VaKeR CYBER ARMY
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Current File : //proc/thread-self/root/usr/share/emscripten/tests/nbody-java/java_nio_ReadWriteHeapByteBuffer.c #include "xmlvm.h"
#include "java_lang_Double.h"
#include "java_lang_Float.h"
#include "java_lang_IndexOutOfBoundsException.h"
#include "java_lang_Object.h"
#include "java_lang_System.h"
#include "java_nio_ByteBuffer.h"
#include "org_apache_harmony_luni_platform_Endianness.h"
#include "java_nio_ReadWriteHeapByteBuffer.h"
#define XMLVM_CURRENT_CLASS_NAME ReadWriteHeapByteBuffer
#define XMLVM_CURRENT_PKG_CLASS_NAME java_nio_ReadWriteHeapByteBuffer
__TIB_DEFINITION_java_nio_ReadWriteHeapByteBuffer __TIB_java_nio_ReadWriteHeapByteBuffer = {
0, // classInitializationBegan
0, // classInitialized
-1, // initializerThreadId
__INIT_java_nio_ReadWriteHeapByteBuffer, // classInitializer
"java.nio.ReadWriteHeapByteBuffer", // className
"java.nio", // package
JAVA_NULL, // enclosingClassName
JAVA_NULL, // enclosingMethodName
JAVA_NULL, // signature
(__TIB_DEFINITION_TEMPLATE*) &__TIB_java_nio_HeapByteBuffer, // extends
sizeof(java_nio_ReadWriteHeapByteBuffer), // sizeInstance
XMLVM_TYPE_CLASS};
JAVA_OBJECT __CLASS_java_nio_ReadWriteHeapByteBuffer;
JAVA_OBJECT __CLASS_java_nio_ReadWriteHeapByteBuffer_1ARRAY;
JAVA_OBJECT __CLASS_java_nio_ReadWriteHeapByteBuffer_2ARRAY;
JAVA_OBJECT __CLASS_java_nio_ReadWriteHeapByteBuffer_3ARRAY;
//XMLVM_BEGIN_IMPLEMENTATION
//XMLVM_END_IMPLEMENTATION
#include "xmlvm-reflection.h"
static XMLVM_FIELD_REFLECTION_DATA __field_reflection_data[] = {
};
static XMLVM_CONSTRUCTOR_REFLECTION_DATA __constructor_reflection_data[] = {
};
static JAVA_OBJECT constructor_dispatcher(JAVA_OBJECT constructor, JAVA_OBJECT arguments)
{
XMLVM_NOT_IMPLEMENTED();
}
static XMLVM_METHOD_REFLECTION_DATA __method_reflection_data[] = {
};
static JAVA_OBJECT method_dispatcher(JAVA_OBJECT method, JAVA_OBJECT receiver, JAVA_OBJECT arguments)
{
XMLVM_NOT_IMPLEMENTED();
}
void __INIT_java_nio_ReadWriteHeapByteBuffer()
{
staticInitializerLock(&__TIB_java_nio_ReadWriteHeapByteBuffer);
// While the static initializer mutex is locked, locally store the value of
// whether class initialization began or not
int initBegan = __TIB_java_nio_ReadWriteHeapByteBuffer.classInitializationBegan;
// Whether or not class initialization had already began, it has begun now
__TIB_java_nio_ReadWriteHeapByteBuffer.classInitializationBegan = 1;
staticInitializerUnlock(&__TIB_java_nio_ReadWriteHeapByteBuffer);
JAVA_LONG curThreadId = (JAVA_LONG)pthread_self();
if (initBegan) {
if (__TIB_java_nio_ReadWriteHeapByteBuffer.initializerThreadId != curThreadId) {
// Busy wait until the other thread finishes initializing this class
while (!__TIB_java_nio_ReadWriteHeapByteBuffer.classInitialized) {
// do nothing
}
}
} else {
__TIB_java_nio_ReadWriteHeapByteBuffer.initializerThreadId = curThreadId;
XMLVM_CLASS_USED("java.nio.ReadWriteHeapByteBuffer")
__INIT_IMPL_java_nio_ReadWriteHeapByteBuffer();
}
}
void __INIT_IMPL_java_nio_ReadWriteHeapByteBuffer()
{
// Initialize base class if necessary
XMLVM_CLASS_INIT(java_nio_HeapByteBuffer)
__TIB_java_nio_ReadWriteHeapByteBuffer.newInstanceFunc = __NEW_INSTANCE_java_nio_ReadWriteHeapByteBuffer;
// Copy vtable from base class
XMLVM_MEMCPY(__TIB_java_nio_ReadWriteHeapByteBuffer.vtable, __TIB_java_nio_HeapByteBuffer.vtable, sizeof(__TIB_java_nio_HeapByteBuffer.vtable));
// Initialize vtable for this class
__TIB_java_nio_ReadWriteHeapByteBuffer.vtable[16] = (VTABLE_PTR) &java_nio_ReadWriteHeapByteBuffer_asReadOnlyBuffer__;
__TIB_java_nio_ReadWriteHeapByteBuffer.vtable[18] = (VTABLE_PTR) &java_nio_ReadWriteHeapByteBuffer_compact__;
__TIB_java_nio_ReadWriteHeapByteBuffer.vtable[20] = (VTABLE_PTR) &java_nio_ReadWriteHeapByteBuffer_duplicate__;
__TIB_java_nio_ReadWriteHeapByteBuffer.vtable[10] = (VTABLE_PTR) &java_nio_ReadWriteHeapByteBuffer_isReadOnly__;
__TIB_java_nio_ReadWriteHeapByteBuffer.vtable[37] = (VTABLE_PTR) &java_nio_ReadWriteHeapByteBuffer_protectedArray__;
__TIB_java_nio_ReadWriteHeapByteBuffer.vtable[36] = (VTABLE_PTR) &java_nio_ReadWriteHeapByteBuffer_protectedArrayOffset__;
__TIB_java_nio_ReadWriteHeapByteBuffer.vtable[38] = (VTABLE_PTR) &java_nio_ReadWriteHeapByteBuffer_protectedHasArray__;
__TIB_java_nio_ReadWriteHeapByteBuffer.vtable[51] = (VTABLE_PTR) &java_nio_ReadWriteHeapByteBuffer_put___byte;
__TIB_java_nio_ReadWriteHeapByteBuffer.vtable[53] = (VTABLE_PTR) &java_nio_ReadWriteHeapByteBuffer_put___int_byte;
__TIB_java_nio_ReadWriteHeapByteBuffer.vtable[52] = (VTABLE_PTR) &java_nio_ReadWriteHeapByteBuffer_put___byte_1ARRAY_int_int;
__TIB_java_nio_ReadWriteHeapByteBuffer.vtable[41] = (VTABLE_PTR) &java_nio_ReadWriteHeapByteBuffer_putDouble___double;
__TIB_java_nio_ReadWriteHeapByteBuffer.vtable[42] = (VTABLE_PTR) &java_nio_ReadWriteHeapByteBuffer_putDouble___int_double;
__TIB_java_nio_ReadWriteHeapByteBuffer.vtable[43] = (VTABLE_PTR) &java_nio_ReadWriteHeapByteBuffer_putFloat___float;
__TIB_java_nio_ReadWriteHeapByteBuffer.vtable[44] = (VTABLE_PTR) &java_nio_ReadWriteHeapByteBuffer_putFloat___int_float;
__TIB_java_nio_ReadWriteHeapByteBuffer.vtable[45] = (VTABLE_PTR) &java_nio_ReadWriteHeapByteBuffer_putInt___int;
__TIB_java_nio_ReadWriteHeapByteBuffer.vtable[46] = (VTABLE_PTR) &java_nio_ReadWriteHeapByteBuffer_putInt___int_int;
__TIB_java_nio_ReadWriteHeapByteBuffer.vtable[47] = (VTABLE_PTR) &java_nio_ReadWriteHeapByteBuffer_putLong___int_long;
__TIB_java_nio_ReadWriteHeapByteBuffer.vtable[48] = (VTABLE_PTR) &java_nio_ReadWriteHeapByteBuffer_putLong___long;
__TIB_java_nio_ReadWriteHeapByteBuffer.vtable[49] = (VTABLE_PTR) &java_nio_ReadWriteHeapByteBuffer_putShort___int_short;
__TIB_java_nio_ReadWriteHeapByteBuffer.vtable[50] = (VTABLE_PTR) &java_nio_ReadWriteHeapByteBuffer_putShort___short;
__TIB_java_nio_ReadWriteHeapByteBuffer.vtable[54] = (VTABLE_PTR) &java_nio_ReadWriteHeapByteBuffer_slice__;
// Initialize interface information
__TIB_java_nio_ReadWriteHeapByteBuffer.numImplementedInterfaces = 1;
__TIB_java_nio_ReadWriteHeapByteBuffer.implementedInterfaces = (__TIB_DEFINITION_TEMPLATE* (*)[1]) XMLVM_MALLOC(sizeof(__TIB_DEFINITION_TEMPLATE*) * 1);
// Initialize interfaces if necessary and assign tib to implementedInterfaces
XMLVM_CLASS_INIT(java_lang_Comparable)
__TIB_java_nio_ReadWriteHeapByteBuffer.implementedInterfaces[0][0] = &__TIB_java_lang_Comparable;
// Initialize itable for this class
__TIB_java_nio_ReadWriteHeapByteBuffer.itableBegin = &__TIB_java_nio_ReadWriteHeapByteBuffer.itable[0];
__TIB_java_nio_ReadWriteHeapByteBuffer.itable[XMLVM_ITABLE_IDX_java_lang_Comparable_compareTo___java_lang_Object] = __TIB_java_nio_ReadWriteHeapByteBuffer.vtable[19];
__TIB_java_nio_ReadWriteHeapByteBuffer.declaredFields = &__field_reflection_data[0];
__TIB_java_nio_ReadWriteHeapByteBuffer.numDeclaredFields = sizeof(__field_reflection_data) / sizeof(XMLVM_FIELD_REFLECTION_DATA);
__TIB_java_nio_ReadWriteHeapByteBuffer.constructorDispatcherFunc = constructor_dispatcher;
__TIB_java_nio_ReadWriteHeapByteBuffer.declaredConstructors = &__constructor_reflection_data[0];
__TIB_java_nio_ReadWriteHeapByteBuffer.numDeclaredConstructors = sizeof(__constructor_reflection_data) / sizeof(XMLVM_CONSTRUCTOR_REFLECTION_DATA);
__TIB_java_nio_ReadWriteHeapByteBuffer.methodDispatcherFunc = method_dispatcher;
__TIB_java_nio_ReadWriteHeapByteBuffer.declaredMethods = &__method_reflection_data[0];
__TIB_java_nio_ReadWriteHeapByteBuffer.numDeclaredMethods = sizeof(__method_reflection_data) / sizeof(XMLVM_METHOD_REFLECTION_DATA);
__CLASS_java_nio_ReadWriteHeapByteBuffer = XMLVM_CREATE_CLASS_OBJECT(&__TIB_java_nio_ReadWriteHeapByteBuffer);
__TIB_java_nio_ReadWriteHeapByteBuffer.clazz = __CLASS_java_nio_ReadWriteHeapByteBuffer;
__TIB_java_nio_ReadWriteHeapByteBuffer.baseType = JAVA_NULL;
__CLASS_java_nio_ReadWriteHeapByteBuffer_1ARRAY = XMLVM_CREATE_ARRAY_CLASS_OBJECT(__CLASS_java_nio_ReadWriteHeapByteBuffer);
__CLASS_java_nio_ReadWriteHeapByteBuffer_2ARRAY = XMLVM_CREATE_ARRAY_CLASS_OBJECT(__CLASS_java_nio_ReadWriteHeapByteBuffer_1ARRAY);
__CLASS_java_nio_ReadWriteHeapByteBuffer_3ARRAY = XMLVM_CREATE_ARRAY_CLASS_OBJECT(__CLASS_java_nio_ReadWriteHeapByteBuffer_2ARRAY);
//XMLVM_BEGIN_WRAPPER[__INIT_java_nio_ReadWriteHeapByteBuffer]
//XMLVM_END_WRAPPER
__TIB_java_nio_ReadWriteHeapByteBuffer.classInitialized = 1;
}
void __DELETE_java_nio_ReadWriteHeapByteBuffer(void* me, void* client_data)
{
//XMLVM_BEGIN_WRAPPER[__DELETE_java_nio_ReadWriteHeapByteBuffer]
//XMLVM_END_WRAPPER
}
void __INIT_INSTANCE_MEMBERS_java_nio_ReadWriteHeapByteBuffer(JAVA_OBJECT me, int derivedClassWillRegisterFinalizer)
{
__INIT_INSTANCE_MEMBERS_java_nio_HeapByteBuffer(me, 0 || derivedClassWillRegisterFinalizer);
//XMLVM_BEGIN_WRAPPER[__INIT_INSTANCE_MEMBERS_java_nio_ReadWriteHeapByteBuffer]
//XMLVM_END_WRAPPER
}
JAVA_OBJECT __NEW_java_nio_ReadWriteHeapByteBuffer()
{ XMLVM_CLASS_INIT(java_nio_ReadWriteHeapByteBuffer)
java_nio_ReadWriteHeapByteBuffer* me = (java_nio_ReadWriteHeapByteBuffer*) XMLVM_MALLOC(sizeof(java_nio_ReadWriteHeapByteBuffer));
me->tib = &__TIB_java_nio_ReadWriteHeapByteBuffer;
__INIT_INSTANCE_MEMBERS_java_nio_ReadWriteHeapByteBuffer(me, 0);
//XMLVM_BEGIN_WRAPPER[__NEW_java_nio_ReadWriteHeapByteBuffer]
//XMLVM_END_WRAPPER
return me;
}
JAVA_OBJECT __NEW_INSTANCE_java_nio_ReadWriteHeapByteBuffer()
{
JAVA_OBJECT me = JAVA_NULL;
return me;
}
JAVA_OBJECT java_nio_ReadWriteHeapByteBuffer_copy___java_nio_HeapByteBuffer_int(JAVA_OBJECT n1, JAVA_INT n2)
{
XMLVM_CLASS_INIT(java_nio_ReadWriteHeapByteBuffer)
//XMLVM_BEGIN_WRAPPER[java_nio_ReadWriteHeapByteBuffer_copy___java_nio_HeapByteBuffer_int]
XMLVM_ENTER_METHOD("java.nio.ReadWriteHeapByteBuffer", "copy", "?")
XMLVMElem _r0;
XMLVMElem _r1;
XMLVMElem _r2;
XMLVMElem _r3;
XMLVMElem _r4;
XMLVMElem _r5;
_r4.o = n1;
_r5.i = n2;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 33)
_r0.o = __NEW_java_nio_ReadWriteHeapByteBuffer();
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 34)
XMLVM_CHECK_NPE(4)
_r1.o = ((java_nio_HeapByteBuffer*) _r4.o)->fields.java_nio_HeapByteBuffer.backingArray_;
XMLVM_CHECK_NPE(4)
_r2.i = java_nio_Buffer_capacity__(_r4.o);
XMLVM_CHECK_NPE(4)
_r3.i = ((java_nio_HeapByteBuffer*) _r4.o)->fields.java_nio_HeapByteBuffer.offset_;
XMLVM_CHECK_NPE(0)
java_nio_ReadWriteHeapByteBuffer___INIT____byte_1ARRAY_int_int(_r0.o, _r1.o, _r2.i, _r3.i);
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 35)
XMLVM_CHECK_NPE(4)
_r1.i = java_nio_Buffer_limit__(_r4.o);
XMLVM_CHECK_NPE(0)
((java_nio_Buffer*) _r0.o)->fields.java_nio_Buffer.limit_ = _r1.i;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 36)
XMLVM_CHECK_NPE(4)
_r1.i = java_nio_Buffer_position__(_r4.o);
XMLVM_CHECK_NPE(0)
((java_nio_Buffer*) _r0.o)->fields.java_nio_Buffer.position_ = _r1.i;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 37)
XMLVM_CHECK_NPE(0)
((java_nio_Buffer*) _r0.o)->fields.java_nio_Buffer.mark_ = _r5.i;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 38)
XMLVM_CHECK_NPE(4)
_r1.o = java_nio_ByteBuffer_order__(_r4.o);
XMLVM_CHECK_NPE(0)
java_nio_ByteBuffer_order___java_nio_ByteOrder(_r0.o, _r1.o);
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 39)
XMLVM_EXIT_METHOD()
return _r0.o;
//XMLVM_END_WRAPPER
}
void java_nio_ReadWriteHeapByteBuffer___INIT____byte_1ARRAY(JAVA_OBJECT me, JAVA_OBJECT n1)
{
//XMLVM_BEGIN_WRAPPER[java_nio_ReadWriteHeapByteBuffer___INIT____byte_1ARRAY]
XMLVM_ENTER_METHOD("java.nio.ReadWriteHeapByteBuffer", "<init>", "?")
XMLVMElem _r0;
XMLVMElem _r1;
_r0.o = me;
_r1.o = n1;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 43)
XMLVM_CHECK_NPE(0)
java_nio_HeapByteBuffer___INIT____byte_1ARRAY(_r0.o, _r1.o);
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 44)
XMLVM_EXIT_METHOD()
return;
//XMLVM_END_WRAPPER
}
void java_nio_ReadWriteHeapByteBuffer___INIT____int(JAVA_OBJECT me, JAVA_INT n1)
{
//XMLVM_BEGIN_WRAPPER[java_nio_ReadWriteHeapByteBuffer___INIT____int]
XMLVM_ENTER_METHOD("java.nio.ReadWriteHeapByteBuffer", "<init>", "?")
XMLVMElem _r0;
XMLVMElem _r1;
_r0.o = me;
_r1.i = n1;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 47)
XMLVM_CHECK_NPE(0)
java_nio_HeapByteBuffer___INIT____int(_r0.o, _r1.i);
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 48)
XMLVM_EXIT_METHOD()
return;
//XMLVM_END_WRAPPER
}
void java_nio_ReadWriteHeapByteBuffer___INIT____byte_1ARRAY_int_int(JAVA_OBJECT me, JAVA_OBJECT n1, JAVA_INT n2, JAVA_INT n3)
{
//XMLVM_BEGIN_WRAPPER[java_nio_ReadWriteHeapByteBuffer___INIT____byte_1ARRAY_int_int]
XMLVM_ENTER_METHOD("java.nio.ReadWriteHeapByteBuffer", "<init>", "?")
XMLVMElem _r0;
XMLVMElem _r1;
XMLVMElem _r2;
XMLVMElem _r3;
_r0.o = me;
_r1.o = n1;
_r2.i = n2;
_r3.i = n3;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 51)
XMLVM_CHECK_NPE(0)
java_nio_HeapByteBuffer___INIT____byte_1ARRAY_int_int(_r0.o, _r1.o, _r2.i, _r3.i);
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 52)
XMLVM_EXIT_METHOD()
return;
//XMLVM_END_WRAPPER
}
JAVA_OBJECT java_nio_ReadWriteHeapByteBuffer_asReadOnlyBuffer__(JAVA_OBJECT me)
{
//XMLVM_BEGIN_WRAPPER[java_nio_ReadWriteHeapByteBuffer_asReadOnlyBuffer__]
XMLVM_ENTER_METHOD("java.nio.ReadWriteHeapByteBuffer", "asReadOnlyBuffer", "?")
XMLVMElem _r0;
XMLVMElem _r1;
_r1.o = me;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 56)
XMLVM_CHECK_NPE(1)
_r0.i = ((java_nio_Buffer*) _r1.o)->fields.java_nio_Buffer.mark_;
// Red class access removed: java.nio.ReadOnlyHeapByteBuffer::copy
XMLVM_RED_CLASS_DEPENDENCY();
XMLVM_EXIT_METHOD()
return _r0.o;
//XMLVM_END_WRAPPER
}
JAVA_OBJECT java_nio_ReadWriteHeapByteBuffer_compact__(JAVA_OBJECT me)
{
//XMLVM_BEGIN_WRAPPER[java_nio_ReadWriteHeapByteBuffer_compact__]
XMLVM_ENTER_METHOD("java.nio.ReadWriteHeapByteBuffer", "compact", "?")
XMLVMElem _r0;
XMLVMElem _r1;
XMLVMElem _r2;
XMLVMElem _r3;
XMLVMElem _r4;
XMLVMElem _r5;
_r5.o = me;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 61)
XMLVM_CHECK_NPE(5)
_r0.o = ((java_nio_HeapByteBuffer*) _r5.o)->fields.java_nio_HeapByteBuffer.backingArray_;
XMLVM_CHECK_NPE(5)
_r1.i = ((java_nio_Buffer*) _r5.o)->fields.java_nio_Buffer.position_;
XMLVM_CHECK_NPE(5)
_r2.i = ((java_nio_HeapByteBuffer*) _r5.o)->fields.java_nio_HeapByteBuffer.offset_;
_r1.i = _r1.i + _r2.i;
XMLVM_CHECK_NPE(5)
_r2.o = ((java_nio_HeapByteBuffer*) _r5.o)->fields.java_nio_HeapByteBuffer.backingArray_;
XMLVM_CHECK_NPE(5)
_r3.i = ((java_nio_HeapByteBuffer*) _r5.o)->fields.java_nio_HeapByteBuffer.offset_;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 62)
XMLVM_CHECK_NPE(5)
_r4.i = java_nio_Buffer_remaining__(_r5.o);
java_lang_System_arraycopy___java_lang_Object_int_java_lang_Object_int_int(_r0.o, _r1.i, _r2.o, _r3.i, _r4.i);
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 63)
XMLVM_CHECK_NPE(5)
_r0.i = ((java_nio_Buffer*) _r5.o)->fields.java_nio_Buffer.limit_;
XMLVM_CHECK_NPE(5)
_r1.i = ((java_nio_Buffer*) _r5.o)->fields.java_nio_Buffer.position_;
_r0.i = _r0.i - _r1.i;
XMLVM_CHECK_NPE(5)
((java_nio_Buffer*) _r5.o)->fields.java_nio_Buffer.position_ = _r0.i;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 64)
XMLVM_CHECK_NPE(5)
_r0.i = ((java_nio_Buffer*) _r5.o)->fields.java_nio_Buffer.capacity_;
XMLVM_CHECK_NPE(5)
((java_nio_Buffer*) _r5.o)->fields.java_nio_Buffer.limit_ = _r0.i;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 65)
_r0.i = -1;
XMLVM_CHECK_NPE(5)
((java_nio_Buffer*) _r5.o)->fields.java_nio_Buffer.mark_ = _r0.i;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 66)
XMLVM_EXIT_METHOD()
return _r5.o;
//XMLVM_END_WRAPPER
}
JAVA_OBJECT java_nio_ReadWriteHeapByteBuffer_duplicate__(JAVA_OBJECT me)
{
//XMLVM_BEGIN_WRAPPER[java_nio_ReadWriteHeapByteBuffer_duplicate__]
XMLVM_ENTER_METHOD("java.nio.ReadWriteHeapByteBuffer", "duplicate", "?")
XMLVMElem _r0;
XMLVMElem _r1;
_r1.o = me;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 71)
XMLVM_CHECK_NPE(1)
_r0.i = ((java_nio_Buffer*) _r1.o)->fields.java_nio_Buffer.mark_;
_r0.o = java_nio_ReadWriteHeapByteBuffer_copy___java_nio_HeapByteBuffer_int(_r1.o, _r0.i);
XMLVM_EXIT_METHOD()
return _r0.o;
//XMLVM_END_WRAPPER
}
JAVA_BOOLEAN java_nio_ReadWriteHeapByteBuffer_isReadOnly__(JAVA_OBJECT me)
{
//XMLVM_BEGIN_WRAPPER[java_nio_ReadWriteHeapByteBuffer_isReadOnly__]
XMLVM_ENTER_METHOD("java.nio.ReadWriteHeapByteBuffer", "isReadOnly", "?")
XMLVMElem _r0;
XMLVMElem _r1;
_r1.o = me;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 76)
_r0.i = 0;
XMLVM_EXIT_METHOD()
return _r0.i;
//XMLVM_END_WRAPPER
}
JAVA_OBJECT java_nio_ReadWriteHeapByteBuffer_protectedArray__(JAVA_OBJECT me)
{
//XMLVM_BEGIN_WRAPPER[java_nio_ReadWriteHeapByteBuffer_protectedArray__]
XMLVM_ENTER_METHOD("java.nio.ReadWriteHeapByteBuffer", "protectedArray", "?")
XMLVMElem _r0;
XMLVMElem _r1;
_r1.o = me;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 81)
XMLVM_CHECK_NPE(1)
_r0.o = ((java_nio_HeapByteBuffer*) _r1.o)->fields.java_nio_HeapByteBuffer.backingArray_;
XMLVM_EXIT_METHOD()
return _r0.o;
//XMLVM_END_WRAPPER
}
JAVA_INT java_nio_ReadWriteHeapByteBuffer_protectedArrayOffset__(JAVA_OBJECT me)
{
//XMLVM_BEGIN_WRAPPER[java_nio_ReadWriteHeapByteBuffer_protectedArrayOffset__]
XMLVM_ENTER_METHOD("java.nio.ReadWriteHeapByteBuffer", "protectedArrayOffset", "?")
XMLVMElem _r0;
XMLVMElem _r1;
_r1.o = me;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 86)
XMLVM_CHECK_NPE(1)
_r0.i = ((java_nio_HeapByteBuffer*) _r1.o)->fields.java_nio_HeapByteBuffer.offset_;
XMLVM_EXIT_METHOD()
return _r0.i;
//XMLVM_END_WRAPPER
}
JAVA_BOOLEAN java_nio_ReadWriteHeapByteBuffer_protectedHasArray__(JAVA_OBJECT me)
{
//XMLVM_BEGIN_WRAPPER[java_nio_ReadWriteHeapByteBuffer_protectedHasArray__]
XMLVM_ENTER_METHOD("java.nio.ReadWriteHeapByteBuffer", "protectedHasArray", "?")
XMLVMElem _r0;
XMLVMElem _r1;
_r1.o = me;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 91)
_r0.i = 1;
XMLVM_EXIT_METHOD()
return _r0.i;
//XMLVM_END_WRAPPER
}
JAVA_OBJECT java_nio_ReadWriteHeapByteBuffer_put___byte(JAVA_OBJECT me, JAVA_BYTE n1)
{
//XMLVM_BEGIN_WRAPPER[java_nio_ReadWriteHeapByteBuffer_put___byte]
XMLVM_ENTER_METHOD("java.nio.ReadWriteHeapByteBuffer", "put", "?")
XMLVMElem _r0;
XMLVMElem _r1;
XMLVMElem _r2;
XMLVMElem _r3;
XMLVMElem _r4;
XMLVMElem _r5;
_r4.o = me;
_r5.i = n1;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 96)
XMLVM_CHECK_NPE(4)
_r0.i = ((java_nio_Buffer*) _r4.o)->fields.java_nio_Buffer.position_;
XMLVM_CHECK_NPE(4)
_r1.i = ((java_nio_Buffer*) _r4.o)->fields.java_nio_Buffer.limit_;
if (_r0.i != _r1.i) goto label12;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 97)
// Red class access removed: java.nio.BufferOverflowException::new-instance
XMLVM_RED_CLASS_DEPENDENCY();
// Red class access removed: java.nio.BufferOverflowException::<init>
XMLVM_RED_CLASS_DEPENDENCY();
XMLVM_THROW_CUSTOM(_r0.o)
label12:;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 99)
XMLVM_CHECK_NPE(4)
_r0.o = ((java_nio_HeapByteBuffer*) _r4.o)->fields.java_nio_HeapByteBuffer.backingArray_;
XMLVM_CHECK_NPE(4)
_r1.i = ((java_nio_HeapByteBuffer*) _r4.o)->fields.java_nio_HeapByteBuffer.offset_;
XMLVM_CHECK_NPE(4)
_r2.i = ((java_nio_Buffer*) _r4.o)->fields.java_nio_Buffer.position_;
_r3.i = _r2.i + 1;
XMLVM_CHECK_NPE(4)
((java_nio_Buffer*) _r4.o)->fields.java_nio_Buffer.position_ = _r3.i;
_r1.i = _r1.i + _r2.i;
XMLVM_CHECK_NPE(0)
XMLVM_CHECK_ARRAY_BOUNDS(_r0.o, _r1.i);
((JAVA_ARRAY_BYTE*) (((org_xmlvm_runtime_XMLVMArray*) _r0.o)->fields.org_xmlvm_runtime_XMLVMArray.array_))[_r1.i] = _r5.i;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 100)
XMLVM_EXIT_METHOD()
return _r4.o;
//XMLVM_END_WRAPPER
}
JAVA_OBJECT java_nio_ReadWriteHeapByteBuffer_put___int_byte(JAVA_OBJECT me, JAVA_INT n1, JAVA_BYTE n2)
{
//XMLVM_BEGIN_WRAPPER[java_nio_ReadWriteHeapByteBuffer_put___int_byte]
XMLVM_ENTER_METHOD("java.nio.ReadWriteHeapByteBuffer", "put", "?")
XMLVMElem _r0;
XMLVMElem _r1;
XMLVMElem _r2;
XMLVMElem _r3;
XMLVMElem _r4;
_r2.o = me;
_r3.i = n1;
_r4.i = n2;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 105)
if (_r3.i < 0) goto label6;
XMLVM_CHECK_NPE(2)
_r0.i = ((java_nio_Buffer*) _r2.o)->fields.java_nio_Buffer.limit_;
if (_r3.i < _r0.i) goto label12;
label6:;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 106)
_r0.o = __NEW_java_lang_IndexOutOfBoundsException();
XMLVM_CHECK_NPE(0)
java_lang_IndexOutOfBoundsException___INIT___(_r0.o);
XMLVM_THROW_CUSTOM(_r0.o)
label12:;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 108)
XMLVM_CHECK_NPE(2)
_r0.o = ((java_nio_HeapByteBuffer*) _r2.o)->fields.java_nio_HeapByteBuffer.backingArray_;
XMLVM_CHECK_NPE(2)
_r1.i = ((java_nio_HeapByteBuffer*) _r2.o)->fields.java_nio_HeapByteBuffer.offset_;
_r1.i = _r1.i + _r3.i;
XMLVM_CHECK_NPE(0)
XMLVM_CHECK_ARRAY_BOUNDS(_r0.o, _r1.i);
((JAVA_ARRAY_BYTE*) (((org_xmlvm_runtime_XMLVMArray*) _r0.o)->fields.org_xmlvm_runtime_XMLVMArray.array_))[_r1.i] = _r4.i;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 109)
XMLVM_EXIT_METHOD()
return _r2.o;
//XMLVM_END_WRAPPER
}
JAVA_OBJECT java_nio_ReadWriteHeapByteBuffer_put___byte_1ARRAY_int_int(JAVA_OBJECT me, JAVA_OBJECT n1, JAVA_INT n2, JAVA_INT n3)
{
//XMLVM_BEGIN_WRAPPER[java_nio_ReadWriteHeapByteBuffer_put___byte_1ARRAY_int_int]
XMLVM_ENTER_METHOD("java.nio.ReadWriteHeapByteBuffer", "put", "?")
XMLVMElem _r0;
XMLVMElem _r1;
XMLVMElem _r2;
XMLVMElem _r3;
XMLVMElem _r4;
XMLVMElem _r5;
XMLVMElem _r6;
XMLVMElem _r7;
_r4.o = me;
_r5.o = n1;
_r6.i = n2;
_r7.i = n3;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 121)
if (_r6.i < 0) goto label13;
if (_r7.i < 0) goto label13;
_r0.l = (JAVA_LONG) _r6.i;
_r2.l = (JAVA_LONG) _r7.i;
_r0.l = _r0.l + _r2.l;
_r2.i = XMLVMArray_count(((org_xmlvm_runtime_XMLVMArray*) _r5.o));
_r2.l = (JAVA_LONG) _r2.i;
_r0.i = _r0.l > _r2.l ? 1 : (_r0.l == _r2.l ? 0 : -1);
if (_r0.i <= 0) goto label19;
label13:;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 122)
_r0.o = __NEW_java_lang_IndexOutOfBoundsException();
XMLVM_CHECK_NPE(0)
java_lang_IndexOutOfBoundsException___INIT___(_r0.o);
XMLVM_THROW_CUSTOM(_r0.o)
label19:;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 124)
XMLVM_CHECK_NPE(4)
_r0.i = java_nio_Buffer_remaining__(_r4.o);
if (_r7.i <= _r0.i) goto label31;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 125)
// Red class access removed: java.nio.BufferOverflowException::new-instance
XMLVM_RED_CLASS_DEPENDENCY();
// Red class access removed: java.nio.BufferOverflowException::<init>
XMLVM_RED_CLASS_DEPENDENCY();
XMLVM_THROW_CUSTOM(_r0.o)
label31:;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 127)
//java_nio_ReadWriteHeapByteBuffer_isReadOnly__[10]
XMLVM_CHECK_NPE(4)
_r0.i = (*(JAVA_BOOLEAN (*)(JAVA_OBJECT)) ((java_nio_ReadWriteHeapByteBuffer*) _r4.o)->tib->vtable[10])(_r4.o);
if (_r0.i == 0) goto label43;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 128)
// Red class access removed: java.nio.ReadOnlyBufferException::new-instance
XMLVM_RED_CLASS_DEPENDENCY();
// Red class access removed: java.nio.ReadOnlyBufferException::<init>
XMLVM_RED_CLASS_DEPENDENCY();
XMLVM_THROW_CUSTOM(_r0.o)
label43:;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 130)
XMLVM_CHECK_NPE(4)
_r0.o = ((java_nio_HeapByteBuffer*) _r4.o)->fields.java_nio_HeapByteBuffer.backingArray_;
XMLVM_CHECK_NPE(4)
_r1.i = ((java_nio_HeapByteBuffer*) _r4.o)->fields.java_nio_HeapByteBuffer.offset_;
XMLVM_CHECK_NPE(4)
_r2.i = ((java_nio_Buffer*) _r4.o)->fields.java_nio_Buffer.position_;
_r1.i = _r1.i + _r2.i;
java_lang_System_arraycopy___java_lang_Object_int_java_lang_Object_int_int(_r5.o, _r6.i, _r0.o, _r1.i, _r7.i);
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 131)
XMLVM_CHECK_NPE(4)
_r0.i = ((java_nio_Buffer*) _r4.o)->fields.java_nio_Buffer.position_;
_r0.i = _r0.i + _r7.i;
XMLVM_CHECK_NPE(4)
((java_nio_Buffer*) _r4.o)->fields.java_nio_Buffer.position_ = _r0.i;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 132)
XMLVM_EXIT_METHOD()
return _r4.o;
//XMLVM_END_WRAPPER
}
JAVA_OBJECT java_nio_ReadWriteHeapByteBuffer_putDouble___double(JAVA_OBJECT me, JAVA_DOUBLE n1)
{
//XMLVM_BEGIN_WRAPPER[java_nio_ReadWriteHeapByteBuffer_putDouble___double]
XMLVM_ENTER_METHOD("java.nio.ReadWriteHeapByteBuffer", "putDouble", "?")
XMLVMElem _r0;
XMLVMElem _r1;
XMLVMElem _r2;
XMLVMElem _r3;
XMLVMElem _r4;
_r2.o = me;
_r3.d = n1;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 137)
_r0.l = java_lang_Double_doubleToRawLongBits___double(_r3.d);
//java_nio_ReadWriteHeapByteBuffer_putLong___long[48]
XMLVM_CHECK_NPE(2)
_r0.o = (*(JAVA_OBJECT (*)(JAVA_OBJECT, JAVA_LONG)) ((java_nio_ReadWriteHeapByteBuffer*) _r2.o)->tib->vtable[48])(_r2.o, _r0.l);
XMLVM_EXIT_METHOD()
return _r0.o;
//XMLVM_END_WRAPPER
}
JAVA_OBJECT java_nio_ReadWriteHeapByteBuffer_putDouble___int_double(JAVA_OBJECT me, JAVA_INT n1, JAVA_DOUBLE n2)
{
//XMLVM_BEGIN_WRAPPER[java_nio_ReadWriteHeapByteBuffer_putDouble___int_double]
XMLVM_ENTER_METHOD("java.nio.ReadWriteHeapByteBuffer", "putDouble", "?")
XMLVMElem _r0;
XMLVMElem _r1;
XMLVMElem _r2;
XMLVMElem _r3;
XMLVMElem _r4;
XMLVMElem _r5;
_r2.o = me;
_r3.i = n1;
_r4.d = n2;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 142)
_r0.l = java_lang_Double_doubleToRawLongBits___double(_r4.d);
//java_nio_ReadWriteHeapByteBuffer_putLong___int_long[47]
XMLVM_CHECK_NPE(2)
_r0.o = (*(JAVA_OBJECT (*)(JAVA_OBJECT, JAVA_INT, JAVA_LONG)) ((java_nio_ReadWriteHeapByteBuffer*) _r2.o)->tib->vtable[47])(_r2.o, _r3.i, _r0.l);
XMLVM_EXIT_METHOD()
return _r0.o;
//XMLVM_END_WRAPPER
}
JAVA_OBJECT java_nio_ReadWriteHeapByteBuffer_putFloat___float(JAVA_OBJECT me, JAVA_FLOAT n1)
{
//XMLVM_BEGIN_WRAPPER[java_nio_ReadWriteHeapByteBuffer_putFloat___float]
XMLVM_ENTER_METHOD("java.nio.ReadWriteHeapByteBuffer", "putFloat", "?")
XMLVMElem _r0;
XMLVMElem _r1;
XMLVMElem _r2;
_r1.o = me;
_r2.f = n1;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 147)
_r0.i = java_lang_Float_floatToIntBits___float(_r2.f);
//java_nio_ReadWriteHeapByteBuffer_putInt___int[45]
XMLVM_CHECK_NPE(1)
_r0.o = (*(JAVA_OBJECT (*)(JAVA_OBJECT, JAVA_INT)) ((java_nio_ReadWriteHeapByteBuffer*) _r1.o)->tib->vtable[45])(_r1.o, _r0.i);
XMLVM_EXIT_METHOD()
return _r0.o;
//XMLVM_END_WRAPPER
}
JAVA_OBJECT java_nio_ReadWriteHeapByteBuffer_putFloat___int_float(JAVA_OBJECT me, JAVA_INT n1, JAVA_FLOAT n2)
{
//XMLVM_BEGIN_WRAPPER[java_nio_ReadWriteHeapByteBuffer_putFloat___int_float]
XMLVM_ENTER_METHOD("java.nio.ReadWriteHeapByteBuffer", "putFloat", "?")
XMLVMElem _r0;
XMLVMElem _r1;
XMLVMElem _r2;
XMLVMElem _r3;
_r1.o = me;
_r2.i = n1;
_r3.f = n2;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 152)
_r0.i = java_lang_Float_floatToIntBits___float(_r3.f);
//java_nio_ReadWriteHeapByteBuffer_putInt___int_int[46]
XMLVM_CHECK_NPE(1)
_r0.o = (*(JAVA_OBJECT (*)(JAVA_OBJECT, JAVA_INT, JAVA_INT)) ((java_nio_ReadWriteHeapByteBuffer*) _r1.o)->tib->vtable[46])(_r1.o, _r2.i, _r0.i);
XMLVM_EXIT_METHOD()
return _r0.o;
//XMLVM_END_WRAPPER
}
JAVA_OBJECT java_nio_ReadWriteHeapByteBuffer_putInt___int(JAVA_OBJECT me, JAVA_INT n1)
{
//XMLVM_BEGIN_WRAPPER[java_nio_ReadWriteHeapByteBuffer_putInt___int]
XMLVM_ENTER_METHOD("java.nio.ReadWriteHeapByteBuffer", "putInt", "?")
XMLVMElem _r0;
XMLVMElem _r1;
XMLVMElem _r2;
XMLVMElem _r3;
_r2.o = me;
_r3.i = n1;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 157)
XMLVM_CHECK_NPE(2)
_r0.i = ((java_nio_Buffer*) _r2.o)->fields.java_nio_Buffer.position_;
_r0.i = _r0.i + 4;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 158)
XMLVM_CHECK_NPE(2)
_r1.i = ((java_nio_Buffer*) _r2.o)->fields.java_nio_Buffer.limit_;
if (_r0.i <= _r1.i) goto label14;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 159)
// Red class access removed: java.nio.BufferOverflowException::new-instance
XMLVM_RED_CLASS_DEPENDENCY();
// Red class access removed: java.nio.BufferOverflowException::<init>
XMLVM_RED_CLASS_DEPENDENCY();
XMLVM_THROW_CUSTOM(_r0.o)
label14:;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 161)
XMLVM_CHECK_NPE(2)
_r1.i = ((java_nio_Buffer*) _r2.o)->fields.java_nio_Buffer.position_;
XMLVM_CHECK_NPE(2)
java_nio_HeapByteBuffer_store___int_int(_r2.o, _r1.i, _r3.i);
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 162)
XMLVM_CHECK_NPE(2)
((java_nio_Buffer*) _r2.o)->fields.java_nio_Buffer.position_ = _r0.i;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 163)
XMLVM_EXIT_METHOD()
return _r2.o;
//XMLVM_END_WRAPPER
}
JAVA_OBJECT java_nio_ReadWriteHeapByteBuffer_putInt___int_int(JAVA_OBJECT me, JAVA_INT n1, JAVA_INT n2)
{
//XMLVM_BEGIN_WRAPPER[java_nio_ReadWriteHeapByteBuffer_putInt___int_int]
XMLVM_ENTER_METHOD("java.nio.ReadWriteHeapByteBuffer", "putInt", "?")
XMLVMElem _r0;
XMLVMElem _r1;
XMLVMElem _r2;
XMLVMElem _r3;
XMLVMElem _r4;
XMLVMElem _r5;
XMLVMElem _r6;
_r4.o = me;
_r5.i = n1;
_r6.i = n2;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 168)
if (_r5.i < 0) goto label13;
_r0.l = (JAVA_LONG) _r5.i;
_r2.l = 4;
_r0.l = _r0.l + _r2.l;
XMLVM_CHECK_NPE(4)
_r2.i = ((java_nio_Buffer*) _r4.o)->fields.java_nio_Buffer.limit_;
_r2.l = (JAVA_LONG) _r2.i;
_r0.i = _r0.l > _r2.l ? 1 : (_r0.l == _r2.l ? 0 : -1);
if (_r0.i <= 0) goto label19;
label13:;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 169)
_r0.o = __NEW_java_lang_IndexOutOfBoundsException();
XMLVM_CHECK_NPE(0)
java_lang_IndexOutOfBoundsException___INIT___(_r0.o);
XMLVM_THROW_CUSTOM(_r0.o)
label19:;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 171)
XMLVM_CHECK_NPE(4)
java_nio_HeapByteBuffer_store___int_int(_r4.o, _r5.i, _r6.i);
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 172)
XMLVM_EXIT_METHOD()
return _r4.o;
//XMLVM_END_WRAPPER
}
JAVA_OBJECT java_nio_ReadWriteHeapByteBuffer_putLong___int_long(JAVA_OBJECT me, JAVA_INT n1, JAVA_LONG n2)
{
//XMLVM_BEGIN_WRAPPER[java_nio_ReadWriteHeapByteBuffer_putLong___int_long]
XMLVM_ENTER_METHOD("java.nio.ReadWriteHeapByteBuffer", "putLong", "?")
XMLVMElem _r0;
XMLVMElem _r1;
XMLVMElem _r2;
XMLVMElem _r3;
XMLVMElem _r4;
XMLVMElem _r5;
XMLVMElem _r6;
XMLVMElem _r7;
_r4.o = me;
_r5.i = n1;
_r6.l = n2;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 177)
if (_r5.i < 0) goto label13;
_r0.l = (JAVA_LONG) _r5.i;
_r2.l = 8;
_r0.l = _r0.l + _r2.l;
XMLVM_CHECK_NPE(4)
_r2.i = ((java_nio_Buffer*) _r4.o)->fields.java_nio_Buffer.limit_;
_r2.l = (JAVA_LONG) _r2.i;
_r0.i = _r0.l > _r2.l ? 1 : (_r0.l == _r2.l ? 0 : -1);
if (_r0.i <= 0) goto label19;
label13:;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 178)
_r0.o = __NEW_java_lang_IndexOutOfBoundsException();
XMLVM_CHECK_NPE(0)
java_lang_IndexOutOfBoundsException___INIT___(_r0.o);
XMLVM_THROW_CUSTOM(_r0.o)
label19:;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 180)
XMLVM_CHECK_NPE(4)
java_nio_HeapByteBuffer_store___int_long(_r4.o, _r5.i, _r6.l);
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 181)
XMLVM_EXIT_METHOD()
return _r4.o;
//XMLVM_END_WRAPPER
}
JAVA_OBJECT java_nio_ReadWriteHeapByteBuffer_putLong___long(JAVA_OBJECT me, JAVA_LONG n1)
{
//XMLVM_BEGIN_WRAPPER[java_nio_ReadWriteHeapByteBuffer_putLong___long]
XMLVM_ENTER_METHOD("java.nio.ReadWriteHeapByteBuffer", "putLong", "?")
XMLVMElem _r0;
XMLVMElem _r1;
XMLVMElem _r2;
XMLVMElem _r3;
XMLVMElem _r4;
_r2.o = me;
_r3.l = n1;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 186)
XMLVM_CHECK_NPE(2)
_r0.i = ((java_nio_Buffer*) _r2.o)->fields.java_nio_Buffer.position_;
_r0.i = _r0.i + 8;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 187)
XMLVM_CHECK_NPE(2)
_r1.i = ((java_nio_Buffer*) _r2.o)->fields.java_nio_Buffer.limit_;
if (_r0.i <= _r1.i) goto label14;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 188)
// Red class access removed: java.nio.BufferOverflowException::new-instance
XMLVM_RED_CLASS_DEPENDENCY();
// Red class access removed: java.nio.BufferOverflowException::<init>
XMLVM_RED_CLASS_DEPENDENCY();
XMLVM_THROW_CUSTOM(_r0.o)
label14:;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 190)
XMLVM_CHECK_NPE(2)
_r1.i = ((java_nio_Buffer*) _r2.o)->fields.java_nio_Buffer.position_;
XMLVM_CHECK_NPE(2)
java_nio_HeapByteBuffer_store___int_long(_r2.o, _r1.i, _r3.l);
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 191)
XMLVM_CHECK_NPE(2)
((java_nio_Buffer*) _r2.o)->fields.java_nio_Buffer.position_ = _r0.i;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 192)
XMLVM_EXIT_METHOD()
return _r2.o;
//XMLVM_END_WRAPPER
}
JAVA_OBJECT java_nio_ReadWriteHeapByteBuffer_putShort___int_short(JAVA_OBJECT me, JAVA_INT n1, JAVA_SHORT n2)
{
//XMLVM_BEGIN_WRAPPER[java_nio_ReadWriteHeapByteBuffer_putShort___int_short]
XMLVM_ENTER_METHOD("java.nio.ReadWriteHeapByteBuffer", "putShort", "?")
XMLVMElem _r0;
XMLVMElem _r1;
XMLVMElem _r2;
XMLVMElem _r3;
XMLVMElem _r4;
XMLVMElem _r5;
XMLVMElem _r6;
_r4.o = me;
_r5.i = n1;
_r6.i = n2;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 197)
if (_r5.i < 0) goto label13;
_r0.l = (JAVA_LONG) _r5.i;
_r2.l = 2;
_r0.l = _r0.l + _r2.l;
XMLVM_CHECK_NPE(4)
_r2.i = ((java_nio_Buffer*) _r4.o)->fields.java_nio_Buffer.limit_;
_r2.l = (JAVA_LONG) _r2.i;
_r0.i = _r0.l > _r2.l ? 1 : (_r0.l == _r2.l ? 0 : -1);
if (_r0.i <= 0) goto label19;
label13:;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 198)
_r0.o = __NEW_java_lang_IndexOutOfBoundsException();
XMLVM_CHECK_NPE(0)
java_lang_IndexOutOfBoundsException___INIT___(_r0.o);
XMLVM_THROW_CUSTOM(_r0.o)
label19:;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 200)
XMLVM_CHECK_NPE(4)
java_nio_HeapByteBuffer_store___int_short(_r4.o, _r5.i, _r6.i);
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 201)
XMLVM_EXIT_METHOD()
return _r4.o;
//XMLVM_END_WRAPPER
}
JAVA_OBJECT java_nio_ReadWriteHeapByteBuffer_putShort___short(JAVA_OBJECT me, JAVA_SHORT n1)
{
//XMLVM_BEGIN_WRAPPER[java_nio_ReadWriteHeapByteBuffer_putShort___short]
XMLVM_ENTER_METHOD("java.nio.ReadWriteHeapByteBuffer", "putShort", "?")
XMLVMElem _r0;
XMLVMElem _r1;
XMLVMElem _r2;
XMLVMElem _r3;
_r2.o = me;
_r3.i = n1;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 206)
XMLVM_CHECK_NPE(2)
_r0.i = ((java_nio_Buffer*) _r2.o)->fields.java_nio_Buffer.position_;
_r0.i = _r0.i + 2;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 207)
XMLVM_CHECK_NPE(2)
_r1.i = ((java_nio_Buffer*) _r2.o)->fields.java_nio_Buffer.limit_;
if (_r0.i <= _r1.i) goto label14;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 208)
// Red class access removed: java.nio.BufferOverflowException::new-instance
XMLVM_RED_CLASS_DEPENDENCY();
// Red class access removed: java.nio.BufferOverflowException::<init>
XMLVM_RED_CLASS_DEPENDENCY();
XMLVM_THROW_CUSTOM(_r0.o)
label14:;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 210)
XMLVM_CHECK_NPE(2)
_r1.i = ((java_nio_Buffer*) _r2.o)->fields.java_nio_Buffer.position_;
XMLVM_CHECK_NPE(2)
java_nio_HeapByteBuffer_store___int_short(_r2.o, _r1.i, _r3.i);
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 211)
XMLVM_CHECK_NPE(2)
((java_nio_Buffer*) _r2.o)->fields.java_nio_Buffer.position_ = _r0.i;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 212)
XMLVM_EXIT_METHOD()
return _r2.o;
//XMLVM_END_WRAPPER
}
JAVA_OBJECT java_nio_ReadWriteHeapByteBuffer_slice__(JAVA_OBJECT me)
{
//XMLVM_BEGIN_WRAPPER[java_nio_ReadWriteHeapByteBuffer_slice__]
XMLVM_ENTER_METHOD("java.nio.ReadWriteHeapByteBuffer", "slice", "?")
XMLVMElem _r0;
XMLVMElem _r1;
XMLVMElem _r2;
XMLVMElem _r3;
XMLVMElem _r4;
XMLVMElem _r5;
_r5.o = me;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 217)
_r0.o = __NEW_java_nio_ReadWriteHeapByteBuffer();
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 218)
XMLVM_CHECK_NPE(5)
_r1.o = ((java_nio_HeapByteBuffer*) _r5.o)->fields.java_nio_HeapByteBuffer.backingArray_;
XMLVM_CHECK_NPE(5)
_r2.i = java_nio_Buffer_remaining__(_r5.o);
XMLVM_CHECK_NPE(5)
_r3.i = ((java_nio_HeapByteBuffer*) _r5.o)->fields.java_nio_HeapByteBuffer.offset_;
XMLVM_CHECK_NPE(5)
_r4.i = ((java_nio_Buffer*) _r5.o)->fields.java_nio_Buffer.position_;
_r3.i = _r3.i + _r4.i;
XMLVM_CHECK_NPE(0)
java_nio_ReadWriteHeapByteBuffer___INIT____byte_1ARRAY_int_int(_r0.o, _r1.o, _r2.i, _r3.i);
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 219)
XMLVM_CHECK_NPE(5)
_r1.o = ((java_nio_ByteBuffer*) _r5.o)->fields.java_nio_ByteBuffer.order_;
XMLVM_CHECK_NPE(0)
((java_nio_ByteBuffer*) _r0.o)->fields.java_nio_ByteBuffer.order_ = _r1.o;
XMLVM_SOURCE_POSITION("ReadWriteHeapByteBuffer.java", 220)
XMLVM_EXIT_METHOD()
return _r0.o;
//XMLVM_END_WRAPPER
}
Server : Apache/2.4.41 (Ubuntu)