示例#1
0
文件: Costume.cpp 项目: broxen/Segs
void serializefrom(Costume &tgt, BitStream &src,const ColorAndPartPacker *packer)
{
    tgt.m_body_type = src.GetPackedBits(3); // 0:male normal
    tgt.skin_color = src.GetBits(32); // rgb

    tgt.m_height = src.GetFloat();
    tgt.m_physique = src.GetFloat();

    tgt.m_send_full_costume = src.GetBits(1);
    tgt.m_num_parts = src.GetPackedBits(4);

    try
    {
        for(int costume_part=0; costume_part<tgt.m_num_parts;costume_part++)
        {
            CostumePart part;
            part.m_full_part = tgt.m_send_full_costume;
            ::serializefrom(part,src,packer);
            tgt.m_parts.push_back(part);
        }
    }
    catch(cereal::RapidJSONException &e)
    {
        qWarning() << e.what();
    }
    catch(std::exception &e)
    {
        qCritical() << e.what();
    }
}
示例#2
0
int NetStructure::getBitsConditional( BitStream &bs,int numbits )
{
    if(bs.GetBits(1))
    {
        return bs.GetBits(numbits);
    }
    return 0;
}
示例#3
0
int getBitsConditional( BitStream &bs,uint32_t numbits )
{
    if(bs.GetBits(1))
    {
        return bs.GetBits(numbits);
    }
    return 0;
}
示例#4
0
文件: block.cpp 项目: PCDS/paraDSRC
// ********************************************************************************************
void Block::ReadLzMatches(BitStream &bit_stream, LzMatcher &lz_matcher)
{
	for (uint32 i = 0; i < rec_count; ++i)
	{
		uint32 tmp(0);			// remove warning...
		bit_stream.GetBit(tmp);
		lz_matches[i].length = tmp;
		if (!lz_matches[i].length)
		{
			bit_stream.GetBit(tmp);
			records[i].lz_inserted = tmp != 0;
		}
	}
	bit_stream.FlushInputWordBuffer();

	// DNA data
	uint32 rec_no_bits = BitStream::BitLength(b_start_rec_no + rec_count - 1);
	uint32 length_bits;
	uint32 offset_bits = (uint32)MAX(0, (int32)global_max_sequence_length - (int32)lz_matcher.GetMinMatchLen());

	if (offset_bits)
	{
		offset_bits = BitStream::BitLength(offset_bits);
	}

	for (uint32 i = 0; i < rec_count; ++i)
	{
		if (lz_matches[i].length > 0)
		{
			uint32 tmp;
			bit_stream.GetBits(tmp, rec_no_bits);
			lz_matches[i].rec_no = tmp;

			length_bits = (uint32)MAX(0, MIN((int32)records[i].sequence_len - (int32)lz_matcher.GetMinMatchLen(), 255));
			if (length_bits)
			{
				length_bits = BitStream::BitLength(length_bits);
				bit_stream.GetBits(tmp, length_bits);
			}
			else
			{
				tmp = 0;
			}
			lz_matches[i].length = tmp + lz_matcher.GetMinMatchLen();

			if (offset_bits)
			{
				bit_stream.GetBits(tmp, offset_bits);
			}
			else
			{
				tmp = 0;
			}
			lz_matches[i].rec_offset = tmp;
		}
	}
	bit_stream.FlushInputWordBuffer();
}
示例#5
0
文件: block.cpp 项目: PCDS/paraDSRC
// ********************************************************************************************
void Block::ReadQualityRLE(BitStream &bit_stream, std::vector<uchar> &qualities, 
std::vector<HuffmanEncoder*> &Huffman_qua, int32 /*n_qualities*/, std::vector<HuffmanEncoder*> &Huffman_run, 
int32 /*max_run_len*/)
{
	int32 max_len = 0;
	uint32 i = 0;
	for (; i < rec_count; ++i)
	{
		max_len += records[i].quality_len;
	}

	qua_stream_len = run_stream_len = max_len;
	qua_stream = new uchar[max_len];
	run_stream = new uchar[max_len];


	uint32 prev = 0;
	i = 0;
	for (uint32 j = 0; j < qua_stream_len; ++i)
	{
		int32 h_tmp;
		uint32 bit;

		// Quality data
		bit_stream.GetBits(bit, Huffman_qua[prev]->GetMinLen());
		h_tmp = Huffman_qua[prev]->DecodeFast(bit);

		while (h_tmp < 0)
		{
			bit_stream.GetBit(bit);
			h_tmp = Huffman_qua[prev]->Decode(bit);
		};

		my_assert(h_tmp < (int32)qualities.size());
		qua_stream[i] = qualities[h_tmp];
		prev = h_tmp;

		// Run data
		bit_stream.GetBits(bit, Huffman_run[prev]->GetMinLen());
		h_tmp = Huffman_run[prev]->DecodeFast(bit);

		while (h_tmp < 0)
		{
			bit_stream.GetBit(bit);
			h_tmp = Huffman_run[prev]->Decode(bit);
		};

		run_stream[i] = (uchar) h_tmp;

		j += h_tmp+1;
	}

	bit_stream.FlushInputWordBuffer();
}
示例#6
0
    void serializefrom_base(BitStream &bs)
    {
        field0   = bs.GetBits(32); //field_0
        time_res = bs.GetBits(32); // get_time_resl
        timestep = bs.GetFloat(); //v7->timestep

        time_rel1C = timestep;
        if(bs.GetBits(1)) //timestep!=time_rel1C
            time_rel1C = bs.GetFloat();

        m_perf_cntr_diff = bs.Get64Bits(); //next_state->ticks - current_state->ticks
        m_perf_cntr_diff = bs.Get64Bits(); //v7->perf_cntr1
    }
示例#7
0
文件: block.cpp 项目: PCDS/paraDSRC
// ********************************************************************************************
void Block::ReadQualityPlain(BitStream &bit_stream, std::vector<uchar> &qualities, 
	std::vector<HuffmanEncoder*> &Huffman_qua, int32 /*n_qualities*/, bool trucated_hashes, bool /*uses_const_delta*/)
{
	// Quality data
	for (uint32 i = 0; i < rec_count; ++i)
	{
		no_of_amb[i] = 0;
		uchar *cur_quality = records[i].quality; 
		uint32 cur_quality_len = records[i].quality_len;
		uint32 trunc_len = 0;

		if (trucated_hashes)			// Truncate #
		{
			uint32 is_truncated(0);		// skip warning...
			bit_stream.GetBit(is_truncated);
			if (is_truncated)
			{
				bit_stream.GetBits(trunc_len, BitStream::BitLength(cur_quality_len));
			}
		}

		for (uint32 j = 0; j < cur_quality_len-trunc_len; ++j)
		{
			uint32 bit;
			int32 h_tmp;

			bit_stream.GetBits(bit, Huffman_qua[j+1]->GetMinLen());
			h_tmp = Huffman_qua[j+1]->DecodeFast(bit);

			while (h_tmp < 0)
			{
				bit_stream.GetBit(bit);
				h_tmp = Huffman_qua[j+1]->Decode(bit);
			};

			if ((cur_quality[j] = qualities[h_tmp]) >= 128)
			{
				no_of_amb[i]++;
			}
		}

		for (uint32 j = cur_quality_len-trunc_len; j < cur_quality_len; ++j)
		{
			cur_quality[j] = '#';
		}
	}
	bit_stream.FlushInputWordBuffer();
}
示例#8
0
uint32_t NetStructure::getCached_Color( BitStream &bs )
{
    bool in_hash= bs.GetBits(1);
    if(in_hash)
    {
        uint16_t hash_idx =bs.GetBits(colorcachecount_bitlength);
        uint32_t *kv = WorldData::instance()->colors().key_for_idx(hash_idx);
        if(kv)
            return *kv;
        return 0;
    }
    else
        return bs.GetBits(32);

    return 0;
}
示例#9
0
    // recover actual ControlState from network data and previous entry
    void serializefrom_delta(BitStream &bs,const ControlState &prev)
    {
        field0   = bs.GetPackedBits(1); // field_0 diff next-current
        time_res = bs.GetPackedBits(1); // time to next state ?
        timestep = bs.GetFloat(); // next state's timestep

        time_rel1C = timestep;
        if(bs.GetBits(1)) //timestep!=time_rel1C
            time_rel1C = bs.GetFloat();

        m_perf_cntr_diff = bs.Get64Bits(); //next_state->ticks - current_state->ticks
        if(bs.GetBits(1))
        {
            // perf freq changed between current and next
            m_perf_freq_diff = bs.Get64Bits();
        }
    }
示例#10
0
//TODO: use generic ReadableStructures here ?
void RecvInputState::recv_client_opts(BitStream &bs)
{
    ClientOptions opts;
    ClientOption *entry;
    glm::vec3 vec;
    int cmd_idx;

    while((cmd_idx = bs.GetPackedBits(1))!=0)
    {
        entry=opts.get(cmd_idx-1);
        if (!entry)
        {
            qWarning() << "recv_client_opts missing opt for cmd index" << cmd_idx-1;
            continue;
        }
        for(ClientOption::Arg &arg : entry->m_args)
        {
            switch ( arg.type )
            {
                case ClientOption::t_int:
                {
                    *((int32_t *)arg.tgt) = bs.GetPackedBits(1);
                    break;
                }
                case ClientOption::t_float:
                {
                    *((float *)arg.tgt)=bs.GetFloat();
                    break;
                }
                case ClientOption::t_quant_angle:
                {
                    float * tgt_angle = (float *)arg.tgt;
                    *tgt_angle = AngleDequantize(bs.GetBits(14),14);
                    qCDebug(logInput, "Quant angle res:%f", *tgt_angle); //dequantized angle
                    break;
                }
                case ClientOption::t_string:
                case ClientOption::t_sentence:
                {
                    QString v;
                    bs.GetString(v);
                    break;
                }
                case ClientOption::t_vec3:
                {
                    for (int j = 0; j < 3; ++j )
                    {
                        vec[j] = bs.GetFloat();
                    }
                    break;
                }
                default:
                    continue;
            }
        }
    }
}
示例#11
0
void UpdateServer::serializefrom( BitStream &src )
{
    m_build_date = src.GetPackedBits(1);
    /*uint32_t t =*/ src.GetPackedBits(1);
    src.GetString(currentVersion);
    src.GetBitArray(clientInfo,sizeof(clientInfo)*8);
    authID = src.GetPackedBits(1);
    authCookie = src.GetBits(32);
    src.GetString(accountName);
}
示例#12
0
//TODO: use generic ReadableStructures here ?
void InputState::recv_client_opts(BitStream &bs)
{
    ClientOptions opts;
    ClientOption *entry;
    int opt_idx=0;
    int some_idx = bs.GetPackedBits(1);
    entry=opts.get(opt_idx)-1;
    Vector3 vec;
    while(some_idx!=0)
    {
        for(size_t i=0; i<entry->m_args.size(); i++)
        {
            ClientOption::Arg &arg=entry->m_args[i];
            switch ( arg.type )
            {
                case ClientOption::t_int:
                {
                    *((int32_t *)arg.tgt) = bs.GetPackedBits(1);
                    break;
                }
                case ClientOption::t_float:
                {
                    *((float *)arg.tgt)=bs.GetFloat();
                    break;
                }
                case ClientOption::t_quant_angle:
                {
                    printf("Quant:%d\n",bs.GetBits(14)); //quantized angle
                    break;
                }
                case ClientOption::t_string:
                case 4:
                {
                    std::string v;
                    bs.GetString(v);
                    break;
                }
                case ClientOption::t_vec3:
                {
                    for (int j = 0; j < 3; ++j )
                    {
                        vec.v[j] = bs.GetFloat();
                    }
                    break;
                }
                default:
                    continue;
            }
        }
        some_idx = bs.GetPackedBits(1)-1;
        opt_idx++;
        entry=opts.get(opt_idx);
    }
}
示例#13
0
文件: NewEntity.cpp 项目: broxen/Segs
void NewEntity::serializefrom( BitStream &bs )
{
    // the very first time an entity is created (character creation)
    m_cookie = bs.GetPackedBits(1);
    //m_city_of_developers = src.GetBits(1);
    m_new_character=bs.GetBits(1);
    if(m_new_character)
    {
        m_character_data.appendBitStream(bs);
    }
}
示例#14
0
void RecvInputState::serializefrom(BitStream &bs)
{
    m_next_state.m_full_timeupdate = false; // possibly some kind of full_update flag that is used elsewhere also

    if(bs.GetBits(1))
        extended_input(bs);

    m_next_state.m_has_target = bs.GetBits(1);
    m_next_state.m_target_idx = bs.GetPackedBits(14); // targeted entity server_index

    qCDebug(logTarget, "Has Target? %d | TargetIdx: %d", m_next_state.m_has_target, m_next_state.m_target_idx);

    TimeState prev_fld;
    int ctrl_idx = 0;
    while(bs.GetBits(1)) // receive control state array entries ?
    {
        TimeState fld;
        if(ctrl_idx)
        {
            fld.serializefrom_delta(bs, prev_fld);
        }
        else // initial values
        {
            fld.serializefrom_base(bs);
        }
        fld.dump();
        prev_fld = fld;
        ctrl_idx++;
    }

    recv_client_opts(bs); // g_pak contents will follow

    if(bs.GetReadableBits()>0)
    {
        m_user_commands.ResetOffsets();
        bs.ByteAlign(true,false);
        m_user_commands.StoreBitArray(bs.read_ptr(),bs.GetReadableBits());
        // all remaining bits were moved to m_user_commands.
        bs.SetReadPos(bs.GetWritePos());
    }
}
示例#15
0
void InputState::extended_input(BitStream &bs)
{
    has_input_commit_guess = bs.GetBits(1);
    if(has_input_commit_guess) // list of partial_2 follows
    {
        m_csc_deltabits=bs.GetBits(5) + 1; // number of bits in max_time_diff_ms
        someOtherbits = bs.GetBits(16);//ControlStateChange::field_8 or OptRel::field_19A8
        current_state_P = 0;
#ifdef DEBUG_INPUT
        fprintf(stderr,"CSC_DELTA[%x-%x] : ",m_csc_deltabits,someOtherbits);
#endif
        partial_2(bs);

    }
    controlBits = 0;
    for(int idx=0; idx<6; ++idx)
        controlBits |= (bs.GetBits(1))<<idx;
#ifdef DEBUG_INPUT
    if(controlBits)
    fprintf(stderr,"E input %x : ",controlBits);
#endif
    if(bs.GetBits(1))//if ( abs(s_prevTime - ms_time) < 1000 )
    {
        m_A_ang11_probably = bs.GetBits(11);//pak->SendBits(11, control_state.field_1C[0]);
        m_B_ang11_probably = bs.GetBits(11);//pak->SendBits(11, control_state.field_1C[1]);
#ifdef DEBUG_INPUT
        fprintf(stderr,"%f : %f",m_A_ang11_probably/2048.0,m_A_ang11_probably/2048.0);
#endif
    }
}
示例#16
0
void InputState::serializefrom(BitStream &bs)
{
    m_send_deltas=false;
#ifdef DEBUG_INPUT
    fprintf(stderr,"\nI:");
#endif
    if(bs.GetBits(1))
        extended_input(bs);

    bool has_targeted_entity = bs.GetBits(1);
    int tgt_idx=bs.GetPackedBits(14); // targeted entity server index
    int ctrl_idx=0;
#ifdef DEBUG_INPUT
    fprintf(stderr,"T:[%d]",has_targeted_entity);
    if(has_targeted_entity)
    fprintf(stderr,"TI:[%d]",tgt_idx);
#endif
    ControlState prev_fld;
    while(bs.GetBits(1)) // receive control state array entries ?
    {
        ControlState fld;
        if(ctrl_idx)
        {
            fld.serializefrom_delta(bs,prev_fld);
        }
        else // initial values
        {
            fld.serializefrom_base(bs);
        }
        fld.dump();
        prev_fld = fld;
        ctrl_idx++;
    }
    recv_client_opts(bs); // g_pak contents will follow
#ifdef DEBUG_INPUT
    fprintf(stderr,"\n");
#endif
}
示例#17
0
int NetCommand::serializefrom( BitStream &bs )
{
    for(size_t i=0; i<m_arguments.size(); i++)
    {
        switch(m_arguments[i].type)
        {
            case 1:
            {
                int res=bs.GetPackedBits(1);
                if(m_arguments[i].targetvar)
                    *((int *)m_arguments[i].targetvar) = res;
                qDebug("CommRecv %s:arg%zu : %d", qPrintable(m_name),i,res);
                break;
            }
            case 2:
            case 4:
            {
                QString res;
                bs.GetString(res); // postprocessed
                qDebug("CommRecv %s:arg%zu : %s", qPrintable(m_name),i,qPrintable(res));
                break;
            }
            case 3:
            {
                float res = bs.GetFloat();
                qDebug("CommRecv %s:arg%zu : %f", qPrintable(m_name),i,res);
                break;
            }
            case 5:
            {
                float res1 = normalizedCircumferenceToFloat(bs.GetBits(14),14);
                qDebug("CommRecv %s:arg%zu : %f", qPrintable(m_name),i,res1);
                break;
            }
            case 6:
                break;
            case 7:
            {
                float res1 = bs.GetFloat();
                float res2 = bs.GetFloat();
                float res3 = bs.GetFloat();
                qDebug("CommRecv %s:arg%zu : %f,%f,%f", qPrintable(m_name),i,res1,res2,res3);
                break;
            }
        }
    }
    return 1;
}
示例#18
0
std::string NetStructure::getCached_String( BitStream &bs )
{
    std::ostringstream strm;
    std::string tgt("");
    bool in_cache= bs.GetBits(1);
    if(in_cache)
    {
        int in_cache_idx = bs.GetPackedBits(stringcachecount_bitlength);
        std::string *kv = WorldData::instance()->strings().key_for_idx(in_cache_idx);
        if(kv)
            tgt=*kv;
        return tgt;
    }
    else
        bs.GetString(tgt);
    return tgt;
}
示例#19
0
void SaveClientOptions::serializefrom(BitStream & bs)
{
    qDebug() << "Serializing options from Client";
    data.m_mouse_speed          = bs.GetFloat();
    data.m_turn_speed           = bs.GetFloat();
    data.m_mouse_invert         = bs.GetBits(1);
    data.m_fade_chat_wnd        = bs.GetBits(1);
    data.m_fade_nav_wnd         = bs.GetBits(1);
    data.m_show_tooltips        = bs.GetBits(1);
    data.m_allow_profanity      = bs.GetBits(1);
    data.m_chat_balloons        = bs.GetBits(1);
    data.m_show_archetype       = (ReticleVisibility)bs.GetBits(3);
    data.m_show_supergroup      = (ReticleVisibility)bs.GetBits(3);
    data.m_show_player_name     = (ReticleVisibility)bs.GetBits(3);
    data.m_show_player_bars     = (ReticleVisibility)bs.GetBits(3);
    data.m_show_enemy_name      = (ReticleVisibility)bs.GetBits(3);
    data.m_show_enemy_bars      = (ReticleVisibility)bs.GetBits(3);
    data.m_show_player_reticles = (ReticleVisibility)bs.GetBits(3);
    data.m_show_enemy_reticles  = (ReticleVisibility)bs.GetBits(3);
    data.m_show_assist_reticles = (ReticleVisibility)bs.GetBits(3);
    data.m_chat_font_size       = bs.GetPackedBits(5);
}
示例#20
0
void RecvInputState::extended_input(BitStream &bs)
{
    bool keypress_state;

    m_next_state.m_full_input_packet = bs.GetBits(1);
    if(m_next_state.m_full_input_packet) // list of partial_2 follows
    {
        m_next_state.m_csc_deltabits = bs.GetBits(5) + 1; // number of bits in max_time_diff_ms
        m_next_state.m_send_id = bs.GetBits(16);

        //qCDebug(logInput, "CSC_DELTA[%x-%x-%x] : ", m_current.m_csc_deltabits, m_current.m_send_id, m_current.current_state_P);
        receiveControlState(bs); // formerly partial_2
    }

    // Key Pressed/Held
    for(int idx=0; idx<6; ++idx)
    {
        keypress_state = bs.GetBits(1);
        m_next_state.m_control_bits[idx] = keypress_state;
        if(keypress_state==true)
        {
            m_next_state.m_keypress_start[idx] = std::chrono::steady_clock::now();
            processDirectionControl(&m_next_state, idx, 0, keypress_state);
            qCDebug(logInput, "keypress down %d", idx);
        }
    }

    if (m_next_state.m_control_bits != 0)
            m_next_state.m_input_received = true;

    if(bs.GetBits(1)) //if ( abs(s_prevTime - ms_time) < 1000 )
    {
        m_next_state.m_orientation_pyr[0] = AngleDequantize(bs.GetBits(11),11);
        m_next_state.m_orientation_pyr[1] = AngleDequantize(bs.GetBits(11),11);
        qCDebug(logOrientation, "extended pitch: %f \tyaw: %f", m_next_state.m_orientation_pyr[0], m_next_state.m_orientation_pyr[1]);
    }
}
示例#21
0
void getTransformMatrix(BitStream &bs, glm::mat4x3 &src )
{
    if(bs.GetBits(1))
        assert(!"PACKED ARRAY RECEIVED!");
    bs.GetBitArray((uint8_t *)glm::value_ptr(src),sizeof(glm::mat4x3)*8);
}
示例#22
0
void InputState::partial_2(BitStream &bs)
{
    uint8_t control_id;
    //uint16_t v6;
    uint16_t time_since_prev;
    int v;
    static const char *control_name[] = {"FORWARD",
                                   "BACK",
                                   "LEFT",
                                   "RIGHT",
                                   "UP",
                                   "DOWN"};
    do
    {
        if(bs.GetBits(1))
            control_id = 8;
        else
            control_id = bs.GetBits(4);

        if(bs.GetBits(1)) //
            time_since_prev=bs.GetBits(2)+32;
        else
            time_since_prev=bs.GetBits(m_csc_deltabits);
        switch(control_id)
        {
            case 0: case 1:
            case 2: case 3:
            case 4: case 5:
                fprintf(stderr,"%s  : %d - ",control_name[control_id],time_since_prev);
                processDirectionControl(control_id,time_since_prev,bs.GetBits(1));
                break;
            case 6:
            case 7:
            {
                v = bs.GetBits(11);
                // v = (x+pi)*(2048/2pi)
                // x = (v*(pi/1024))-pi
                float recovered = (float(v)/2048.0f)*(2*M_PI) - M_PI;
                if(control_id==6) //TODO: use camera_pyr.v[] here ?
                    camera_pyr.x = recovered;
                else
                    camera_pyr.y = recovered;
                fprintf(stderr,"Pyr %f : %f \n",camera_pyr.x,camera_pyr.y);
                break;
            }
            case 8:
                v = bs.GetBits(1);
                fprintf(stderr," C8[%d] ",v);
                if ( m_send_deltas )
                {
                    m_t1=bs.GetPackedBits(8);
                    m_t2=bs.GetPackedBits(8);
                }
                else
                {
                    m_send_deltas = true;
                    m_t1=bs.GetBits(32);
                    m_t2=bs.GetPackedBits(10);
                }
                fprintf(stderr,"t1:t2 [%d,%d] ",m_t1,m_t2);
                if(bs.GetBits(1))
                {
                    v=bs.GetBits(8);
                    fprintf(stderr,"v [%d] ",v);
                }
                break;
            case 9:
                 //a2->timerel_18
                //fprintf(stderr,"CtrlId %d  : %d - ",control_id,time_since_prev);
                fprintf(stderr,"C9:%d ",bs.GetBits(8));
                break;
            case 10:
                fprintf(stderr,"C10 : %d - ",time_since_prev);
                fprintf(stderr,"%d\n",bs.GetBits(1)); //a2->timerel_18 & 1
                break;
            default:
                assert(!"Unknown control_id");
        }

    } while(bs.GetBits(1));
}
示例#23
0
void RecvInputState::receiveControlState(BitStream &bs) // formerly partial_2
{
    uint8_t     control_id = 0;
    uint32_t    ms_since_prev = 0;
    float       angle = 0.0f;

    do
    {
        if(bs.GetBits(1))
            control_id = 8;
        else
            control_id = bs.GetBits(4);

        if(bs.GetBits(1))
            ms_since_prev = bs.GetBits(2)+32; // delta from prev event
        else
            ms_since_prev = bs.GetBits(m_next_state.m_csc_deltabits);

        if (control_id < 8)
                    m_next_state.m_input_received = true;

        m_next_state.m_ms_since_prev = ms_since_prev;

        switch(control_id)
        {
            case FORWARD: case BACKWARD:
            case LEFT: case RIGHT:
            case UP: case DOWN:
            {
                bool keypress_state = bs.GetBits(1); // get keypress state
                auto now_ms = std::chrono::steady_clock::now();
                m_next_state.m_svr_keypress_time[control_id] = now_ms - m_next_state.m_keypress_start[control_id];

                m_next_state.m_control_bits[control_id] = keypress_state; // save control_bits state
                processDirectionControl(&m_next_state, control_id, ms_since_prev, keypress_state);

                qCDebug(logInput, "key released %d", control_id);
                qCDebug(logInput, "svr vs client keypress time: %f %f : %f", 
                        m_next_state.m_svr_keypress_time[control_id].count(),
                        m_next_state.m_keypress_time[control_id], m_next_state.m_ms_since_prev);
                break;
            }
            case PITCH: // camera pitch (Insert/Delete keybinds)
            {
                angle = AngleDequantize(bs.GetBits(11),11); // pitch
                m_next_state.m_pyr_valid[0] = true;
                m_next_state.m_camera_pyr[0] = angle;
                qCDebug(logInput, "Pitch (%f): %f", m_next_state.m_orientation_pyr[0], m_next_state.m_camera_pyr.x);
                break;
            }
            case YAW: // camera yaw (Q or E keybinds)
            {
                angle = AngleDequantize(bs.GetBits(11),11); // yaw
                m_next_state.m_pyr_valid[1] = true;
                m_next_state.m_camera_pyr[1] = angle;
                qCDebug(logInput, "Yaw (%f): %f", m_next_state.m_orientation_pyr[1], m_next_state.m_camera_pyr.y);
                break;
            }
            case 8:
            {
                m_next_state.m_controls_disabled = bs.GetBits(1);
                if ( m_next_state.m_full_timeupdate ) // sent_run_physics. maybe autorun? maybe is_running?
                {
                    m_next_state.m_time_diff1 = bs.GetPackedBits(8);   // value - previous_value
                    m_next_state.m_time_diff2 = bs.GetPackedBits(8);   // time - previous_time
                }
                else
                {
                    m_next_state.m_full_timeupdate = true;
                    m_next_state.m_time_diff1 = bs.GetBits(32);       // value
                    m_next_state.m_time_diff2 = bs.GetPackedBits(10); // value - time
                }

                /*
                qCDebug(logMovement, "Controls Disabled: %d  time_diff1: %d \t time_diff2: %d",
                        m_next_state.m_controls_disabled, m_next_state.m_time_diff1, m_next_state.m_time_diff2);
                */

                if(bs.GetBits(1)) // if true velocity scale < 255
                {
                    m_next_state.m_velocity_scale = bs.GetBits(8);
                    qCDebug(logInput, "Velocity Scale: %d", m_next_state.m_velocity_scale);
                }
                else
                    m_next_state.m_velocity_scale = 255;

                break;
            }
            case 9:
            {
                m_next_state.m_every_4_ticks = bs.GetBits(8); // value goes to 0 every 4 ticks. Some kind of send_partial flag

                if(m_next_state.m_every_4_ticks != 1)
                    qCDebug(logInput, "This goes to 0 every 4 ticks: %d", m_next_state.m_every_4_ticks);

                break;
            }
            case 10:
            {
                m_next_state.m_no_collision = bs.GetBits(1);
                qCDebug(logInput, "Collision: %d", m_next_state.m_no_collision);
                break;
            }
            default:
                assert(!"Unknown control_id");
        }

    } while(bs.GetBits(1));

    //qCDebug(logInput, "recv control_id 9 %f", m_next_state.m_every_4_ticks);
}
示例#24
0
void InputState::partial_2(BitStream &bs)
{
    uint8_t control_id;
    //uint16_t v6;
    uint16_t time_since_prev;
    int v;
    static const char *control_name[] = {"FORWARD",
                                         "BACK",
                                         "LEFT",
                                         "RIGHT",
                                         "UP",
                                         "DOWN"};
    do
    {
        if(bs.GetBits(1))
            control_id = 8;
        else
            control_id = bs.GetBits(4);

        if(bs.GetBits(1))
            time_since_prev=bs.GetBits(2)+32; // delta from prev event
        else
            time_since_prev=bs.GetBits(m_data.m_csc_deltabits);
        switch(control_id)
        {
            case 0: case 1:
            case 2: case 3:
            case 4: case 5:
#ifdef DEBUG_INPUT
                fprintf(stderr,"%s  : %d - ",control_name[control_id],time_since_prev);
#endif
                m_data.processDirectionControl(control_id,time_since_prev,bs.GetBits(1));
                break;
            case 6:
            case 7:
            {
                v = bs.GetBits(11);
                // v = (x+pi)*(2048/2pi)
                // x = (v*(pi/1024))-pi
                float recovered = (float(v)/2048.0f)*(2*M_PI) - M_PI;
                m_data.pyr_valid[control_id==7] = true;
                if(control_id==6) //TODO: use camera_pyr.v[] here ?
                    m_data.camera_pyr[0] = recovered;
                else
                    m_data.camera_pyr[1] = recovered;
                fprintf(stderr,"Pyr %f : %f \n",m_data.camera_pyr.x,m_data.camera_pyr.y);
                break;
            }
            case 8:
                v = bs.GetBits(1);
#ifdef DEBUG_INPUT
                fprintf(stderr," C8[%d] ",v);
#endif
                if ( m_data.m_send_deltas )
                {
                    m_data.m_t1=bs.GetPackedBits(8);   // value - previous_value
                    m_data.m_t2=bs.GetPackedBits(8);   // time - previous_time
                }
                else
                {
                    m_data.m_send_deltas = true;
                    m_data.m_t1=bs.GetBits(32);       // value
                    m_data.m_t2=bs.GetPackedBits(10); // value - time
                }
#ifdef DEBUG_INPUT
                fprintf(stderr,"t1:t2 [%d,%d] ",m_data.m_t1,m_data.m_t2);
#endif
                if(bs.GetBits(1))
                {
                    m_data.field_20=bs.GetBits(8);
#ifdef DEBUG_INPUT
                fprintf(stderr,"v [%d] ",v);
#endif
                }
                break;
            case 9:
            {
                //a2->timerel_18
                //fprintf(stderr,"CtrlId %d  : %d - ",control_id,time_since_prev);
                uint8_t s=bs.GetBits(8);
#ifdef DEBUG_INPUT
                fprintf(stderr,"C9:%d ",s);
#endif
            }
                break;
            case 10: {
                uint8_t s=bs.GetBits(1);

#ifdef DEBUG_INPUT
                fprintf(stderr,"C10 : %d - ",time_since_prev);
                fprintf(stderr,"%d\n",s); //a2->timerel_18 & 1
#endif
            }
                break;
            default:
                assert(!"Unknown control_id");
        }

    } while(bs.GetBits(1));
}
示例#25
0
文件: block.cpp 项目: PCDS/paraDSRC
// ********************************************************************************************
void Block::Read(BitStream &bit_stream, LzMatcher &lz_matcher, std::vector<Field> &fields, uint32 n_fields,
	uint32 fastq_flags, std::vector<uchar> &symbols, HuffmanEncoder *Huffman_sym,
	std::vector<uchar> &qualities, std::vector<HuffmanEncoder*> &Huffman_qua, 
	uint32 max_run_len, std::vector<HuffmanEncoder*> &Huffman_run, uint32 n_qualities, 
	uint32 _global_max_sequence_length, uint32 max_quality_length, uint32 block_no, 
	uint32 quality_stats_mode, bool extracting)
{
	global_max_sequence_length = _global_max_sequence_length;

#if (D_RESERVE_BYTES_PER_BLOCK)
	{
		uchar bytes[Block::RESERVED_BYTES];
		bit_stream.GetBytes(bytes, Block::RESERVED_BYTES);
		for (uint32 i = 0; i < Block::RESERVED_BYTES; ++i)
		{
			my_assert(bytes[i] == INVALID_BYTE);
		}
	}
#endif

	no_of_amb.resize(rec_count);
	for (uint32 i = 0; i < rec_count; ++i)
	{
		records[i].Reset();
		no_of_amb[i] = 0;
	}

	int32 quality_len_bits = BitStream::BitLength(max_quality_length);
	if ((fastq_flags & FLAG_PLUS_ONLY) == 0)
	{
		for (uint32 i = 0; i < rec_count; ++i)
		{
			bit_stream.GetBit(records[i].plus_len);
		}
	}
	else
	{
		for (uint32 i = 0; i < rec_count; ++i)
		{
			records[i].plus_len = 1;
		}
	}

	if ((fastq_flags & FLAG_VARIABLE_LENGTH) != 0)
	{
		uint32 tmp;
		for (uint32 i = 0; i < rec_count; ++i)
		{
			FastqRecord& rec = records[i];
			bit_stream.GetBits(tmp, quality_len_bits);
			rec.quality_len = tmp;
			rec.ExtendTo(rec.quality, rec.quality_size, tmp+2);
			rec.sequence_len = tmp;
			rec.ExtendTo(rec.sequence, rec.sequence_size, tmp+2);
		}
	}
	else
	{
		for (uint32 i = 0; i < rec_count; ++i)
		{
			FastqRecord& rec = records[i];
			rec.quality_len = max_quality_length;
			rec.ExtendTo(rec.quality, rec.quality_size, max_quality_length+2);
			rec.sequence_len = global_max_sequence_length;
			rec.ExtendTo(rec.sequence, rec.sequence_size, global_max_sequence_length+2);
		}
	}

	if ((fastq_flags & FLAG_LINE_BREAKS) != 0)
	{
		uint32 line_breaks_bits;
		bit_stream.GetBits(line_breaks_bits, 5);
		uint32 tmp;

		for (uint32 i = 0; i < rec_count; ++i)
		{
			FastqRecord& rec = records[i];
			if (rec.sequence_breaks)
			{
				delete rec.sequence_breaks;
				rec.sequence_breaks = NULL;
			}

			bit_stream.GetBits(tmp, line_breaks_bits);
			while (tmp != 0)
			{
				if (!rec.sequence_breaks)
				{
					rec.sequence_breaks = new std::vector<int>;
				}
				rec.sequence_breaks->push_back(tmp);

				bit_stream.GetBits(tmp, line_breaks_bits);
			}


			if (rec.quality_breaks)
			{
				delete rec.quality_breaks;
				rec.quality_breaks = NULL;
			}
			bit_stream.GetBits(tmp, line_breaks_bits);
			while (tmp != 0)
			{
				if (!rec.quality_breaks)
				{
					rec.quality_breaks = new std::vector<int>;
				}
				rec.quality_breaks->push_back(tmp);

				bit_stream.GetBits(tmp, line_breaks_bits);
			}
		}
	}
	bit_stream.FlushInputWordBuffer();


	bool is_num_fields_constant = (fastq_flags & FLAG_CONST_NUM_FIELDS) != 0;
	ReadTitle(bit_stream, fields, n_fields, block_no, is_num_fields_constant);

	if (quality_stats_mode == QUALITY_RLE)
	{
		ReadQualityRLE(bit_stream, qualities, Huffman_qua, n_qualities, Huffman_run, max_run_len);
		MakeUnRLE();
	}
	else
	{
		bool use_trunc_h = quality_stats_mode == QUALITY_PLAIN_TRUNC;
		bool uses_const_delta = (fastq_flags & (FLAG_USE_DELTA | FLAG_DELTA_CONSTANT)) ==  (FLAG_USE_DELTA | FLAG_DELTA_CONSTANT);
		ReadQualityPlain(bit_stream, qualities, Huffman_qua, n_qualities, use_trunc_h, uses_const_delta);
	}

	bool try_lz = (fastq_flags & FLAG_TRY_LZ) != 0;
	if ((fastq_flags & FLAG_DNA_PLAIN) != 0)
	{
		ReadDNAPlain(bit_stream, lz_matcher, symbols, try_lz, extracting);
	}
	else
	{
		ReadDNAHuf(bit_stream, lz_matcher, symbols, Huffman_sym, try_lz, extracting);	// lz_matches not supported when Huffman encoding
	}

#if (D_COMPUTE_RECORDS_CRC_PER_BLOCK)
	uint32 hash;
	bit_stream.GetWord(hash);
	my_assert(hash == ComputeRecordsCrc32());
#endif
}
示例#26
0
文件: block.cpp 项目: PCDS/paraDSRC
// ********************************************************************************************
void Block::ReadTitle(BitStream &bit_stream, std::vector<Field> &fields, uint32 n_fields, int32 block_no, bool is_num_fields_constant)
{
	prev_value.resize(n_fields);
	uint32 n_fields_bits = BitStream::BitLength(n_fields);

	uint32 tmp = 0;
	for (uint32 i = 0; i < n_fields; ++i)
	{
		if (fields[i].is_constant)
			continue;

		prev_value[i] = 0;
		if (!fields[i].is_numeric)
		{
			bit_stream.GetBit(tmp);
			fields[i].block_desc[block_no].is_block_constant = tmp != 0;
		}
		else
		{
			bit_stream.GetBit(tmp);
			if (fields[i].is_delta_coding)
			{
				fields[i].block_desc[block_no].is_block_delta_constant = tmp != 0;
			}
			else
			{
				fields[i].block_desc[block_no].is_block_value_constant = tmp != 0;
			}
		}		
	}

	for (uint32 i = 0; i < rec_count; ++i)
	{
		FastqRecord& cur_rec = records[i];

		uint32 cn_fields = n_fields;
		if (!is_num_fields_constant)
		{
			bit_stream.GetBits(tmp, n_fields_bits);
			cn_fields = tmp;
		}

		for (uint32 j = 0; j < cn_fields; ++j)
		{
			Field &cur_field = fields[j];
			if (cur_field.is_constant)
			{
				cur_rec.AppendTitle(cur_field.data, cur_field.len);
				cur_rec.AppendTitle(cur_field.sep);
				continue;
			}
			if (cur_field.is_numeric)
			{
				uint32 num_val = 0;

				if (cur_rec.title_len + 10 >= cur_rec.title_size)
				{
					cur_rec.Extend(cur_rec.title, cur_rec.title_size);
				}
				if (i == 0)
				{
					bit_stream.GetBits(num_val, cur_field.no_of_bits_per_value);
					num_val += cur_field.min_value;
					cur_rec.title_len += utils::to_string(cur_rec.title+cur_rec.title_len, num_val);
					prev_value[j] = num_val;
				}
				else
				{
					if ((cur_field.is_delta_coding && !cur_field.block_desc[block_no].is_block_delta_constant) ||
						(!cur_field.is_delta_coding && !cur_field.block_desc[block_no].is_block_value_constant))
					{
						if (cur_field.no_of_bits_per_num > 0)
						{
							if (cur_field.Huffman_global)
							{
								uint32 bit;
								int32 h_tmp;

								bit_stream.GetBits(bit, cur_field.Huffman_global->GetMinLen());
								h_tmp = cur_field.Huffman_global->DecodeFast(bit);

								while (h_tmp < 0)
								{
									bit_stream.GetBit(bit);
									h_tmp = cur_field.Huffman_global->Decode(bit);
								};

								num_val = h_tmp;
							}
							else
							{
								bit_stream.GetBits(num_val, cur_field.no_of_bits_per_num);
							}
						}
						else
						{
							num_val = 0;
						}
					}
					else
					{
						if (cur_field.is_delta_coding)
						{
							num_val = 0;
						}
						else
						{
							num_val = prev_value[j] - cur_field.min_value;
						}
					}

					if (cur_field.is_delta_coding)
					{
						num_val += prev_value[j] + cur_field.min_delta;
					}
					else
					{
						num_val += cur_field.min_value;
					}

					cur_rec.title_len += utils::to_string(cur_rec.title+cur_rec.title_len, num_val);
					prev_value[j] = num_val;
				}
				cur_rec.AppendTitle(cur_field.sep);

				continue;
			}

			if (i > 0 && cur_field.block_desc[block_no].is_block_constant)
			{
				cur_rec.AppendTitle(records[0].title+cur_field.block_str_start, cur_field.block_str_len);
				cur_rec.AppendTitle(cur_field.sep);
				continue;
			}

			uint32 field_len;
			if (!cur_field.is_len_constant)
			{
				bit_stream.GetBits(field_len, cur_field.no_of_bits_per_len);			
				field_len += cur_field.min_len;
			}
			else
			{
				field_len = cur_field.len;
			}
			
			for (uint32 k = 0; k < field_len; ++k)
			{
				if (k < cur_field.len && cur_field.Ham_mask[k])
				{
					cur_rec.AppendTitle(cur_field.data[k]);
				}
				else
				{
					uint32 bit;
					int32 h_tmp;
					HuffmanEncoder *cur_huf = cur_field.Huffman_local[MIN(k, Superblock::MAX_FIELD_STAT_LEN)]; 

					bit_stream.GetBits(bit, cur_huf->GetMinLen());
					h_tmp = cur_huf->DecodeFast(bit);

					while (h_tmp < 0)
					{
						bit_stream.GetBit(bit);
						h_tmp = cur_huf->Decode(bit);
					};

					tmp = h_tmp;
					cur_rec.AppendTitle((uchar) tmp);
				}
			}
			if (i == 0 && cur_field.block_desc[block_no].is_block_constant)
			{
				cur_field.block_str_start = cur_rec.title_len - field_len;
				cur_field.block_str_len = field_len;
			}

			cur_rec.AppendTitle(cur_field.sep);
		}

		cur_rec.title_len--;			// do not count last '\0' symbols
		cur_rec.plus[0] = '+';
		if (cur_rec.plus_len == 1)
		{
			cur_rec.plus[1] = '\0';
		}
		else
		{
			cur_rec.plus_len = cur_rec.title_len;
			cur_rec.ExtendTo(cur_rec.plus, cur_rec.plus_size, cur_rec.title_len+2);
			std::copy(cur_rec.title+1, cur_rec.title+cur_rec.title_len, cur_rec.plus+1);
		}
	}
	bit_stream.FlushInputWordBuffer();
}
示例#27
0
文件: block.cpp 项目: PCDS/paraDSRC
// ********************************************************************************************
void Block::ReadDNAHuf(BitStream &bit_stream, LzMatcher &lz_matcher, std::vector<uchar> &symbols, HuffmanEncoder *Huffman_sym, bool try_lz, bool extracting)
{
	// Info about LZ matches
	lz_matches.resize(rec_count);
	
	for (uint32 i = 0; i < rec_count; ++i)
	{
		records[i].sequence_len = records[i].quality_len - no_of_amb[i];
	}

	if (try_lz)
	{
		ReadLzMatches(bit_stream, lz_matcher);

		for (uint32 i = 0; i < rec_count; ++i)
		{
			if (!extracting)
				DecodeLzMatches(lz_matcher, i);

			uint32 cur_sequence_len = records[i].sequence_len;
			uchar *cur_sequence = records[i].sequence;
			for (uint32 j = lz_matches[i].length; j < cur_sequence_len; ++j)
			{
				// Symbols
				uint32 bit;
				bit_stream.GetBits(bit, Huffman_sym->GetMinLen());
				int32 h_tmp = Huffman_sym->DecodeFast(bit);
				while (h_tmp < 0)
				{
					bit_stream.GetBit(bit);
					h_tmp = Huffman_sym->Decode(bit);
				};

				cur_sequence[j] = symbols[h_tmp];
			}	
			cur_sequence[cur_sequence_len] = '\0';

			if (!extracting)
				DecodeLzMatches_Insert(lz_matcher, i);
		}
	}
	else
	{
		for (uint32 i = 0; i < rec_count; ++i)
		{
			lz_matches[i].length = 0;
			uint32 cur_sequence_len = records[i].sequence_len;
			uchar *cur_sequence = records[i].sequence;
			for (uint32 j = lz_matches[i].length; j < cur_sequence_len; ++j)
			{
				// Symbols
				uint32 bit;
				bit_stream.GetBits(bit, Huffman_sym->GetMinLen());
				int32 h_tmp = Huffman_sym->DecodeFast(bit);
				while (h_tmp < 0)
				{
					bit_stream.GetBit(bit);
					h_tmp = Huffman_sym->Decode(bit);
				};

				cur_sequence[j] = symbols[h_tmp];
			}	
			cur_sequence[cur_sequence_len] = '\0';
		}
	}
	bit_stream.FlushInputWordBuffer();
}
示例#28
0
void NetStructure::getTransformMatrix( BitStream &bs,Matrix4x3 &src )
{
    if(bs.GetBits(1))
        assert(!"PACKED ARRAY RECEIVED!");
    bs.GetBitArray((uint8_t*)&src,12*4*8);
}