forked from LeenkxTeam/LNXSDK
1293 lines
40 KiB
C++
1293 lines
40 KiB
C++
#ifndef HX_ARRAY_H
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#define HX_ARRAY_H
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#include <cpp/FastIterator.h>
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// --- hx::ReturnNull ------------------------------------------------------
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//
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// Provides an "Null<Object>" of given type. For types that can't actually be null, Dynamic is used.
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namespace hx
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{
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enum ArrayStore
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{
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arrayNull = 0,
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arrayEmpty,
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arrayFixed,
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arrayBool,
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arrayInt,
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arrayFloat,
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arrayString,
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arrayObject,
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arrayInt64
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};
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enum ArrayConvertId
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{
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aciAlwaysConvert = -4,
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aciVirtualArray = -3,
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aciStringArray = -2,
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aciObjectArray = -1,
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aciNotArray = 0,
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aciPodBase = 1,
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};
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template<typename T>
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struct ReturnNull { typedef T type; };
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template<> struct ReturnNull<int> { typedef Dynamic type; };
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template<> struct ReturnNull<double> { typedef Dynamic type; };
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template<> struct ReturnNull<float> { typedef Dynamic type; };
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template<> struct ReturnNull<bool> { typedef Dynamic type; };
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template<> struct ReturnNull<char> { typedef Dynamic type; };
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template<> struct ReturnNull<signed char> { typedef Dynamic type; };
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template<> struct ReturnNull<unsigned char> { typedef Dynamic type; };
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template<> struct ReturnNull<short> { typedef Dynamic type; };
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template<> struct ReturnNull<unsigned short> { typedef Dynamic type; };
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template<> struct ReturnNull<unsigned int> { typedef Dynamic type; };
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template<> struct ReturnNull< ::cpp::Int64> { typedef Dynamic type; };
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template<typename T>
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struct ArrayTraits { enum { StoreType = arrayObject }; };
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template<> struct ArrayTraits<int> { enum { StoreType = arrayInt }; };
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template<> struct ArrayTraits<float> { enum { StoreType = arrayFloat}; };
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template<> struct ArrayTraits<double> { enum { StoreType = arrayFloat}; };
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template<> struct ArrayTraits<Dynamic> { enum { StoreType = arrayObject }; };
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template<> struct ArrayTraits<String> { enum { StoreType = arrayString }; };
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template<> struct ArrayTraits< ::cpp::Int64> { enum { StoreType = arrayInt64 }; };
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}
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namespace hx
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{
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// --- ArrayIterator -------------------------------------------
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//
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// An object that conforms to the standard iterator interface for arrays
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template<typename FROM,typename TO>
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class ArrayIterator : public cpp::FastIterator_obj<TO>
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{
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public:
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HX_IS_INSTANCE_OF enum { _hx_ClassId = hx::clsIdArrayIterator };
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ArrayIterator(Array<FROM> inArray) : mArray(inArray), mIdx(0) { }
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// Fast versions ...
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bool hasNext() { return mIdx < mArray->length; }
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inline TO toTo(const Dynamic &inD) { return inD.StaticCast<TO>(); }
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template<typename T>
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inline TO toTo(T inT) { return inT; }
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TO next() { return toTo(mArray->__get(mIdx++)); }
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void __Mark(hx::MarkContext *__inCtx) { HX_MARK_MEMBER_NAME(mArray,"mArray"); }
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#ifdef HXCPP_VISIT_ALLOCS
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void __Visit(hx::VisitContext *__inCtx) { HX_VISIT_MEMBER_NAME(mArray,"mArray"); }
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#endif
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int mIdx;
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Array<FROM> mArray;
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};
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// --- ArrayKeyValueIterator -------------------------------------------
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template<typename FROM,typename TO>
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class ArrayKeyValueIterator : public cpp::FastIterator_obj<Dynamic>
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{
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public:
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HX_IS_INSTANCE_OF enum { _hx_ClassId = hx::clsIdArrayIterator };
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ArrayKeyValueIterator(Array<FROM> inArray) : mArray(inArray), mIdx(0) { }
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bool hasNext() { return mIdx < mArray->length; }
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inline TO toTo(const Dynamic &inD) { return inD.StaticCast<TO>(); }
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template<typename T>
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inline TO toTo(T inT) { return inT; }
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Dynamic next();
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void __Mark(hx::MarkContext *__inCtx) { HX_MARK_MEMBER_NAME(mArray,"mArray"); }
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#ifdef HXCPP_VISIT_ALLOCS
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void __Visit(hx::VisitContext *__inCtx) { HX_VISIT_MEMBER_NAME(mArray,"mArray"); }
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#endif
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int mIdx;
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Array<FROM> mArray;
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};
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}
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namespace hx
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{
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// Also used by cpp::VirtualArray
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class HXCPP_EXTERN_CLASS_ATTRIBUTES ArrayCommon : public hx::Object
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{
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protected:
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int mArrayConvertId;
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public:
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// Plain old data element size - or 0 if not plain-old-data
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int getArrayConvertId() const { return mArrayConvertId; }
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#if (HXCPP_API_LEVEL>330)
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virtual hx::Object *__GetRealObject() { return this; }
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#endif
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};
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// --- hx::ArrayBase ----------------------------------------------------
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//
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// Base class that treats array contents as a slab of bytes.
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// The derived "Array_obj" adds strong typing to the "[]" operator
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class HXCPP_EXTERN_CLASS_ATTRIBUTES ArrayBase : public ArrayCommon
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{
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public:
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ArrayBase(int inSize,int inReserve,int inElementSize,bool inAtomic);
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// Defined later so we can use "Array"
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static Array<Dynamic> __new(int inSize=0,int inReserve=0);
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static void __boot();
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typedef hx::Object super;
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HX_IS_INSTANCE_OF enum { _hx_ClassId = hx::clsIdArrayBase };
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// Used by cpp.ArrayBase
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inline int getElementSize() const { return GetElementSize(); }
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inline int getByteCount() const { return GetElementSize()*length; }
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inline char * getBase() const { return mBase; }
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hx::Val __SetField(const String &inString,const hx::Val &inValue ,hx::PropertyAccess inCallProp) { return null(); }
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static hx::Class __mClass;
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static hx::Class &__SGetClass() { return __mClass; }
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hx::Class __GetClass() const { return __mClass; }
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String toString();
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String __ToString() const;
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#if (HXCPP_API_LEVEL>330)
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int __Compare(const hx::Object *inRHS) const;
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#endif
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void setData(void *inData, int inElements)
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{
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mBase = (char *)inData;
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length = inElements;
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mAlloc = inElements;
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HX_OBJ_WB_PESSIMISTIC_GET(this);
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}
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void setUnmanagedData(void *inData, int inElements)
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{
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mBase = (char *)inData;
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length = inElements;
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mAlloc = -1;
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}
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int __GetType() const { return vtArray; }
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inline size_t size() const { return length; }
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inline int __length() const { return (int)length; }
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virtual String ItemString(int inI) = 0;
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const char * __CStr() const { return mBase; }
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inline const char *GetBase() const { return mBase; }
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inline char *GetBase() { return mBase; }
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virtual int GetElementSize() const = 0;
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inline void resize(int inSize)
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{
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if (inSize<length)
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{
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int s = GetElementSize();
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memset(mBase + inSize*s, 0, (length-inSize)*s);
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length = inSize;
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}
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else if (inSize>length)
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{
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EnsureSize(inSize);
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length = inSize;
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}
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}
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inline void __SetSize(int inLen) { resize(inLen); }
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void __SetSizeExact(int inLen=0);
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Dynamic __unsafe_get(const Dynamic &i);
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Dynamic __unsafe_set(const Dynamic &i, const Dynamic &val);
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void safeSort(Dynamic sorter, bool isString);
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inline void __unsafeStringReference(String inString)
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{
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mBase = (char *)inString.raw_ptr();
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length = inString.length / GetElementSize();
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mAlloc = length;
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HX_OBJ_WB_PESSIMISTIC_GET(this);
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}
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virtual hx::ArrayStore getStoreType() const = 0;
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// Dynamic interface
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hx::Val __Field(const String &inString ,hx::PropertyAccess inCallProp);
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#if (HXCPP_API_LEVEL < 330)
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virtual Dynamic __concat(const Dynamic &a0) = 0;
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virtual Dynamic __copy() = 0;
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virtual Dynamic __insert(const Dynamic &a0,const Dynamic &a1) = 0;
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virtual Dynamic __iterator() = 0;
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virtual Dynamic __keyValueIterator() = 0;
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virtual Dynamic __join(const Dynamic &a0) = 0;
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virtual Dynamic __pop() = 0;
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virtual Dynamic __push(const Dynamic &a0) = 0;
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virtual Dynamic __remove(const Dynamic &a0) = 0;
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virtual Dynamic __removeAt(const Dynamic &a0) = 0;
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virtual Dynamic __indexOf(const Dynamic &a0,const Dynamic &a1) = 0;
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virtual Dynamic __lastIndexOf(const Dynamic &a0,const Dynamic &a1) = 0;
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virtual Dynamic __reverse() = 0;
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virtual Dynamic __shift() = 0;
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virtual Dynamic __slice(const Dynamic &a0,const Dynamic &a1) = 0;
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virtual Dynamic __splice(const Dynamic &a0,const Dynamic &a1) =0;
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virtual Dynamic __sort(const Dynamic &a0) = 0;
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virtual Dynamic __toString() = 0;
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virtual Dynamic __unshift(const Dynamic &a0) = 0;
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virtual Dynamic __map(const Dynamic &func) = 0;
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virtual Dynamic __filter(const Dynamic &func) = 0;
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inline Dynamic ____SetSize(const Dynamic &len) { resize(len); return this; }
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inline Dynamic ____SetSizeExact(const Dynamic &len) { __SetSizeExact(len); return this; }
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inline Dynamic ____unsafe_set(const Dynamic &i, const Dynamic &val) { return __SetItem(i,val); }
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inline Dynamic ____unsafe_get(const Dynamic &i) { return __GetItem(i); }
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virtual Dynamic __blit(const Dynamic &a0,const Dynamic &a1,const Dynamic &a2,const Dynamic &a3) = 0;
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inline Dynamic __zero(const Dynamic &a0,const Dynamic &a1) { zero(a0,a1); return null(); }
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virtual Dynamic __memcmp(const Dynamic &a0) = 0;
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virtual void __qsort(Dynamic inCompare) = 0;
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virtual Dynamic __resize(const Dynamic &a0) = 0;
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#else
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inline void ____SetSize(int len) { resize(len); }
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inline void ____SetSizeExact(int len) { __SetSizeExact(len); }
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inline Dynamic ____unsafe_set(const Dynamic &i, const Dynamic &val) { return __SetItem(i,val); }
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inline Dynamic ____unsafe_get(const Dynamic &i) { return __GetItem(i); }
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virtual hx::ArrayBase *__concat(const cpp::VirtualArray &a0) = 0;
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virtual hx::ArrayBase *__copy() = 0;
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virtual void __insert(int inIndex,const Dynamic &a1) = 0;
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virtual Dynamic __iterator() = 0;
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virtual Dynamic __keyValueIterator() = 0;
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virtual ::String __join(::String a0) = 0;
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virtual Dynamic __pop() = 0;
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virtual int __push(const Dynamic &a0) = 0;
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virtual bool __contains(const Dynamic &a0) = 0;
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virtual bool __remove(const Dynamic &a0) = 0;
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virtual bool __removeAt(int inIndex) = 0;
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virtual int __indexOf(const Dynamic &a0,const Dynamic &a1) = 0;
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virtual int __lastIndexOf(const Dynamic &a0,const Dynamic &a1) = 0;
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virtual void __reverse() = 0;
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virtual Dynamic __shift() = 0;
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virtual hx::ArrayBase *__slice(const Dynamic &a0,const Dynamic &a1) = 0;
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virtual hx::ArrayBase *__splice(const Dynamic &a0,const Dynamic &a1) = 0;
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virtual void __sort(const Dynamic &a0) = 0;
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virtual ::String __toString() = 0;
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virtual void __unshift(const Dynamic &a0) = 0;
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virtual cpp::VirtualArray_obj *__map(const Dynamic &func) = 0;
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virtual hx::ArrayBase *__filter(const Dynamic &func) = 0;
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virtual void __blit(int inDestElement,const cpp::VirtualArray &inSourceArray,int inSourceElement,int inElementCount) = 0;
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virtual int __memcmp(const cpp::VirtualArray &a0) = 0;
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inline void __zero(const Dynamic &a0,const Dynamic &a1) { zero(a0,a1); }
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virtual void __qsort(Dynamic inCompare) = 0;
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virtual void __resize(int inLen) = 0;
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virtual void set(int inIdx, const cpp::Variant &inValue) = 0;
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virtual void setUnsafe(int inIdx, const cpp::Variant &inValue) = 0;
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#endif
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Dynamic concat_dyn();
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Dynamic copy_dyn();
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Dynamic insert_dyn();
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Dynamic iterator_dyn();
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Dynamic keyValueIterator_dyn();
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Dynamic join_dyn();
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Dynamic pop_dyn();
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Dynamic push_dyn();
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Dynamic contains_dyn();
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Dynamic remove_dyn();
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Dynamic removeAt_dyn();
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Dynamic indexOf_dyn();
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Dynamic lastIndexOf_dyn();
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Dynamic reverse_dyn();
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Dynamic shift_dyn();
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Dynamic slice_dyn();
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Dynamic splice_dyn();
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Dynamic sort_dyn();
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Dynamic toString_dyn();
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Dynamic unshift_dyn();
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Dynamic map_dyn();
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Dynamic filter_dyn();
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Dynamic __SetSize_dyn();
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Dynamic __SetSizeExact_dyn();
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Dynamic __unsafe_get_dyn();
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Dynamic __unsafe_set_dyn();
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Dynamic blit_dyn();
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Dynamic zero_dyn();
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Dynamic memcmp_dyn();
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Dynamic resize_dyn();
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void Realloc(int inLen) const;
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inline void EnsureSize(int inLen) const
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{
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if (inLen>length)
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{
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if (inLen>mAlloc)
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Realloc(inLen);
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length = inLen;
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}
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}
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void RemoveElement(int inIndex);
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void Insert(int inPos);
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void Splice(hx::ArrayBase *outResult,int inPos,int inLen);
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void Slice(hx::ArrayBase *outResult,int inPos,int inEnd);
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void Concat(hx::ArrayBase *outResult,const char *inEnd, int inLen);
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void reserve(int inN) const;
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inline int capacity() const { return mAlloc; }
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// Set numeric values to 0, pointers to null, bools to false
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void zero(Dynamic inFirst, Dynamic inCount);
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int Memcmp(ArrayBase *inArray);
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// Copy section of other array.
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void Blit(int inDestElement, ArrayBase *inSourceArray, int inSourceElement, int inElementCount);
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static String joinArray(hx::ArrayBase *inBase, String inSeparator);
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static String joinArray(Array_obj<String> *inArray, String inSeparator);
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virtual bool AllocAtomic() const { return false; }
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inline bool IsByteArray() const { return getStoreType()==arrayBool; }
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inline Dynamic __get(int inIndex) const { return __GetItem(inIndex); }
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// Plain old data element size - or 0 if not plain-old-data
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int getArrayConvertId() const { return mArrayConvertId; }
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mutable int length;
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static inline int baseOffset() { return (int)offsetof(ArrayBase,mBase); }
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static inline int allocOffset() { return (int)offsetof(ArrayBase,mAlloc); }
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static inline int lengthOffset() { return (int)offsetof(ArrayBase,length); }
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protected:
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mutable int mAlloc;
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mutable char *mBase;
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};
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} // end namespace hx for ArrayBase
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namespace cpp
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{
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typedef hx::ArrayBase ArrayBase_obj;
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// Use by cpp.ArrayBase extern
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typedef hx::ObjectPtr<ArrayBase_obj> ArrayBase;
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}
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#if (HXCPP_API_LEVEL>=330)
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#include "cpp/VirtualArray.h"
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#endif
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// --- Array_obj ------------------------------------------------------------------
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//
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// The Array_obj specialises the ArrayBase, adding typing where required
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namespace hx
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{
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// This is to determine is we need to include our slab of bytes in garbage collection
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template<typename T>
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inline bool TypeContainsPointers(T *) { return true; }
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template<> inline bool TypeContainsPointers(bool *) { return false; }
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template<> inline bool TypeContainsPointers(int *) { return false; }
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template<> inline bool TypeContainsPointers(double *) { return false; }
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template<> inline bool TypeContainsPointers(float *) { return false; }
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template<> inline bool TypeContainsPointers(short *) { return false; }
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template<> inline bool TypeContainsPointers(unsigned char *) { return false; }
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template<> inline bool TypeContainsPointers(::cpp::Int64 *) { return false; }
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template<typename TYPE> inline bool ContainsPointers()
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{
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return TypeContainsPointers( (TYPE *)0 );
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}
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struct TNonGcStringSet;
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//template<typename T> inline const void *PointerOf(hx::ObjectPtr<T> &o) { return o.mPtr; }
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//inline const void *PointerOf(String &s) { return s.raw_ptr(); }
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inline const void *PointerOf(hx::TNonGcStringSet &set) { return 0; }
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//inline const void *PointerOf(...) { return 0; }
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// For returning "null" when out of bounds ...
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template<typename TYPE>
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inline TYPE *NewNull() { Dynamic d; return (TYPE *)hx::NewGCBytes(&d,sizeof(d)); }
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template<> inline int *NewNull<int>() { int i=0; return (int *)hx::NewGCPrivate(&i,sizeof(i)); }
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template<> inline bool *NewNull<bool>() { bool b=0; return (bool *)hx::NewGCPrivate(&b,sizeof(b)); }
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template<> inline double *NewNull<double>() { double d=0.0; return (double *)hx::NewGCPrivate(&d,sizeof(d)); }
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template<> inline float *NewNull<float>() { float d=0.0f; return (float *)hx::NewGCPrivate(&d,sizeof(d)); }
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template<> inline unsigned char *NewNull<unsigned char>() { unsigned char u=0; return (unsigned char *)hx::NewGCPrivate(&u,sizeof(u)); }
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template<> inline ::cpp::Int64 *NewNull< ::cpp::Int64>() { ::cpp::Int64 i=0; return (::cpp::Int64 *)hx::NewGCPrivate(&i,sizeof(i)); }
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bool DynamicEq(const Dynamic &a, const Dynamic &b);
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}
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template<typename T> struct ArrayClassId { enum { id=hx::clsIdArrayObject }; };
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template<> struct ArrayClassId<unsigned char> { enum { id=hx::clsIdArrayByte }; };
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template<> struct ArrayClassId<signed char> { enum { id=hx::clsIdArrayByte }; };
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template<> struct ArrayClassId<unsigned short> { enum { id=hx::clsIdArrayShort }; };
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template<> struct ArrayClassId<signed short> { enum { id=hx::clsIdArrayShort }; };
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template<> struct ArrayClassId<unsigned int> { enum { id=hx::clsIdArrayInt }; };
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template<> struct ArrayClassId<signed int> { enum { id=hx::clsIdArrayInt }; };
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template<> struct ArrayClassId<float> { enum { id=hx::clsIdArrayFloat32 }; };
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template<> struct ArrayClassId<double> { enum { id=hx::clsIdArrayFloat64 }; };
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template<> struct ArrayClassId<String> { enum { id=hx::clsIdArrayString }; };
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template<> struct ArrayClassId< ::cpp::Int64> { enum { id=hx::clsIdArrayInt64 }; };
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// sort...
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#include <algorithm>
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namespace hx
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{
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template<typename T>
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inline bool arrayElemEq(const T &a, const T &b) { return a==b; }
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template<>
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inline bool arrayElemEq<Dynamic>(const Dynamic &a, const Dynamic &b) {
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return hx::DynamicEq(a,b);
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}
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}
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template<typename ELEM_>
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class Array_obj : public hx::ArrayBase
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{
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typedef ELEM_ Elem;
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typedef hx::ObjectPtr< Array_obj<ELEM_> > ObjPtr;
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typedef typename hx::ReturnNull<ELEM_>::type NullType;
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public:
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enum { _hx_ClassId = ArrayClassId<ELEM_>::id };
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Array_obj(int inSize,int inReserve) :
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hx::ArrayBase(inSize,inReserve,sizeof(ELEM_),!hx::ContainsPointers<ELEM_>()) { }
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// Defined later so we can use "Array"
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static Array<ELEM_> __new(int inSize=0,int inReserve=0);
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static Array<ELEM_> __newConstWrapper(ELEM_ *inData,int inSize);
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static Array<ELEM_> fromData(const ELEM_ *inData,int inCount);
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#if (HXCPP_API_LEVEL>331)
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bool _hx_isInstanceOf(int inClassId)
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{
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return inClassId==1 || inClassId==(int)hx::clsIdArrayBase || inClassId==(int)_hx_ClassId;
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}
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#endif
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virtual bool AllocAtomic() const { return !hx::ContainsPointers<ELEM_>(); }
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virtual Dynamic __GetItem(int inIndex) const { return __get(inIndex); }
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virtual Dynamic __SetItem(int inIndex,Dynamic inValue)
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{
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ELEM_ &elem = Item(inIndex);
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elem = inValue;
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if (hx::ContainsPointers<ELEM_>()) { HX_OBJ_WB_GET(this,hx::PointerOf(elem)); }
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return inValue;
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}
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inline ELEM_ *Pointer() { return (ELEM_ *)mBase; }
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inline ELEM_ &Item(int inIndex)
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{
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if (inIndex>=(int)length) EnsureSize(inIndex+1);
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else if (inIndex<0) { return * hx::NewNull<ELEM_>(); }
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return * (ELEM_ *)(mBase + inIndex*sizeof(ELEM_));
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}
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inline ELEM_ __get(int inIndex) const
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{
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if ((unsigned int)inIndex>=(unsigned int)length ) return null();
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return * (ELEM_ *)(mBase + inIndex*sizeof(ELEM_));
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}
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// Does not check for size valid - use with care
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inline ELEM_ &__unsafe_get(int inIndex) { return * (ELEM_ *)(mBase + inIndex*sizeof(ELEM_)); }
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inline ELEM_ & __unsafe_set(int inIndex, ELEM_ inValue)
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{
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ELEM_ &elem = *(ELEM_*)(mBase + inIndex*sizeof(ELEM_));
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elem = inValue;
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if (hx::ContainsPointers<ELEM_>()) { HX_OBJ_WB_GET(this, hx::PointerOf(elem)); }
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return elem;
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}
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inline int memcmp(Array<ELEM_> inOther)
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{
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return ArrayBase::Memcmp(inOther.GetPtr());
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}
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inline void memcpy(int inStart, const ELEM_ *inData, int inElements)
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{
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EnsureSize(inStart+inElements);
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int s = GetElementSize();
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::memcpy(mBase + s*inStart, inData, s*inElements);
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if (hx::ContainsPointers<ELEM_>())
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{
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HX_OBJ_WB_PESSIMISTIC_GET(this);
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}
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}
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inline void blit(int inDestElement, Array<ELEM_> inSourceArray,
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int inSourceElement, int inElementCount)
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{
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ArrayBase::Blit(inDestElement, inSourceArray.GetPtr(), inSourceElement, inElementCount);
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}
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void __Mark(hx::MarkContext *__inCtx)
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{
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if (mAlloc>0) hx::MarkAlloc((void *)mBase, __inCtx );
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if (length && hx::ContainsPointers<ELEM_>())
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{
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ELEM_ *ptr = (ELEM_ *)mBase;
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HX_MARK_MEMBER_ARRAY(ptr,length);
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}
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}
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#ifdef HXCPP_VISIT_ALLOCS
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void __Visit(hx::VisitContext *__inCtx)
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{
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if (mAlloc>0) __inCtx->visitAlloc((void **)&mBase);
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if (hx::ContainsPointers<ELEM_>())
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{
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ELEM_ *ptr = (ELEM_ *)mBase;
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for(int i=0;i<length;i++)
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{
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HX_VISIT_MEMBER(ptr[i]);
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}
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}
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}
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#endif
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inline Array<ELEM_> __SetSizeExact(int inLen);
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int GetElementSize() const { return sizeof(ELEM_); }
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String ItemString(int inI)
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{
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String result(__get(inI));
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if (result==null()) return HX_CSTRING("null");
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return result;
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}
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Array_obj<ELEM_> *Add(const ELEM_ &inItem) { push(inItem); return this; }
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Array<ELEM_> init(int inIndex, ELEM_ inValue)
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{
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* (ELEM_ *)(mBase + inIndex*sizeof(ELEM_)) = inValue;
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#ifdef HXCPP_GC_GENERATIONAL
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if (hx::ContainsPointers<ELEM_>())
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{ HX_OBJ_WB_GET(this, hx::PointerOf(inValue)); }
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#endif
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return this;
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}
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#ifdef HXCPP_GC_GENERATIONAL
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inline int pushCtx(hx::StackContext *_hx_ctx, ELEM_ inVal )
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{
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int l = length;
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EnsureSize((int)l+1);
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* (ELEM_ *)(mBase + l*sizeof(ELEM_)) = inVal;
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if (hx::ContainsPointers<ELEM_>()) { HX_ARRAY_WB(this,inIdx, hx::PointerOf(inVal) ); }
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return length;
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}
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#endif
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// Haxe API
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inline int push( ELEM_ inVal )
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{
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#ifdef HXCPP_GC_GENERATIONAL
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if (hx::ContainsPointers<ELEM_>())
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return pushCtx(HX_CTX_GET,inVal);
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#endif
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int l = length;
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EnsureSize((int)l+1);
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* (ELEM_ *)(mBase + l*sizeof(ELEM_)) = inVal;
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return length;
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}
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inline NullType pop( )
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{
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if (!length) return null();
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ELEM_ result = __get((int)length-1);
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resize((int)length-1);
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return result;
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}
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int Find(ELEM_ inValue)
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{
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ELEM_ *e = (ELEM_ *)mBase;
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for(int i=0;i<length;i++)
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if (hx::arrayElemEq(e[i],inValue))
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return i;
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return -1;
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}
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bool contains(ELEM_ inValue)
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{
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ELEM_ *e = (ELEM_ *)mBase;
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for(int i=0;i<length;i++)
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{
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if (hx::arrayElemEq(e[i],inValue))
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return true;
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}
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return false;
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}
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bool remove(ELEM_ inValue)
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{
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ELEM_ *e = (ELEM_ *)mBase;
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for(int i=0;i<length;i++)
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{
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if (hx::arrayElemEq(e[i],inValue))
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{
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RemoveElement((int)i);
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return true;
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}
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}
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return false;
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}
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bool removeAt( int idx )
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{
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if( idx < 0 ) idx += length;
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if (idx>=length || idx<0) return false;
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RemoveElement(idx);
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return true;
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}
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int indexOf(ELEM_ inValue, Dynamic fromIndex = null())
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{
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int len = length;
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int i = fromIndex==null() ? 0 : fromIndex->__ToInt();
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ELEM_ *e = (ELEM_ *)mBase;
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if (i < 0)
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{
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i += len;
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if (i < 0) i = 0;
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}
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while(i<len)
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{
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if (hx::arrayElemEq(e[i],inValue))
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return i;
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i++;
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}
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return -1;
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}
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int lastIndexOf(ELEM_ inValue, Dynamic fromIndex = null())
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{
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int len = length;
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int i = fromIndex==null() ? len-1 : fromIndex->__ToInt();
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ELEM_ *e = (ELEM_ *)mBase;
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if (i >= len)
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i = len - 1;
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else if (i < 0)
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i += len;
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while(i>=0)
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{
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if (hx::arrayElemEq(e[i],inValue))
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return i;
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i--;
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}
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return -1;
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}
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NullType shift()
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{
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if (length==0) return null();
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ELEM_ result = __get(0);
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RemoveElement(0);
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return result;
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}
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String join(String inSeparator) { return ArrayBase::joinArray(this, inSeparator); }
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Array<ELEM_> concat( Array<ELEM_> inTail );
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Array<ELEM_> copy( );
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Array<ELEM_> slice(int inPos, Dynamic end = null());
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Array<ELEM_> splice(int inPos, int len);
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inline void removeRange(int inPos, int len)
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{
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hx::ArrayBase::Splice(0,inPos,len);
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}
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#if HXCPP_API_LEVEL>=330
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cpp::VirtualArray map(Dynamic inFunc);
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#else
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Dynamic map(Dynamic inFunc);
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#endif
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Array<ELEM_> filter(Dynamic inFunc);
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void insert(int inPos, ELEM_ inValue)
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{
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if (inPos<0)
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{
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inPos+=length;
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if (inPos<0) inPos = 0;
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}
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else if (inPos>length)
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inPos = length;
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hx::ArrayBase::Insert(inPos);
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Item(inPos) = inValue;
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#ifdef HXCPP_GC_GENERATIONAL
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if (hx::ContainsPointers<ELEM_>())
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{ HX_OBJ_WB_GET(this,hx::PointerOf(inValue)); }
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#endif
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}
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void unshift(ELEM_ inValue)
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{
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insert(0,inValue);
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}
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void reverse()
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{
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int half = length/2;
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ELEM_ *e = (ELEM_ *)mBase;
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for(int i=0;i<half;i++)
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{
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ELEM_ tmp = e[length-i-1];
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e[length-i-1] = e[i];
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e[i] = tmp;
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}
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}
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// Will do random pointer sorting for object pointers
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inline void sortAscending()
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{
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ELEM_ *e = (ELEM_ *)mBase;
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std::sort(e, e+length);
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}
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static inline bool greaterThan(const ELEM_ &inA, const ELEM_ &inB) { return inB < inA; }
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inline void sortDescending()
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{
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ELEM_ *e = (ELEM_ *)mBase;
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std::sort(e, e+length, greaterThan);
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}
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struct Sorter
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{
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Sorter(Dynamic inFunc) : mFunc(inFunc) { }
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bool operator()(const ELEM_ &inA, const ELEM_ &inB)
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{
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return mFunc( Dynamic(inA), Dynamic(inB))->__ToInt() < 0;
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}
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Dynamic mFunc;
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};
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inline void qsort(Dynamic inSorter)
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{
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ELEM_ *e = (ELEM_ *)mBase;
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std::sort(e, e+length, Sorter(inSorter) );
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}
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void sort(Dynamic inSorter)
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{
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if ( (int)hx::ArrayTraits<ELEM_>::StoreType==(int)hx::arrayObject ||
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(int)hx::ArrayTraits<ELEM_>::StoreType==(int)hx::arrayString)
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{
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// Keep references from being hidden inside sorters buffers
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safeSort(inSorter, (int)hx::ArrayTraits<ELEM_>::StoreType==(int)hx::arrayString);
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}
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else
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{
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ELEM_ *e = (ELEM_ *)mBase;
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std::stable_sort(e, e+length, Sorter(inSorter) );
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}
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}
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Dynamic iterator() { return new hx::ArrayIterator<ELEM_,ELEM_>(this); }
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Dynamic keyValueIterator() { return new hx::ArrayKeyValueIterator<ELEM_,ELEM_>(this); }
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template<typename TO>
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Dynamic iteratorFast() { return new hx::ArrayIterator<ELEM_,TO>(this); }
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template<typename TO>
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Dynamic keyValueIteratorFast() { return new hx::ArrayKeyValueIterator<ELEM_,TO>(this); }
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virtual hx::ArrayStore getStoreType() const
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{
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return (hx::ArrayStore) hx::ArrayTraits<ELEM_>::StoreType;
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}
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inline ELEM_ &setCtx(hx::StackContext *_hx_ctx, int inIdx, ELEM_ inValue)
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{
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ELEM_ &elem = Item(inIdx);
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HX_ARRAY_WB(this,inIdx, hx::PointerOf(inValue) );
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return elem = inValue;
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}
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// Dynamic interface
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#if (HXCPP_API_LEVEL < 330)
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virtual Dynamic __concat(const Dynamic &a0) { return concat(a0); }
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virtual Dynamic __copy() { return copy(); }
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virtual Dynamic __insert(const Dynamic &a0,const Dynamic &a1) { insert(a0,a1); return null(); }
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virtual Dynamic __iterator() { return iterator(); }
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virtual Dynamic __keyValueIterator() { return keyValueIterator(); }
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virtual Dynamic __join(const Dynamic &a0) { return join(a0); }
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virtual Dynamic __pop() { return pop(); }
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virtual Dynamic __push(const Dynamic &a0) { return push(a0);}
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virtual Dynamic __remove(const Dynamic &a0) { return remove(a0); }
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virtual Dynamic __removeAt(const Dynamic &a0) { return removeAt(a0); }
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virtual Dynamic __indexOf(const Dynamic &a0,const Dynamic &a1) { return indexOf(a0, a1); }
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virtual Dynamic __lastIndexOf(const Dynamic &a0,const Dynamic &a1) { return lastIndexOf(a0, a1); }
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virtual Dynamic __reverse() { reverse(); return null(); }
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virtual Dynamic __shift() { return shift(); }
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virtual Dynamic __slice(const Dynamic &a0,const Dynamic &a1) { return slice(a0,a1); }
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virtual Dynamic __splice(const Dynamic &a0,const Dynamic &a1) { return splice(a0,a1); }
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virtual Dynamic __sort(const Dynamic &a0) { sort(a0); return null(); }
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virtual Dynamic __toString() { return toString(); }
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virtual Dynamic __unshift(const Dynamic &a0) { unshift(a0); return null(); }
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virtual Dynamic __map(const Dynamic &func) { return map(func); }
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virtual Dynamic __filter(const Dynamic &func) { return filter(func); }
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virtual Dynamic __blit(const Dynamic &a0,const Dynamic &a1,const Dynamic &a2,const Dynamic &a3) { blit(a0,a1,a2,a3); return null(); }
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virtual Dynamic __memcmp(const Dynamic &a0) { return memcmp(a0); }
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virtual Dynamic __resize(const Dynamic &a0) { resize(a0); return null(); }
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virtual void __qsort(Dynamic inCompare) { this->qsort(inCompare); };
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#else //(HXCPP_API_LEVEL < 330)
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virtual hx::ArrayBase *__concat(const cpp::VirtualArray &a0) { return concat(a0).mPtr; }
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virtual hx::ArrayBase *__copy() { return copy().mPtr; }
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virtual void __insert(int inIndex,const Dynamic &a1) { insert(inIndex,a1);}
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virtual Dynamic __iterator() { return iterator(); }
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virtual Dynamic __keyValueIterator() { return keyValueIterator(); }
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virtual ::String __join(::String a0) { return join(a0); }
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virtual Dynamic __pop() { return pop(); }
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virtual int __push(const Dynamic &a0) { return push(a0);}
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virtual bool __contains(const Dynamic &a0) { return contains(a0); }
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virtual bool __remove(const Dynamic &a0) { return remove(a0); }
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virtual bool __removeAt(int inIndex) { return removeAt(inIndex); }
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virtual int __indexOf(const Dynamic &a0,const Dynamic &a1) { return indexOf(a0, a1); }
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virtual int __lastIndexOf(const Dynamic &a0,const Dynamic &a1) { return lastIndexOf(a0, a1); }
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virtual void __reverse() { reverse(); }
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virtual Dynamic __shift() { return shift(); }
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virtual hx::ArrayBase *__slice(const Dynamic &a0,const Dynamic &a1) { return slice(a0,a1).mPtr; }
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virtual hx::ArrayBase *__splice(const Dynamic &a0,const Dynamic &a1) { return splice(a0,a1).mPtr; }
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virtual void __sort(const Dynamic &a0) { sort(a0); }
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virtual ::String __toString() { return toString(); }
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virtual void __unshift(const Dynamic &a0) { unshift(a0); }
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virtual cpp::VirtualArray_obj *__map(const Dynamic &func) { return map(func).mPtr; }
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virtual void __resize(int inLen) { resize(inLen); }
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virtual hx::ArrayBase *__filter(const Dynamic &func) { return filter(func).mPtr; }
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virtual void __blit(int inDestElement,const cpp::VirtualArray &inSourceArray,int inSourceElement,int inElementCount)
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{
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blit(inDestElement,inSourceArray,inSourceElement,inElementCount);
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}
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virtual int __memcmp(const cpp::VirtualArray &a0) { return memcmp(a0); }
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virtual void __qsort(Dynamic inCompare) { this->qsort(inCompare); };
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virtual void set(int inIndex, const cpp::Variant &inValue) {
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ELEM_ &elem = Item(inIndex);
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elem = ELEM_(inValue);
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if (hx::ContainsPointers<ELEM_>()) {
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HX_OBJ_WB_GET(this, hx::PointerOf(elem));
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}
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}
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virtual void setUnsafe(int inIndex, const cpp::Variant &inValue) {
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ELEM_ &elem = *(ELEM_ *)(mBase + inIndex*sizeof(ELEM_));
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elem = ELEM_(inValue);
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if (hx::ContainsPointers<ELEM_>()) { HX_OBJ_WB_GET(this,hx::PointerOf(elem)); }
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}
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#endif
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};
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// --- Array ---------------------------------------------------------------
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//
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// The array class adds object syntax to the Array_obj pointer
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template<typename ELEM_>
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class Array : public hx::ObjectPtr< Array_obj<ELEM_> >
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{
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typedef hx::ObjectPtr< Array_obj<ELEM_> > super;
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typedef Array_obj<ELEM_> OBJ_;
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public:
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typedef ELEM_ Elem;
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typedef Array_obj<ELEM_> *Ptr;
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using super::mPtr;
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using super::GetPtr;
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Array() { }
|
|
Array(int inSize,int inReserve) : super( OBJ_::__new(inSize,inReserve) ) { }
|
|
Array(const null &inNull) : super(0) { }
|
|
Array(Ptr inPtr) : super(inPtr) { }
|
|
|
|
#ifdef HXCPP_CHECK_POINTER
|
|
inline OBJ_ *CheckGetPtr() const
|
|
{
|
|
if (!mPtr) hx::NullReference("Array", true);
|
|
// The handler might have fixed up the null value
|
|
if (!mPtr) hx::NullReference("Array", false);
|
|
return mPtr;
|
|
}
|
|
#else
|
|
inline OBJ_ *CheckGetPtr() const { return mPtr; }
|
|
#endif
|
|
|
|
// Construct from our type ...
|
|
Array ( const hx::ObjectPtr< OBJ_ > &inArray )
|
|
: hx::ObjectPtr< OBJ_ >(inArray) { }
|
|
|
|
Array(const Array<ELEM_> &inArray) : super(inArray.GetPtr()) { }
|
|
|
|
// Build dynamic array from foreign array
|
|
template<typename SOURCE_>
|
|
Array( const Array<SOURCE_> &inRHS ) : super(0)
|
|
{
|
|
Array_obj<SOURCE_> *ptr = inRHS.GetPtr();
|
|
if (ptr)
|
|
{
|
|
OBJ_ *arr = dynamic_cast<OBJ_ *>(ptr);
|
|
if (!arr)
|
|
{
|
|
// Non-identical type (syntactically, should be creating from Array<Dynamic>)
|
|
// Copy elements one-by-one
|
|
// Not quite right, but is the best we can do...
|
|
int n = ptr->__length();
|
|
*this = Array_obj<ELEM_>::__new(n);
|
|
for(int i=0;i<n;i++)
|
|
mPtr->__unsafe_set(i,ptr->__GetItem(i));
|
|
}
|
|
else
|
|
mPtr = arr;
|
|
}
|
|
}
|
|
|
|
#ifdef HX_VARRAY_DEFINED
|
|
// From VirtualArray
|
|
Array( const cpp::VirtualArray &inVArray) { fromVArray(inVArray.mPtr); }
|
|
|
|
void fromVArray(cpp::VirtualArray_obj *inVArray)
|
|
{
|
|
if (!inVArray || inVArray->store==hx::arrayNull)
|
|
{
|
|
mPtr = 0;
|
|
return;
|
|
}
|
|
inVArray->fixType<ELEM_>();
|
|
// Switch on type?
|
|
setDynamic(inVArray->base,true);
|
|
}
|
|
|
|
Array &operator=( const cpp::VirtualArray &inRHS )
|
|
{
|
|
fromVArray(inRHS.mPtr);
|
|
return *this;
|
|
}
|
|
|
|
#endif
|
|
|
|
inline void setDynamic( const Dynamic &inRHS, bool inIgnoreVirtualArray=false )
|
|
{
|
|
hx::Object *ptr = inRHS.GetPtr();
|
|
if (ptr)
|
|
{
|
|
OBJ_ *arr = dynamic_cast<OBJ_ *>(ptr);
|
|
if (!arr && ptr->__GetClass().mPtr == super::__SGetClass().mPtr )
|
|
{
|
|
#ifdef HX_VARRAY_DEFINED
|
|
cpp::VirtualArray_obj *varray = inIgnoreVirtualArray ? 0 :
|
|
dynamic_cast<cpp::VirtualArray_obj *>(ptr);
|
|
if (varray)
|
|
fromVArray(varray);
|
|
else
|
|
#endif
|
|
{
|
|
// Non-identical type.
|
|
// Copy elements one-by-one
|
|
// Not quite right, but is the best we can do...
|
|
int n = ptr->__length();
|
|
*this = Array_obj<ELEM_>::__new(n);
|
|
for(int i=0;i<n;i++)
|
|
mPtr->__unsafe_set(i,ptr->__GetItem(i));
|
|
}
|
|
}
|
|
else
|
|
mPtr = arr;
|
|
}
|
|
}
|
|
|
|
Array( const Dynamic &inRHS ) : super(0) { setDynamic(inRHS); }
|
|
Array( const cpp::ArrayBase &inRHS ) : super(0) { setDynamic(inRHS); }
|
|
inline Array(const ::cpp::Variant &inVariant) : super(0)
|
|
{
|
|
setDynamic(inVariant.asObject());
|
|
}
|
|
|
|
// operator= exact match...
|
|
Array &operator=( Array<ELEM_> inRHS )
|
|
{
|
|
mPtr = inRHS.GetPtr();
|
|
return *this;
|
|
}
|
|
|
|
// Foreign array
|
|
template<typename OTHER>
|
|
Array &operator=( const Array<OTHER> &inRHS )
|
|
{
|
|
*this = Array(inRHS);
|
|
return *this;
|
|
}
|
|
|
|
Array &operator=( const Dynamic &inRHS )
|
|
{
|
|
setDynamic(inRHS);
|
|
return *this;
|
|
}
|
|
|
|
Array &operator=( const cpp::ArrayBase &inRHS )
|
|
{
|
|
setDynamic(inRHS);
|
|
return *this;
|
|
}
|
|
|
|
|
|
Array &operator=( const cpp::Variant &inRHS )
|
|
{
|
|
if (inRHS.type!=cpp::Variant::typeObject)
|
|
setDynamic( null() );
|
|
else
|
|
setDynamic(inRHS.valObject);
|
|
return *this;
|
|
}
|
|
|
|
|
|
Array &operator=( const null &inNull )
|
|
{
|
|
mPtr = 0;
|
|
return *this;
|
|
}
|
|
|
|
|
|
#if (HXCPP_API_LEVEL >= 330)
|
|
inline bool operator==(const cpp::VirtualArray &varray) const { return varray==*this; }
|
|
inline bool operator!=(const cpp::VirtualArray &varray) const { return varray!=*this; }
|
|
#endif
|
|
|
|
|
|
inline ELEM_ &operator[](int inIdx) { return CheckGetPtr()->Item(inIdx); }
|
|
inline ELEM_ operator[](int inIdx) const { return CheckGetPtr()->__get(inIdx); }
|
|
//inline ELEM_ __get(int inIdx) const { return CheckGetPtr()->__get(inIdx); }
|
|
inline int __length() const { return CheckGetPtr()->__length(); }
|
|
inline Array<ELEM_> &Add(const ELEM_ &inElem) { CheckGetPtr()->Add(inElem); return *this; }
|
|
inline Array<ELEM_> & operator<<(const ELEM_ &inElem) { CheckGetPtr()->Add(inElem); return *this; }
|
|
};
|
|
|
|
|
|
// Now that the "Array" object is defined, we can implement this function ....
|
|
|
|
template<typename ELEM_>
|
|
Array<ELEM_> Array_obj<ELEM_>::__new(int inSize,int inReserve)
|
|
{ return Array<ELEM_>(new Array_obj(inSize,inReserve)); }
|
|
|
|
|
|
template<typename ELEM_>
|
|
Array<ELEM_> Array_obj<ELEM_>::__newConstWrapper(ELEM_ *inData,int inSize)
|
|
{
|
|
Array_obj<ELEM_> temp(0,0);
|
|
Array_obj<ELEM_> *result = (Array_obj<ELEM_> *)hx::InternalCreateConstBuffer(&temp,sizeof(temp));
|
|
result->setUnmanagedData(inData, inSize);
|
|
return result;
|
|
}
|
|
|
|
|
|
template<typename ELEM_>
|
|
Array<ELEM_> Array_obj<ELEM_>::fromData(const ELEM_ *inData,int inCount)
|
|
{
|
|
Array<ELEM_> result = new Array_obj(inCount,inCount);
|
|
if (inCount)
|
|
result->memcpy(0, inData, inCount);
|
|
return result;
|
|
}
|
|
|
|
|
|
|
|
template<>
|
|
inline bool Dynamic::IsClass<Array<Dynamic> >()
|
|
{ return mPtr && mPtr->__GetClass()== hx::ArrayBase::__mClass; }
|
|
|
|
|
|
template<typename ELEM_>
|
|
Array<ELEM_> Array_obj<ELEM_>::concat( Array<ELEM_> inTail )
|
|
{
|
|
Array_obj *result = new Array_obj(inTail->__length()+(int)length,0);
|
|
hx::ArrayBase::Concat(result,inTail->GetBase(),inTail->__length());
|
|
return result;
|
|
}
|
|
|
|
template<typename ELEM_>
|
|
Array<ELEM_> Array_obj<ELEM_>::copy( )
|
|
{
|
|
Array_obj *result = new Array_obj((int)length,0);
|
|
::memcpy(result->GetBase(),GetBase(),length*sizeof(ELEM_));
|
|
return result;
|
|
}
|
|
|
|
// Copies the range of the array starting at pos up to, but not including, end.
|
|
// Both pos and end can be negative to count from the end: -1 is the last item in the array.
|
|
template<typename ELEM_>
|
|
Array<ELEM_> Array_obj<ELEM_>::slice(int inPos, Dynamic end)
|
|
{
|
|
int e = end==null() ? length : end->__ToInt();
|
|
Array_obj *result = new Array_obj(0,0);
|
|
hx::ArrayBase::Slice(result,inPos,(int)e);
|
|
return result;
|
|
}
|
|
|
|
template<typename ELEM_>
|
|
Array<ELEM_> Array_obj<ELEM_>::splice(int inPos, int len)
|
|
{
|
|
Array_obj * result = new Array_obj(0,0);
|
|
hx::ArrayBase::Splice(result,inPos,len);
|
|
return result;
|
|
}
|
|
|
|
|
|
template<typename ELEM_>
|
|
Array<ELEM_> Array_obj<ELEM_>::filter(Dynamic inFunc)
|
|
{
|
|
Array_obj *result = new Array_obj(0,0);
|
|
for(int i=0;i<length;i++)
|
|
if (inFunc(__unsafe_get(i)))
|
|
result->push(__unsafe_get(i));
|
|
return result;
|
|
}
|
|
|
|
template<typename ELEM_>
|
|
Array<ELEM_> Array_obj<ELEM_>::__SetSizeExact(int inLen)
|
|
{
|
|
ArrayBase::__SetSizeExact(inLen);
|
|
return this;
|
|
}
|
|
|
|
// Static externs
|
|
template<typename ARRAY>
|
|
inline ARRAY _hx_array_set_size_exact(ARRAY inArray, int inLen)
|
|
{
|
|
return inArray->__SetSizeExact(inLen);
|
|
}
|
|
|
|
template<typename ARRAY1,typename ARRAY2>
|
|
inline int _hx_array_memcmp(ARRAY1 inArray1, ARRAY2 inArray2)
|
|
{
|
|
return inArray1->memcmp(inArray2);
|
|
}
|
|
|
|
template<typename ARRAY,typename VALUE>
|
|
inline typename ARRAY::Elem _hx_array_unsafe_set(ARRAY inArray, int inIndex, VALUE inValue)
|
|
{
|
|
return inArray->__unsafe_set(inIndex, inValue);
|
|
}
|
|
|
|
|
|
template<typename ARRAY>
|
|
inline typename ARRAY::Elem _hx_array_unsafe_get(ARRAY inArray, int inIndex)
|
|
{
|
|
return inArray->__unsafe_get(inIndex);
|
|
}
|
|
|
|
|
|
|
|
// Include again, for functions that required Array definition
|
|
#ifdef HX_VARRAY_DEFINED
|
|
#include "cpp/VirtualArray.h"
|
|
#endif
|
|
|
|
|
|
#if HXCPP_API_LEVEL >= 330
|
|
template<typename ELEM_>
|
|
cpp::VirtualArray Array_obj<ELEM_>::map(Dynamic inFunc)
|
|
{
|
|
cpp::VirtualArray result = cpp::VirtualArray_obj::__new(length,0);
|
|
for(int i=0;i<length;i++)
|
|
result->__unsafe_set(i,inFunc(__unsafe_get(i)));
|
|
return result;
|
|
}
|
|
|
|
#else
|
|
template<typename ELEM_>
|
|
Dynamic Array_obj<ELEM_>::map(Dynamic inFunc)
|
|
{
|
|
Array_obj<Dynamic> *result = new Array_obj<Dynamic>(length,0);
|
|
for(int i=0;i<length;i++)
|
|
result->__unsafe_set(i,inFunc(__unsafe_get(i)));
|
|
return result;
|
|
}
|
|
#endif
|
|
|
|
|
|
|
|
#endif
|