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#pragma once

#include "bitinput_impl.h"

#include <util/system/yassert.h> 
#include <util/generic/vector.h>
#include <util/generic/yexception.h>

#include <iterator>

namespace NBitIO {
    // Based on junk/solar/codecs/bitstream.h 

    class TBitInput: protected  TBitInputImpl { 
    public: 
        template <typename TVec> 
        explicit TBitInput(const TVec& vec) 
            : TBitInputImpl(std::begin(vec), std::end(vec))
        { 
        } 

        TBitInput(const char* start, const char* end) 
            : TBitInputImpl(start, end) 
        { 
        } 

        bool Eof() const { 
            return EofImpl(); 
        } 

        ui64 GetOffset() const { 
            ui64 bo = BitOffset(); 
            return bo / 8 + !!(bo % 8); 
        } 

        using TBitInputImpl::GetBitLength;

        ui64 GetBitOffset() const { 
            return BitOffset() % 8; 
        } 

    public: 
        // Read with static number of bits. 
        // Preserves what's in result. 
        template <ui64 bits, typename T> 
        Y_FORCE_INLINE bool ReadK(T& result, ui64 skipbits) {
            ui64 r64 = 0; 
            bool ret = bits <= 56 ? ReadKImpl<bits>(r64) : ReadSafe(r64, bits); 
            CopyToResultK<bits>(result, r64, skipbits); 
            return ret; 
        } 

        // Read with static number of bits. 
        // Zeroes other bits in result. 
        template <ui64 bits, typename T> 
        Y_FORCE_INLINE bool ReadK(T& result) {
            ui64 r = 0; 
            bool res = ReadK<bits>(r); 
            result = r; 
            return res; 
        } 

        // Shortcut to impl. 
        template <ui64 bits> 
        Y_FORCE_INLINE bool ReadK(ui64& result) {
            if (bits <= 56) 
                return ReadKImpl<bits>(result); 

            ui64 r1 = 0ULL; 
            ui64 r2 = 0ULL; 

            bool ret1 = ReadKImpl<56ULL>(r1); 
            bool ret2 = ReadKImpl<(bits > 56ULL ? bits - 56ULL : 0) /*or else we get negative param in template*/>(r2); 

            result = (r2 << 56ULL) | r1; 

            return ret1 & ret2; 
        } 

        // It's safe to read up to 64 bits. 
        // Zeroes other bits in result. 
        template <typename T> 
        Y_FORCE_INLINE bool ReadSafe(T& result, ui64 bits) {
            if (bits <= 56ULL) 
                return Read(result, bits); 

            ui64 r1 = 0ULL; 
            ui64 r2 = 0ULL; 

            bool ret1 = ReadKImpl<56ULL>(r1); 
            bool ret2 = ReadImpl(r2, bits - 56ULL); 

            result = (r2 << 56ULL) | r1; 

            return ret1 & ret2; 
        } 

        // It's safe to read up to 64 bits. 
        // Preserves what's in result. 
        template <typename T> 
        Y_FORCE_INLINE bool ReadSafe(T& result, ui64 bits, ui64 skipbits) {
            ui64 r64 = 0; 
            bool ret = ReadSafe(r64, bits); 
            CopyToResult(result, r64, bits, skipbits); 
            return ret; 
        } 

        // Do not try to read more than 56 bits at once. Split in two reads or use ReadSafe. 
        // Zeroes other bits in result. 
        template <typename T> 
        Y_FORCE_INLINE bool Read(T& result, ui64 bits) {
            ui64 r64 = 0; 
            bool ret = ReadImpl(r64, bits); 
            result = r64; 
            return ret; 
        } 

        // Shortcut to impl. 
        Y_FORCE_INLINE bool Read(ui64& result, ui64 bits) {
            return ReadImpl(result, bits); 
        } 

        // Do not try to read more than 56 bits at once. Split in two reads or use ReadSafe. 
        // Preserves what's in result. 
        template <typename T> 
        Y_FORCE_INLINE bool Read(T& result, ui64 bits, ui64 skipbits) {
            ui64 r64 = 0; 
            bool ret = ReadImpl(r64, bits); 
            CopyToResult(result, r64, bits, skipbits); 
            return ret; 
        } 

        // Unsigned wordwise read. Underlying data is splitted in "words" of "bits(data) + 1(flag)" bits. 
        // Like this: (unsigned char)0x2E<3> (0010 1110) <=> 1110 0101 
        //                                                   fddd fddd 
        template <ui64 bits, typename T> 
        Y_FORCE_INLINE bool ReadWords(T& result) {
            ui64 r64 = 0; 

            bool retCode = ReadWordsImpl<bits>(r64); 
            result = r64; 

            return retCode; 
        } 

        // Shortcut to impl. 
        template <ui64 bits> 
        Y_FORCE_INLINE bool ReadWords(ui64& result) {
            return ReadWordsImpl<bits>(result); 
        } 

        Y_FORCE_INLINE bool Back(int bits) {
            return Seek(BitOffset() - bits); 
        } 

        Y_FORCE_INLINE bool Seek(int bitoffset) {
            return TBitInputImpl::Seek(bitoffset); 
        } 

        // A way to read a portion of bits at random location. 
        // Didn't want to complicate sequential read, neither to copypaste. 
        template <typename T> 
        Y_FORCE_INLINE bool ReadRandom(ui64 bitoffset, T& result, ui64 bits, ui64 skipbits) {
            const ui64 curr = BitOffset(); 
            Seek(bitoffset); 
            bool ret = ReadSafe<T>(result, bits, skipbits); 
            Seek(curr); 
            return ret; 
        } 
    }; 
}