, "JNI_GetCreatedJavaVMs"); if (!functionPointer) return JNI_ERR; return functionPointer(vmBuf, bufLen, nVMs); } static JavaVM *jvm = 0; // Provide the ability for an outside component to specify the JavaVM to use // If the jvm value is set, the getJavaVM function below will just return. // In getJNIEnv(), if AttachCurrentThread is called to a VM that is already // attached, the result is a no-op. void setJavaVM(JavaVM *javaVM) { jvm = javaVM; } JavaVM *getJavaVM() { if (jvm) return jvm; JavaVM *jvmArray[1]; jsize bufLen = 1; jsize nJVMs = 0; jint jniError = 0; // Assumes JVM is already running ..., one per process jniError = KJS_GetCreatedJavaVMs(jvmArray, bufLen, &nJVMs); if ( jniError == JNI_OK && nJVMs > 0 ) { jvm = jvmArray[0]; } else fprintf(stderr, "%s: JNI_GetCreatedJavaVMs failed, returned %ld\n", __PRETTY_FUNCTION__, (long)jniError); return jvm; } JNIEnv* getJNIEnv() { union { JNIEnv* env; void* dummy; } u; jint jniError = 0; jniError = (getJavaVM())->AttachCurrentThread(&u.dummy, NULL); if (jniError == JNI_OK) return u.env; else fprintf(stderr, "%s: AttachCurrentThread failed, returned %ld\n", __PRETTY_FUNCTION__, (long)jniError); return NULL; } static jvalue callJNIMethod (JNIType type, jobject obj, const char *name, const char *sig, va_list args) { JavaVM *jvm = getJavaVM(); JNIEnv *env = getJNIEnv(); jvalue result; bzero (&result, sizeof(jvalue)); if ( obj != NULL && jvm != NULL && env != NULL) { jclass cls = env->GetObjectClass(obj); if ( cls != NULL ) { jmethodID mid = env->GetMethodID(cls, name, sig); if ( mid != NULL ) { switch (type) { case void_type: env->functions->CallVoidMethodV(env, obj, mid, args); break; case array_type: case object_type: result.l = env->functions->CallObjectMethodV(env, obj, mid, args); break; case boolean_type: result.z = env->functions->CallBooleanMethodV(env, obj, mid, args); break; case byte_type: result.b = env->functions->CallByteMethodV(env, obj, mid, args); break; case char_type: result.c = env->functions->CallCharMethodV(env, obj, mid, args); break; case short_type: result.s = env->functions->CallShortMethodV(env, obj, mid, args); break; case int_type: result.i = env->functions->CallIntMethodV(env, obj, mid, args); break; case long_type: result.j = env->functions->CallLongMethodV(env, obj, mid, args); break; case float_type: result.f = env->functions->CallFloatMethodV(env, obj, mid, args); break; case double_type: result.d = env->functions->CallDoubleMethodV(env, obj, mid, args); break; default: fprintf(stderr, "%s: invalid function type (%d)\n", __PRETTY_FUNCTION__, (int)type); } } else { fprintf(stderr, "%s: Could not find method: %s for %p\n", __PRETTY_FUNCTION__, name, obj); env->ExceptionDescribe(); env->ExceptionClear(); fprintf (stderr, "\n"); } env->DeleteLocalRef(cls); } else { fprintf(stderr, "%s: Could not find class for %p\n", __PRETTY_FUNCTION__, obj); } } return result; } static jvalue callJNIStaticMethod (JNIType type, jclass cls, const char *name, const char *sig, va_list args) { JavaVM *jvm = getJavaVM(); JNIEnv *env = getJNIEnv(); jvalue result; bzero (&result, sizeof(jvalue)); if ( cls != NULL && jvm != NULL && env != NULL) { jmethodID mid = env->GetStaticMethodID(cls, name, sig); if ( mid != NULL ) { switch (type) { case void_type: env->functions->CallStaticVoidMethodV(env, cls, mid, args); break; case array_type: case object_type: result.l = env->functions->CallStaticObjectMethodV(env, cls, mid, args); break; case boolean_type: result.z = env->functions->CallStaticBooleanMethodV(env, cls, mid, args); break; case byte_type: result.b = env->functions->CallStaticByteMethodV(env, cls, mid, args); break; case char_type: result.c = env->functions->CallStaticCharMethodV(env, cls, mid, args); break; case short_type: result.s = env->functions->CallStaticShortMethodV(env, cls, mid, args); break; case int_type: result.i = env->functions->CallStaticIntMethodV(env, cls, mid, args); break; case long_type: result.j = env->functions->CallStaticLongMethodV(env, cls, mid, args); break; case float_type: result.f = env->functions->CallStaticFloatMethodV(env, cls, mid, args); break; case double_type: result.d = env->functions->CallStaticDoubleMethodV(env, cls, mid, args); break; default: fprintf(stderr, "%s: invalid function type (%d)\n", __PRETTY_FUNCTION__, (int)type); } } else { fprintf(stderr, "%s: Could not find method: %s for %p\n", __PRETTY_FUNCTION__, name, cls); env->ExceptionDescribe(); env->ExceptionClear(); fprintf (stderr, "\n"); } } return result; } static jvalue callJNIMethodIDA (JNIType type, jobject obj, jmethodID mid, jvalue *args) { JNIEnv *env = getJNIEnv(); jvalue result; bzero (&result, sizeof(jvalue)); if ( obj != NULL && mid != NULL ) { switch (type) { case void_type: env->functions->CallVoidMethodA(env, obj, mid, args); break; case array_type: case object_type: result.l = env->functions->CallObjectMethodA(env, obj, mid, args); break; case boolean_type: result.z = env->functions->CallBooleanMethodA(env, obj, mid, args); break; case byte_type: result.b = env->functions->CallByteMethodA(env, obj, mid, args); break; case char_type: result.c = env->functions->CallCharMethodA(env, obj, mid, args); break; case short_type: result.s = env->functions->CallShortMethodA(env, obj, mid, args); break; case int_type: result.i = env->functions->CallIntMethodA(env, obj, mid, args); break; case long_type: result.j = env->functions->CallLongMethodA(env, obj, mid, args); break; case float_type: result.f = env->functions->CallFloatMethodA(env, obj, mid, args); break; case double_type: result.d = env->functions->CallDoubleMethodA(env, obj, mid, args); break; default: fprintf(stderr, "%s: invalid function type (%d)\n", __PRETTY_FUNCTION__, (int)type); } } return result; } static jvalue callJNIMethodA (JNIType type, jobject obj, const char *name, const char *sig, jvalue *args) { JavaVM *jvm = getJavaVM(); JNIEnv *env = getJNIEnv(); jvalue result; bzero (&result, sizeof(jvalue)); if ( obj != NULL && jvm != NULL && env != NULL) { jclass cls = env->GetObjectClass(obj); if ( cls != NULL ) { jmethodID mid = env->GetMethodID(cls, name, sig); if ( mid != NULL ) { result = callJNIMethodIDA (type, obj, mid, args); } else { fprintf(stderr, "%s: Could not find method: %s\n", __PRETTY_FUNCTION__, name); env->ExceptionDescribe(); env->ExceptionClear(); fprintf (stderr, "\n"); } env->DeleteLocalRef(cls); } else { fprintf(stderr, "%s: Could not find class for object\n", __PRETTY_FUNCTION__); } } return result; } jmethodID getMethodID (jobject obj, const char *name, const char *sig) { JNIEnv *env = getJNIEnv(); jmethodID mid = 0; if ( env != NULL) { jclass cls = env->GetObjectClass(obj); if ( cls != NULL ) { mid = env->GetMethodID(cls, name, sig); if (!mid) { env->ExceptionClear(); mid = env->GetStaticMethodID(cls, name, sig); if (!mid) { env->ExceptionClear(); } } } env->DeleteLocalRef(cls); } return mid; } #define CALL_JNI_METHOD(function_type,obj,name,sig) \ va_list args;\ va_start (args, sig);\ \ jvalue result = callJNIMethod(function_type, obj, name, sig, args);\ \ va_end (args); #define CALL_JNI_STATIC_METHOD(function_type,cls,name,sig) \ va_list args;\ va_start (args, sig);\ \ jvalue result = callJNIStaticMethod(function_type, cls, name, sig, args);\ \ va_end (args); void callJNIVoidMethod (jobject obj, const char *name, const char *sig, ... ) { CALL_JNI_METHOD (void_type, obj, name, sig); } jobject callJNIObjectMethod (jobject obj, const char *name, const char *sig, ... ) { CALL_JNI_METHOD (object_type, obj, name, sig); return result.l; } jboolean callJNIBooleanMethod( jobject obj, const char *name, const char *sig, ... ) { CALL_JNI_METHOD (boolean_type, obj, name, sig); return result.z; } jboolean callJNIStaticBooleanMethod (jclass cls, const char *name, const char *sig, ... ) { CALL_JNI_STATIC_METHOD (boolean_type, cls, name, sig); return result.z; } jbyte callJNIByteMethod( jobject obj, const char *name, const char *sig, ... ) { CALL_JNI_METHOD (byte_type, obj, name, sig); return result.b; } jchar callJNICharMethod (jobject obj, const char *name, const char *sig, ... ) { CALL_JNI_METHOD (char_type, obj, name, sig); return result.c; } jshort callJNIShortMethod (jobject obj, const char *name, const char *sig, ... ) { CALL_JNI_METHOD (short_type, obj, name, sig); return result.s; } jint callJNIIntMethod (jobject obj, const char *name, const char *sig, ... ) { CALL_JNI_METHOD (int_type, obj, name, sig); return result.i; } jlong callJNILongMethod (jobject obj, const char *name, const char *sig, ... ) { CALL_JNI_METHOD (long_type, obj, name, sig); return result.j; } jfloat callJNIFloatMethod (jobject obj, const char *name, const char *sig, ... ) { CALL_JNI_METHOD (float_type, obj, name, sig); return result.f; } jdouble callJNIDoubleMethod (jobject obj, const char *name, const char *sig, ... ) { CALL_JNI_METHOD (double_type, obj, name, sig); return result.d; } void callJNIVoidMethodA (jobject obj, const char *name, const char *sig, jvalue *args) { jvalue result = callJNIMethodA (void_type, obj, name, sig, args); } jobject callJNIObjectMethodA (jobject obj, const char *name, const char *sig, jvalue *args) { jvalue result = callJNIMethodA (object_type, obj, name, sig, args); return result.l; } jbyte callJNIByteMethodA ( jobject obj, const char *name, const char *sig, jvalue *args) { jvalue result = callJNIMethodA (byte_type, obj, name, sig, args); return result.b; } jchar callJNICharMethodA (jobject obj, const char *name, const char *sig, jvalue *args) { jvalue result = callJNIMethodA (char_type, obj, name, sig, args); return result.c; } jshort callJNIShortMethodA (jobject obj, const char *name, const char *sig, jvalue *args) { jvalue result = callJNIMethodA (short_type, obj, name, sig, args); return result.s; } jint callJNIIntMethodA (jobject obj, const char *name, const char *sig, jvalue *args) { jvalue result = callJNIMethodA (int_type, obj, name, sig, args); return result.i; } jlong callJNILongMethodA (jobject obj, const char *name, const char *sig, jvalue *args) { jvalue result = callJNIMethodA (long_type, obj, name, sig, args); return result.j; } jfloat callJNIFloatMethodA (jobject obj, const char *name, const char *sig, jvalue *args) { jvalue result = callJNIMethodA (float_type, obj, name, sig, args); return result.f; } jdouble callJNIDoubleMethodA (jobject obj, const char *name, const char *sig, jvalue *args) { jvalue result = callJNIMethodA (double_type, obj, name, sig, args); return result.d; } jboolean callJNIBooleanMethodA (jobject obj, const char *name, const char *sig, jvalue *args) { jvalue result = callJNIMethodA (boolean_type, obj, name, sig, args); return result.z; } void callJNIVoidMethodIDA (jobject obj, jmethodID methodID, jvalue *args) { jvalue result = callJNIMethodIDA (void_type, obj, methodID, args); } jobject callJNIObjectMethodIDA (jobject obj, jmethodID methodID, jvalue *args) { jvalue result = callJNIMethodIDA (object_type, obj, methodID, args); return result.l; } jbyte callJNIByteMethodIDA ( jobject obj, jmethodID methodID, jvalue *args) { jvalue result = callJNIMethodIDA (byte_type, obj, methodID, args); return result.b; } jchar callJNICharMethodIDA (jobject obj, jmethodID methodID, jvalue *args) { jvalue result = callJNIMethodIDA (char_type, obj, methodID, args); return result.c; } jshort callJNIShortMethodIDA (jobject obj, jmethodID methodID, jvalue *args) { jvalue result = callJNIMethodIDA (short_type, obj, methodID, args); return result.s; } jint callJNIIntMethodIDA (jobject obj, jmethodID methodID, jvalue *args) { jvalue result = callJNIMethodIDA (int_type, obj, methodID, args); return result.i; } jlong callJNILongMethodIDA (jobject obj, jmethodID methodID, jvalue *args) { jvalue result = callJNIMethodIDA (long_type, obj, methodID, args); return result.j; } jfloat callJNIFloatMethodIDA (jobject obj, jmethodID methodID, jvalue *args) { jvalue result = callJNIMethodIDA (float_type, obj, methodID, args); return result.f; } jdouble callJNIDoubleMethodIDA (jobject obj, jmethodID methodID, jvalue *args) { jvalue result = callJNIMethodIDA (double_type, obj, methodID, args); return result.d; } jboolean callJNIBooleanMethodIDA (jobject obj, jmethodID methodID, jvalue *args) { jvalue result = callJNIMethodIDA (boolean_type, obj, methodID, args); return result.z; } const char *getCharactersFromJString (jstring aJString) { return getCharactersFromJStringInEnv (getJNIEnv(), aJString); } void releaseCharactersForJString (jstring aJString, const char *s) { releaseCharactersForJStringInEnv (getJNIEnv(), aJString, s); } const char *getCharactersFromJStringInEnv (JNIEnv *env, jstring aJString) { jboolean isCopy; const char *s = env->GetStringUTFChars((jstring)aJString, &isCopy); if (!s) { env->ExceptionDescribe(); env->ExceptionClear(); fprintf (stderr, "\n"); } return s; } void releaseCharactersForJStringInEnv (JNIEnv *env, jstring aJString, const char *s) { env->ReleaseStringUTFChars (aJString, s); } const jchar *getUCharactersFromJStringInEnv (JNIEnv *env, jstring aJString) { jboolean isCopy; const jchar *s = env->GetStringChars((jstring)aJString, &isCopy); if (!s) { env->ExceptionDescribe(); env->ExceptionClear(); fprintf (stderr, "\n"); } return s; } void releaseUCharactersForJStringInEnv (JNIEnv *env, jstring aJString, const jchar *s) { env->ReleaseStringChars (aJString, s); } JNIType JNITypeFromClassName(const char *name) { JNIType type; if (strcmp("byte",name) == 0) type = byte_type; else if (strcmp("short",name) == 0) type = short_type; else if (strcmp("int",name) == 0) type = int_type; else if (strcmp("long",name) == 0) type = long_type; else if (strcmp("float",name) == 0) type = float_type; else if (strcmp("double",name) == 0) type = double_type; else if (strcmp("char",name) == 0) type = char_type; else if (strcmp("boolean",name) == 0) type = boolean_type; else if (strcmp("void",name) == 0) type = void_type; else if ('[' == name[0]) type = array_type; else type = object_type; return type; } const char *signatureFromPrimitiveType(JNIType type) { switch (type){ case void_type: return "V"; case array_type: return "["; case object_type: return "L"; case boolean_type: return "Z"; case byte_type: return "B"; case char_type: return "C"; case short_type: return "S"; case int_type: return "I"; case long_type: return "J"; case float_type: return "F"; case double_type: return "D"; case invalid_type: default: break; } return ""; } JNIType JNITypeFromPrimitiveType(char type) { switch (type){ case 'V': return void_type; case 'L': return object_type; case '[': return array_type; case 'Z': return boolean_type; case 'B': return byte_type; case 'C': return char_type; case 'S': return short_type; case 'I': return int_type; case 'J': return long_type; case 'F': return float_type; case 'D': return double_type; default: break; } return invalid_type; } jvalue getJNIField( jobject obj, JNIType type, const char *name, const char *signature) { JavaVM *jvm = getJavaVM(); JNIEnv *env = getJNIEnv(); jvalue result; bzero (&result, sizeof(jvalue)); if ( obj != NULL && jvm != NULL && env != NULL) { jclass cls = env->GetObjectClass(obj); if ( cls != NULL ) { jfieldID field = env->GetFieldID(cls, name, signature); if ( field != NULL ) { switch (type) { case array_type: case object_type: result.l = env->functions->GetObjectField(env, obj, field); break; case boolean_type: result.z = env->functions->GetBooleanField(env, obj, field); break; case byte_type: result.b = env->functions->GetByteField(env, obj, field); break; case char_type: result.c = env->functions->GetCharField(env, obj, field); break; case short_type: result.s = env->functions->GetShortField(env, obj, field); break; case int_type: result.i = env->functions->GetIntField(env, obj, field); break; case long_type: result.j = env->functions->GetLongField(env, obj, field); break; case float_type: result.f = env->functions->GetFloatField(env, obj, field); break; case double_type: result.d = env->functions->GetDoubleField(env, obj, field); break; default: fprintf(stderr, "%s: invalid field type (%d)\n", __PRETTY_FUNCTION__, (int)type); } } else { fprintf(stderr, "%s: Could not find field: %s\n", __PRETTY_FUNCTION__, name); env->ExceptionDescribe(); env->ExceptionClear(); fprintf (stderr, "\n"); } env->DeleteLocalRef(cls); } else { fprintf(stderr, "%s: Could not find class for object\n", __PRETTY_FUNCTION__); } } return result; } static jobject convertArrayInstanceToJavaArray(ExecState *exec, JSValue *value, const char *javaClassName) { ASSERT(JSLock::lockCount() > 0); JNIEnv *env = getJNIEnv(); // As JS Arrays can contain a mixture of objects, assume we can convert to // the requested Java Array type requested, unless the array type is some object array // other than a string. ArrayInstance *jsArray = static_cast(value); unsigned length = jsArray->getLength(); jobjectArray jarray = 0; // Build the correct array type switch (JNITypeFromPrimitiveType(javaClassName[1])) { case object_type: { // Only support string object types if (0 == strcmp("[Ljava.lang.String;", javaClassName)) { jarray = (jobjectArray)env->NewObjectArray(length, env->FindClass("java/lang/String"), env->NewStringUTF("")); for(unsigned i = 0; i < length; i++) { JSValue* item = jsArray->getItem(i); UString stringValue = item->toString(exec); env->SetObjectArrayElement(jarray,i, env->functions->NewString(env, (const jchar *)stringValue.data(), stringValue.size())); } } break; } case boolean_type: { jarray = (jobjectArray)env->NewBooleanArray(length); for(unsigned i = 0; i < length; i++) { JSValue* item = jsArray->getItem(i); jboolean value = (jboolean)item->toNumber(exec); env->SetBooleanArrayRegion((jbooleanArray)jarray, (jsize)i, (jsize)1, &value); } break; } case byte_type: { jarray = (jobjectArray)env->NewByteArray(length); for(unsigned i = 0; i < length; i++) { JSValue* item = jsArray->getItem(i); jbyte value = (jbyte)item->toNumber(exec); env->SetByteArrayRegion((jbyteArray)jarray, (jsize)i, (jsize)1, &value); } break; } case char_type: { jarray = (jobjectArray)env->NewCharArray(length); for(unsigned i = 0; i < length; i++) { JSValue* item = jsArray->getItem(i); UString stringValue = item->toString(exec); jchar value = 0; if (stringValue.size() > 0) value = ((const jchar*)stringValue.data())[0]; env->SetCharArrayRegion((jcharArray)jarray, (jsize)i, (jsize)1, &value); } break; } case short_type: { jarray = (jobjectArray)env->NewShortArray(length); for(unsigned i = 0; i < length; i++) { JSValue* item = jsArray->getItem(i); jshort value = (jshort)item->toNumber(exec); env->SetShortArrayRegion((jshortArray)jarray, (jsize)i, (jsize)1, &value); } break; } case int_type: { jarray = (jobjectArray)env->NewIntArray(length); for(unsigned i = 0; i < length; i++) { JSValue* item = jsArray->getItem(i); jint value = (jint)item->toNumber(exec); env->SetIntArrayRegion((jintArray)jarray, (jsize)i, (jsize)1, &value); } break; } case long_type: { jarray = (jobjectArray)env->NewLongArray(length); for(unsigned i = 0; i < length; i++) { JSValue* item = jsArray->getItem(i); jlong value = (jlong)item->toNumber(exec); env->SetLongArrayRegion((jlongArray)jarray, (jsize)i, (jsize)1, &value); } break; } case float_type: { jarray = (jobjectArray)env->NewFloatArray(length); for(unsigned i = 0; i < length; i++) { JSValue* item = jsArray->getItem(i); jfloat value = (jfloat)item->toNumber(exec); env->SetFloatArrayRegion((jfloatArray)jarray, (jsize)i, (jsize)1, &value); } break; } case double_type: { jarray = (jobjectArray)env->NewDoubleArray(length); for(unsigned i = 0; i < length; i++) { JSValue* item = jsArray->getItem(i); jdouble value = (jdouble)item->toNumber(exec); env->SetDoubleArrayRegion((jdoubleArray)jarray, (jsize)i, (jsize)1, &value); } break; } case array_type: // don't handle embedded arrays case void_type: // Don't expect arrays of void objects case invalid_type: // Array of unknown objects break; } // if it was not one of the cases handled, then null is returned return jarray; } jvalue convertValueToJValue (ExecState *exec, JSValue *value, JNIType _JNIType, const char *javaClassName) { JSLock lock; jvalue result; switch (_JNIType){ case array_type: case object_type: { result.l = (jobject)0; // First see if we have a Java instance. if (value->isObject()){ JSObject *objectImp = static_cast(value); if (objectImp->classInfo() == &RuntimeObjectImp::info) { RuntimeObjectImp *imp = static_cast(value); JavaInstance *instance = static_cast(imp->getInternalInstance()); if (instance) result.l = instance->javaInstance(); } else if (objectImp->classInfo() == &RuntimeArray::info) { // Input is a JavaScript Array that was originally created from a Java Array RuntimeArray *imp = static_cast(value); JavaArray *array = static_cast(imp->getConcreteArray()); result.l = array->javaArray(); } else if (objectImp->classInfo() == &ArrayInstance::info) { // Input is a Javascript Array. We need to create it to a Java Array. result.l = convertArrayInstanceToJavaArray(exec, value, javaClassName); } } // Now convert value to a string if the target type is a java.lang.string, and we're not // converting from a Null. if (result.l == 0 && strcmp(javaClassName, "java.lang.String") == 0) { #ifdef CONVERT_NULL_TO_EMPTY_STRING if (value->isNull()) { JNIEnv *env = getJNIEnv(); jchar buf[2]; jobject javaString = env->functions->NewString (env, buf, 0); result.l = javaString; } else #else if (!value->isNull()) #endif { UString stringValue = value->toString(exec); JNIEnv *env = getJNIEnv(); jobject javaString = env->functions->NewString (env, (const jchar *)stringValue.data(), stringValue.size()); result.l = javaString; } } else if (result.l == 0) bzero (&result, sizeof(jvalue)); // Handle it the same as a void case } break; case boolean_type: { result.z = (jboolean)value->toNumber(exec); } break; case byte_type: { result.b = (jbyte)value->toNumber(exec); } break; case char_type: { result.c = (jchar)value->toNumber(exec); } break; case short_type: { result.s = (jshort)value->toNumber(exec); } break; case int_type: { result.i = (jint)value->toNumber(exec); } break; case long_type: { result.j = (jlong)value->toNumber(exec); } break; case float_type: { result.f = (jfloat)value->toNumber(exec); } break; case double_type: { result.d = (jdouble)value->toNumber(exec); } break; break; case invalid_type: default: case void_type: { bzero (&result, sizeof(jvalue)); } break; } return result; } } // end of namespace Bindings } // end of namespace KJS