1 | #ifndef FACT_HeadersFTM
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2 | #define FACT_HeadersFTM
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3 |
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4 | #include <ostream>
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5 |
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6 | // For debugging
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7 | #include <iostream>
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8 |
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9 | #include "ByteOrder.h"
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10 |
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11 | // ====================================================================
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12 |
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13 |
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14 | namespace FTM
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15 | {
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16 | enum States
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17 | {
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18 | kFtmUndefined = 0,
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19 |
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20 | // FTM internal states
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21 | kFtmIdle = 1, ///< Trigger output disabled, configuration possible
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22 | kFtmConfig = 2, ///< FTM and FTUs are being reconfigured
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23 | kFtmRunning = 3, ///< Trigger output enabled, configuration ignored
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24 | kFtmCalib = 4,
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25 |
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26 | kFtmStates = 0x0ff,
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27 | kFtmLocked = 0x100,
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28 |
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29 | };
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30 |
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31 | // idle: not locked: 0x2711
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32 | // running: not locked: 0x2713
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33 |
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34 | enum StateMachine
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35 | {
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36 | kDisconnected = 1, //ConnectionFTM::kDisconnected,
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37 | kConnected ,//= ConnectionFTM::kConnected,
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38 | kIdle ,//= ConnectionFTM::kIdle,
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39 | kTakingData ,//= ConnectionFTM::kTakingData,
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40 | kConfiguring1,
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41 | kConfiguring2,
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42 | kConfigured,
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43 |
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44 | kConfigError1 = 0x101,
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45 | kConfigError2 = 0x102,
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46 |
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47 | kCmdTest
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48 | };
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49 |
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50 | /// Command codes for FTM communication
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51 | enum Commands
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52 | {
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53 | // First word
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54 | kCmdRead = 0x0001, ///< Request data
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55 | kCmdWrite = 0x0002, ///< Send data
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56 | kCmdStartRun = 0x0004, ///< Enable the trigger output
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57 | kCmdStopRun = 0x0008, ///< Disable the trigger output
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58 | kCmdPing = 0x0010, ///< Ping all FTUs (get FTU list)
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59 | kCmdCrateReset = 0x0020, ///< Reboot (no power cycle) all FTUs and FADs of one crate
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60 | kCmdDisableReports = 0x0040, ///< Disable transmission of rate-reports (dynamic data)
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61 | kCmdConfigFTU = 0x0080, ///< Configure single FTU board
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62 | kCmdToggleLed = 0xc000,
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63 |
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64 | // second word for read and write
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65 | kCmdStaticData = 0x0001, ///< Specifies that static (configuration) data is read/written
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66 | kCmdDynamicData = 0x0002, ///< Specifies that dynamic data is read/written
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67 | kCmdRegister = 0x0004, ///< Specifies that a register is read/written
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68 |
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69 | // second word for StartRun
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70 | kStartRun = 0x0001, ///< ...until kCmdStopRun
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71 | kTakeNevents = 0x0002, ///< ...fixed number of events
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72 |
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73 | // second word for kCmdCrateReset
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74 | kResetCrate0 = 0x0001,
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75 | kResetCrate1 = 0x0002,
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76 | kResetCrate2 = 0x0004,
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77 | kResetCrate3 = 0x0008,
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78 | };
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79 |
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80 |
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81 | /// Types sent in the header of the following data
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82 | enum Types
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83 | {
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84 | kHeader = 0, ///< Local extension to identify a header in fCounter
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85 | kStaticData = 1, ///< Static (configuration) data
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86 | kDynamicData = 2, ///< Dynamic data (rates)
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87 | kFtuList = 3, ///< FTU list (answer of ping)
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88 | kErrorList = 4, ///< Error list (error when FTU communication failed)
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89 | kRegister = 5, ///< A requested register value
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90 | };
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91 |
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92 | // --------------------------------------------------------------------
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93 |
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94 | enum Delimiter
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95 | {
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96 | kDelimiterStart = 0xfb01, ///< Start delimiter send before each header
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97 | kDelimiterEnd = 0x04fe ///< End delimiter send after each data block
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98 | };
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99 |
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100 | struct Header
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101 | {
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102 | uint16_t fDelimiter; ///< Start delimiter
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103 | uint16_t fType; ///< Type of the data to be received after the header
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104 | uint16_t fDataSize; ///< Size in words to be received after the header (incl end delim.)
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105 | uint16_t fState; ///< State of the FTM central state machine
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106 | uint64_t fBoardId; ///< FPGA device DNA (unique chip id)
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107 | uint16_t fFirmwareId; ///< Version number
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108 | uint32_t fTriggerCounter; ///< FTM internal counter of all trigger decision independant of trigger-line enable/disable (reset: start/stop run)
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109 | uint64_t fTimeStamp; ///< Internal counter (micro-seconds, reset: start/stop run)
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110 |
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111 | Header() { init(*this); }
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112 |
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113 | std::vector<uint16_t> HtoN() const
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114 | {
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115 | Header h(*this);
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116 |
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117 | Reverse(&h.fBoardId);
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118 | Reverse(&h.fTriggerCounter);
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119 | Reverse(&h.fTimeStamp);
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120 |
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121 | return htoncpy(h);
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122 | }
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123 | void operator=(const std::vector<uint16_t> &vec)
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124 | {
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125 | ntohcpy(vec, *this);
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126 |
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127 | Reverse(&fBoardId);
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128 | Reverse(&fTriggerCounter);
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129 | Reverse(&fTimeStamp);
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130 | }
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131 |
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132 | void clear() { reset(*this); }
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133 | void print(std::ostream &out) const;
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134 |
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135 | } __attribute__((__packed__));
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136 |
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137 | struct DimPassport
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138 | {
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139 | uint64_t fBoardId;
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140 | uint16_t fFirmwareId;
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141 |
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142 | DimPassport(const Header &h) :
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143 | fBoardId(h.fBoardId),
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144 | fFirmwareId(h.fFirmwareId)
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145 | {
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146 | }
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147 | } __attribute__((__packed__));
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148 |
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149 | /*
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150 | struct DimTriggerCounter
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151 | {
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152 | uint64_t fTimeStamp;
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153 | uint32_t fTriggerCounter;
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154 |
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155 | DimTriggerCounter(const Header &h) :
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156 | fTimeStamp(h.fTimeStamp),
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157 | fTriggerCounter(h.fTriggerCounter)
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158 | {
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159 | }
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160 | } __attribute__((__packed__));
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161 | */
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162 |
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163 | struct StaticDataBoard
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164 | {
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165 | uint16_t fEnable[4]; /// enable of 4x9 pixels coded as 4x9bits
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166 | uint16_t fDAC[5]; /// 0-3 (A-D) Threshold of patches, 4 (H) Threshold for N out of 4 (12 bit each)
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167 | uint16_t fPrescaling; /// Internal readout time of FTUs for trigger counter
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168 |
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169 | StaticDataBoard() { init(*this); }
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170 |
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171 | void print(std::ostream &out) const;
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172 |
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173 | } __attribute__((__packed__));
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174 |
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175 | struct StaticData
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176 | {
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177 | enum Limits
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178 | {
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179 | kMaxMultiplicity = 40, ///< Minimum required trigger multiplicity
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180 | kMaxWindow = 0xf, ///< (4ns * x + 8ns) At least N (multiplicity) rising edges (trigger signal) within this window
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181 | kMaxDeadTime = 0xffff, ///< (4ns * x + 8ns)
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182 | kMaxDelayTimeMarker = 0x3ff, ///< (4ns * x + 8ns)
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183 | kMaxDelayTrigger = 0x3ff, ///< (4ns * x + 8ns)
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184 | kMaxTriggerInterval = 0x3ff, ///<
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185 | kMaxIntensity = 0x7f,
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186 | kMaxSequence = 0x1f,
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187 | kMaxDAC = 0xfff,
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188 | kMaxAddr = 0xfff,
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189 | kMaxPatchIdx = 159,
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190 | kMaxPixelIdx = 1439,
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191 | kMaskSettings = 0xf,
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192 | kMaskLEDs = 0xf,
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193 | };
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194 |
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195 | enum GeneralSettings
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196 | {
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197 | kTrigger = 0x80, ///< Physics trigger decision (PhysicTrigger)
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198 | kPedestal = 0x40, ///< Pedestal trigger (artifical)
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199 | kLPint = 0x20, ///< Enable artificial trigger after light pulse (LP2)
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200 | kLPext = 0x10, ///< Enable trigger decision after light pulse (CalibrationTrigger, LP1)
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201 | kExt2 = 0x08, ///< External trigger signal 2
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202 | kExt1 = 0x04, ///< External trigger signal 1
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203 | kVeto = 0x02, ///< Veto trigger decision / artifical triggers
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204 | kClockConditioner = 0x01, ///< Select clock conditioner frequency (1) / time marker (0) as output
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205 | };
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206 |
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207 | enum LightPulserEnable
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208 | {
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209 | kGroup1 = 0x40,
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210 | kGroup2 = 0x80,
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211 | };
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212 |
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213 | uint16_t fGeneralSettings; /// Enable for different trigger types / select for TIM/ClockConditioner output (only 8 bit used)
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214 | uint16_t fStatusLEDs; /// only 8 bit used
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215 | uint16_t fTriggerInterval; /// [ms] Interval between two artificial triggers (no matter which type) minimum 1ms, 10 bit
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216 | uint16_t fTriggerSequence; /// Ratio between trigger types send as artificial trigger (in this order) 3x5bit
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217 | uint8_t fIntensityLPext; /// Intensity of LEDs (0-127)
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218 | uint8_t fEnableLPext; /// Enable for LED group 1/2 (LightPulserEnable)
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219 | uint8_t fIntensityLPint; /// Intensity of LEDs (0-127)
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220 | uint8_t fEnableLPint; /// Enable for LED group 1/2 (LightPulserEnable)
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221 | uint32_t fDummy0;
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222 | uint16_t fMultiplicityPhysics; /// Required trigger multiplicity for physcis triggers (0-40)
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223 | uint16_t fMultiplicityCalib; /// Required trigger multiplicity calibration (LPext) triggers (0-40)
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224 | uint16_t fDelayTrigger; /// (4ns * x + 8ns) FTM internal programmable delay between trigger decision and output
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225 | uint16_t fDelayTimeMarker; /// (4ns * x + 8ns) FTM internal programmable delay between trigger descision and time marker output
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226 | uint16_t fDeadTime; /// (4ns * x + 8ns) FTM internal programmable dead time after trigger decision
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227 | uint32_t fClockConditioner[8]; /// R0, R1, R8, R9, R11, R13, R14, R15
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228 | uint16_t fWindowPhysics; /// (4ns * x + 8ns) At least N (multiplicity) rising edges (trigger signal) within this window
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229 | uint16_t fWindowCalib; /// (4ns * x + 8ns) At least N (multiplicity) rising edges (trigger signal) within this window
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230 | uint16_t fDummy1;
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231 |
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232 | StaticDataBoard fBoard[4][10]; // 4 crates * 10 boards (Crate0/FTU0 == readout time of FTUs)
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233 |
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234 | uint16_t fActiveFTU[4]; // 4 crates * 10 bits (FTU enable)
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235 |
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236 | StaticData() { init(*this); }
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237 | StaticData(const std::vector<uint16_t> &vec)
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238 | {
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239 | ntohcpy(vec, *this);
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240 |
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241 | for (int i=0; i<8; i++)
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242 | Reverse(fClockConditioner+i);
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243 | }
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244 |
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245 | std::vector<uint16_t> HtoN() const
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246 | {
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247 | StaticData d(*this);
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248 | for (int i=0; i<8; i++)
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249 | Reverse(d.fClockConditioner+i);
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250 |
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251 | return htoncpy(d);
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252 | }
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253 |
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254 | bool operator==(const StaticData &d) const
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255 | {
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256 | return memcmp(this, &d, sizeof(StaticData))==0;
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257 | }
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258 |
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259 | void clear() { reset(*this); }
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260 | void print(std::ostream &out) const;
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261 |
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262 | StaticDataBoard &operator[](int i) { return fBoard[i/10][i%10]; }
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263 | const StaticDataBoard &operator[](int i) const { return fBoard[i/10][i%10]; }
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264 |
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265 | void EnableFTU(int i) { fActiveFTU[i/10] |= (1<<(i%10)); }
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266 | void DisableFTU(int i) { fActiveFTU[i/10] &= ~(1<<(i%10)); }
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267 |
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268 | void EnableAllFTU() { for (int i=0; i<4; i++) fActiveFTU[i] = 0x3ff; }
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269 | void DisableAllFTU() { for (int i=0; i<4; i++) fActiveFTU[i] = 0; }
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270 |
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271 | void EnableLPint(LightPulserEnable group, bool enable)
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272 | {
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273 | if (enable)
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274 | fEnableLPint |= group;
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275 | else
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276 | fEnableLPint &= ~group;
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277 | }
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278 |
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279 | void EnableLPext(LightPulserEnable group, bool enable)
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280 | {
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281 | if (enable)
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282 | fEnableLPext |= group;
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283 | else
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284 | fEnableLPext &= ~group;
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285 | }
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286 |
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287 | void ToggleFTU(int i) { fActiveFTU[i/10] ^= (1<<(i%10)); }
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288 |
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289 | void Enable(GeneralSettings type, bool enable)
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290 | {
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291 | if (enable)
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292 | fGeneralSettings |= uint16_t(type);
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293 | else
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294 | fGeneralSettings &= ~uint16_t(type);
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295 | }
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296 |
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297 | bool IsEnabled(GeneralSettings type) const { return fGeneralSettings&uint16_t(type); }
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298 |
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299 | uint16_t *EnablePixel(int idx, bool enable)
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300 | {
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301 | const int pixel = idx%9;
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302 | const int patch = (idx/9)%4;
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303 | const int board = (idx/9)/4;
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304 |
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305 | uint16_t &pix = fBoard[board/10][board%10].fEnable[patch];
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306 |
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307 | if (enable)
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308 | pix |= (1<<pixel);
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309 | else
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310 | pix &= ~(1<<pixel);
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311 |
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312 | return &pix;
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313 | }
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314 |
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315 | void EnablePatch(int idx, bool enable)
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316 | {
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317 | const int patch = idx%4;
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318 | const int board = idx/4;
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319 |
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320 | fBoard[board/10][board%10].fEnable[patch] = enable ? 0x1ff : 0;
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321 | }
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322 |
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323 | void EnableAllPixel()
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324 | {
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325 | for (int c=0; c<4; c++)
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326 | for (int b=0; b<10; b++)
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327 | for (int p=0; p<4; p++)
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328 | fBoard[c][b].fEnable[p] = 0x1ff;
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329 | }
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330 |
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331 | bool Enabled(uint16_t idx) const
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332 | {
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333 | const int pixel = idx%9;
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334 | const int patch = (idx/9)%4;
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335 | const int board = (idx/9)/4;
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336 |
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337 | return (fBoard[board/10][board%10].fEnable[patch]>>pixel)&1;
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338 | }
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339 |
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340 | uint8_t GetSequencePed() const { return (fTriggerSequence>>10)&0x1f; }
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341 | uint8_t GetSequenceLPint() const { return (fTriggerSequence>> 5)&0x1f; }
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342 | uint8_t GetSequenceLPext() const { return (fTriggerSequence) &0x1f; }
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343 |
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344 | void SetSequence(uint8_t ped, uint8_t lpint, uint8_t lpext)
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345 | {
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346 | fTriggerSequence = ((ped&0x1f)<<10)|((lpint&0x1f)<<5)|(lpext&0x1f);
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347 |
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348 | Enable(kPedestal, ped >0);
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349 | Enable(kLPext, lpext>0);
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350 | Enable(kLPint, lpint>0);
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351 | }
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352 |
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353 | void SetClockRegister(const uint64_t reg[])
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354 | {
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355 | for (int i=0; i<8; i++)
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356 | fClockConditioner[i] = reg[i];
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357 | }
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358 |
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359 | void SetPrescaling(uint16_t val)
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360 | {
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361 | for (int c=0; c<4; c++)
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362 | for (int b=0; b<10; b++)
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363 | fBoard[c][b].fPrescaling = val;
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364 | }
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365 |
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366 | } __attribute__((__packed__));
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367 |
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368 | // DimStructures must be a multiple of two... I don't know why
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369 | struct DimStaticData
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370 | {
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371 | uint64_t fTimeStamp;
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372 | //8
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373 | uint16_t fGeneralSettings; // only 8 bit used
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374 | uint16_t fStatusLEDs; // only 8 bit used
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375 | uint64_t fActiveFTU; // 40 bits in row
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376 | //20
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377 | uint16_t fTriggerInterval; // only 10 bit used
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378 | //22
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379 | uint16_t fTriggerSeqLPint; // only 5bits used
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380 | uint16_t fTriggerSeqLPext; // only 5bits used
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381 | uint16_t fTriggerSeqPed; // only 5bits used
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382 | // 28
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383 | uint8_t fEnableLPint; /// Enable for LED group 1/2 (LightPulserEnable)
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384 | uint8_t fEnableLPext; /// Enable for LED group 1/2 (LightPulserEnable)
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385 | uint8_t fIntensityLPint; /// Intensity of LEDs (0-127)
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386 | uint8_t fIntensityLPext; /// Intensity of LEDs (0-127)
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387 | //32
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388 | uint16_t fMultiplicityPhysics; // 0-40
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389 | uint16_t fMultiplicityCalib; // 0-40
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390 | //36
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391 | uint16_t fWindowPhysics;
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392 | uint16_t fWindowCalib;
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393 | //40
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394 | uint16_t fDelayTrigger;
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395 | uint16_t fDelayTimeMarker;
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396 | uint32_t fDeadTime;
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397 | //48
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398 | uint32_t fClockConditioner[8];
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399 | //64
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400 | uint16_t fEnable[90]; // 160*9bit = 180byte
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401 | uint16_t fThreshold[160];
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402 | uint16_t fMultiplicity[40]; // N out of 4
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403 | uint16_t fPrescaling[40];
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404 | // 640+64 = 704
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405 |
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406 | bool HasTrigger() const { return fGeneralSettings & StaticData::kTrigger; }
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407 | bool HasPedestal() const { return fGeneralSettings & StaticData::kPedestal; }
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408 | bool HasLPext() const { return fGeneralSettings & StaticData::kLPext; }
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409 | bool HasLPint() const { return fGeneralSettings & StaticData::kLPint; }
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410 | bool HasExt2() const { return fGeneralSettings & StaticData::kExt2; }
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411 | bool HasExt1() const { return fGeneralSettings & StaticData::kExt1; }
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412 | bool HasVeto() const { return fGeneralSettings & StaticData::kVeto; }
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413 | bool HasClockConditioner() const { return fGeneralSettings & StaticData::kClockConditioner; }
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414 |
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415 | bool HasLPextG1() const { return fEnableLPext&StaticData::kGroup1; }
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416 | bool HasLPextG2() const { return fEnableLPext&StaticData::kGroup2; }
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417 | bool HasLPintG1() const { return fEnableLPint&StaticData::kGroup1; }
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418 | bool HasLPintG2() const { return fEnableLPint&StaticData::kGroup2; }
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419 |
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420 | bool IsActive(int i) const { return fActiveFTU&(uint64_t(1)<<i); }
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421 | bool IsEnabled(int i) const { return fEnable[i/16]&(1<<(i%16)); }
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422 |
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423 | DimStaticData() { memset(this, 0, sizeof(DimStaticData)); }
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424 |
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425 | DimStaticData(const Header &h, const StaticData &d) :
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426 | fTimeStamp(h.fTimeStamp),
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427 | fGeneralSettings(d.fGeneralSettings),
|
---|
428 | fStatusLEDs(d.fStatusLEDs),
|
---|
429 | fActiveFTU( uint64_t(d.fActiveFTU[0]) |
|
---|
430 | (uint64_t(d.fActiveFTU[1])<<10) |
|
---|
431 | (uint64_t(d.fActiveFTU[2])<<20) |
|
---|
432 | (uint64_t(d.fActiveFTU[3])<<30)),
|
---|
433 | fTriggerInterval(d.fTriggerInterval),
|
---|
434 | fTriggerSeqLPint((d.fTriggerSequence>>5)&0x1f),
|
---|
435 | fTriggerSeqLPext((d.fTriggerSequence)&0x1f),
|
---|
436 | fTriggerSeqPed((d.fTriggerSequence>>10)&0x1f),
|
---|
437 | fEnableLPint(d.fEnableLPint),
|
---|
438 | fEnableLPext(d.fEnableLPext),
|
---|
439 | fIntensityLPint(d.fIntensityLPint),
|
---|
440 | fIntensityLPext(d.fIntensityLPext),
|
---|
441 | fMultiplicityPhysics(d.fMultiplicityPhysics),
|
---|
442 | fMultiplicityCalib(d.fMultiplicityCalib),
|
---|
443 | fWindowPhysics(d.fWindowPhysics*4+8),
|
---|
444 | fWindowCalib(d.fWindowCalib*4+8),
|
---|
445 | fDelayTrigger(d.fDelayTrigger*4+8),
|
---|
446 | fDelayTimeMarker(d.fDelayTimeMarker*4+8),
|
---|
447 | fDeadTime(uint32_t(d.fDeadTime)*4+8)
|
---|
448 | {
|
---|
449 | memcpy(fClockConditioner, d.fClockConditioner, sizeof(uint32_t)*8);
|
---|
450 |
|
---|
451 | uint16_t src[160];
|
---|
452 | for (int i=0; i<40; i++)
|
---|
453 | {
|
---|
454 | for (int j=0; j<4; j++)
|
---|
455 | {
|
---|
456 | src[i*4+j] = d[i].fEnable[j];
|
---|
457 | fThreshold[i*4+j] = d[i].fDAC[j];
|
---|
458 | }
|
---|
459 |
|
---|
460 | fMultiplicity[i] = d[i].fDAC[4];
|
---|
461 | fPrescaling[i] = d[i].fPrescaling+1;
|
---|
462 | }
|
---|
463 | bitcpy(fEnable, 90, src, 160, 9);
|
---|
464 | }
|
---|
465 |
|
---|
466 | } __attribute__((__packed__));
|
---|
467 |
|
---|
468 |
|
---|
469 | struct DynamicDataBoard
|
---|
470 | {
|
---|
471 | uint32_t fRatePatch[4]; // Patch 0,1,2,3
|
---|
472 | uint32_t fRateTotal; // Sum
|
---|
473 |
|
---|
474 | uint16_t fOverflow; // Patches: bits 0-3, total 4
|
---|
475 | uint16_t fCrcError;
|
---|
476 |
|
---|
477 | void print(std::ostream &out) const;
|
---|
478 |
|
---|
479 | void reverse()
|
---|
480 | {
|
---|
481 | for (int i=0; i<4; i++)
|
---|
482 | Reverse(fRatePatch+i);
|
---|
483 |
|
---|
484 | Reverse(&fRateTotal);
|
---|
485 | }
|
---|
486 |
|
---|
487 | uint32_t &operator[](int i) { return fRatePatch[i]; }
|
---|
488 |
|
---|
489 | } __attribute__((__packed__));
|
---|
490 |
|
---|
491 |
|
---|
492 | struct DynamicData
|
---|
493 | {
|
---|
494 | uint64_t fOnTimeCounter;
|
---|
495 | uint16_t fTempSensor[4]; // U45, U46, U48, U49
|
---|
496 |
|
---|
497 | DynamicDataBoard fBoard[4][10]; // 4 crates * 10 boards
|
---|
498 |
|
---|
499 | DynamicData() { init(*this); }
|
---|
500 |
|
---|
501 | std::vector<uint16_t> HtoN() const
|
---|
502 | {
|
---|
503 | DynamicData d(*this);
|
---|
504 |
|
---|
505 | Reverse(&d.fOnTimeCounter);
|
---|
506 |
|
---|
507 | for (int c=0; c<4; c++)
|
---|
508 | for (int b=0; b<10; b++)
|
---|
509 | d.fBoard[c][b].reverse();
|
---|
510 |
|
---|
511 | return htoncpy(d);
|
---|
512 | }
|
---|
513 |
|
---|
514 | void operator=(const std::vector<uint16_t> &vec)
|
---|
515 | {
|
---|
516 | ntohcpy(vec, *this);
|
---|
517 |
|
---|
518 | Reverse(&fOnTimeCounter);
|
---|
519 |
|
---|
520 | for (int c=0; c<4; c++)
|
---|
521 | for (int b=0; b<10; b++)
|
---|
522 | fBoard[c][b].reverse();
|
---|
523 | }
|
---|
524 |
|
---|
525 | void clear() { reset(*this); }
|
---|
526 | void print(std::ostream &out) const;
|
---|
527 |
|
---|
528 | DynamicDataBoard &operator[](int i) { return fBoard[i/10][i%10]; }
|
---|
529 | const DynamicDataBoard &operator[](int i) const { return fBoard[i/10][i%10]; }
|
---|
530 |
|
---|
531 | } __attribute__((__packed__));
|
---|
532 |
|
---|
533 |
|
---|
534 | struct DimDynamicData
|
---|
535 | {
|
---|
536 | uint64_t fTimeStamp;
|
---|
537 |
|
---|
538 | uint64_t fOnTimeCounter;
|
---|
539 | float fTempSensor[4];
|
---|
540 |
|
---|
541 | uint32_t fRatePatch[160];
|
---|
542 |
|
---|
543 | uint32_t fRateBoard[40];
|
---|
544 | uint16_t fRateOverflow[40];
|
---|
545 |
|
---|
546 | uint16_t fPrescaling[40];
|
---|
547 |
|
---|
548 | uint16_t fCrcError[40];
|
---|
549 |
|
---|
550 | uint16_t fState;
|
---|
551 |
|
---|
552 | DimDynamicData(const Header &h, const DynamicData &d, const StaticData &s) :
|
---|
553 | fTimeStamp(h.fTimeStamp),
|
---|
554 | fOnTimeCounter(d.fOnTimeCounter),
|
---|
555 | fState(h.fState)
|
---|
556 | {
|
---|
557 | for (int i=0; i<4; i++)
|
---|
558 | fTempSensor[i] = d.fTempSensor[i];
|
---|
559 |
|
---|
560 | for (int i=0; i<40; i++)
|
---|
561 | {
|
---|
562 | fRateBoard[i] = d[i].fRateTotal;
|
---|
563 | fRateOverflow[i] = d[i].fOverflow;
|
---|
564 | fCrcError[i] = d[i].fCrcError;
|
---|
565 | for (int j=0; j<4; j++)
|
---|
566 | fRatePatch[i*4+j] = d[i].fRatePatch[j];
|
---|
567 |
|
---|
568 | fPrescaling[i] = s[i].fPrescaling;
|
---|
569 | }
|
---|
570 | }
|
---|
571 |
|
---|
572 | } __attribute__((__packed__));
|
---|
573 |
|
---|
574 | struct DimTriggerRates
|
---|
575 | {
|
---|
576 | uint64_t fTimeStamp;
|
---|
577 | uint64_t fOnTimeCounter;
|
---|
578 | uint32_t fTriggerCounter;
|
---|
579 | float fTriggerRate;
|
---|
580 | float fBoardRate[40];
|
---|
581 | float fPatchRate[160];
|
---|
582 |
|
---|
583 | float fElapsedTime;
|
---|
584 | float fOnTime;
|
---|
585 |
|
---|
586 | DimTriggerRates() { memset(this, 0, sizeof(DimTriggerRates)); }
|
---|
587 |
|
---|
588 | DimTriggerRates(const Header &h, const DynamicData &d, const StaticData &s, float rate, float et, float ot) :
|
---|
589 | fTimeStamp(h.fTimeStamp), fOnTimeCounter(d.fOnTimeCounter),
|
---|
590 | fTriggerCounter(h.fTriggerCounter), fTriggerRate(rate),
|
---|
591 | fElapsedTime(et), fOnTime(ot)
|
---|
592 | {
|
---|
593 | for (int i=0; i<40; i++)
|
---|
594 | {
|
---|
595 | if ((d[i].fOverflow>>4)&1)
|
---|
596 | fBoardRate[i] = float(UINT32_MAX+1)*2/(s[i].fPrescaling+1);
|
---|
597 | else
|
---|
598 | fBoardRate[i] = float(d[i].fRateTotal)*2/(s[i].fPrescaling+1);
|
---|
599 |
|
---|
600 | // FIXME: Include fCrcError in calculation
|
---|
601 | //fRateOverflow[i] = d[i].fOverflow;
|
---|
602 | for (int j=0; j<4; j++)
|
---|
603 | if ((d[i].fOverflow>>j)&1)
|
---|
604 | fPatchRate[i*4+j] = float(UINT32_MAX+1)*2/(s[i].fPrescaling+1);
|
---|
605 | else
|
---|
606 | fPatchRate[i*4+j] = float(d[i].fRatePatch[j])*2/(s[i].fPrescaling+1);
|
---|
607 | }
|
---|
608 | }
|
---|
609 |
|
---|
610 | } __attribute__((__packed__));
|
---|
611 |
|
---|
612 |
|
---|
613 | struct FtuResponse
|
---|
614 | {
|
---|
615 | uint16_t fPingAddr; // Number of Pings and addr (pings= see error)
|
---|
616 | uint64_t fDNA;
|
---|
617 | uint16_t fErrorCounter; //
|
---|
618 |
|
---|
619 | void reverse() { Reverse(&fDNA); }
|
---|
620 |
|
---|
621 | void print(std::ostream &out) const;
|
---|
622 |
|
---|
623 | } __attribute__((__packed__));
|
---|
624 |
|
---|
625 | struct FtuList
|
---|
626 | {
|
---|
627 | uint16_t fNumBoards; /// Total number of boards responded
|
---|
628 | uint16_t fNumBoardsCrate[4]; /// Num of board responded in crate 0-3
|
---|
629 | uint16_t fActiveFTU[4]; /// List of active FTU boards in crate 0-3
|
---|
630 |
|
---|
631 | FtuResponse fFTU[4][10];
|
---|
632 |
|
---|
633 | FtuList() { init(*this); }
|
---|
634 |
|
---|
635 | std::vector<uint16_t> HtoN() const
|
---|
636 | {
|
---|
637 | FtuList d(*this);
|
---|
638 |
|
---|
639 | for (int c=0; c<4; c++)
|
---|
640 | for (int b=0; b<10; b++)
|
---|
641 | d.fFTU[c][b].reverse();
|
---|
642 |
|
---|
643 | return htoncpy(d);
|
---|
644 | }
|
---|
645 |
|
---|
646 | void operator=(const std::vector<uint16_t> &vec)
|
---|
647 | {
|
---|
648 | ntohcpy(vec, *this);
|
---|
649 |
|
---|
650 | for (int c=0; c<4; c++)
|
---|
651 | for (int b=0; b<10; b++)
|
---|
652 | fFTU[c][b].reverse();
|
---|
653 | }
|
---|
654 |
|
---|
655 | void clear() { reset(*this); }
|
---|
656 | void print(std::ostream &out) const;
|
---|
657 |
|
---|
658 | FtuResponse &operator[](int i) { return fFTU[i/10][i%10]; }
|
---|
659 | const FtuResponse &operator[](int i) const { return fFTU[i/10][i%10]; }
|
---|
660 |
|
---|
661 | } __attribute__((__packed__));
|
---|
662 |
|
---|
663 | struct DimFtuList
|
---|
664 | {
|
---|
665 | uint64_t fTimeStamp;
|
---|
666 | uint64_t fActiveFTU;
|
---|
667 |
|
---|
668 | uint16_t fNumBoards; /// Number of boards answered in total
|
---|
669 | uint8_t fNumBoardsCrate[4]; /// Number of boards answered per crate
|
---|
670 |
|
---|
671 | uint64_t fDNA[40]; /// DNA of FTU board
|
---|
672 | uint8_t fAddr[40]; /// Address of FTU board
|
---|
673 | uint8_t fPing[40]; /// Number of pings until response (same as in Error)
|
---|
674 |
|
---|
675 | DimFtuList(const Header &h, const FtuList &d) :
|
---|
676 | fTimeStamp(h.fTimeStamp),
|
---|
677 | fActiveFTU( uint64_t(d.fActiveFTU[0]) |
|
---|
678 | (uint64_t(d.fActiveFTU[1])<<10) |
|
---|
679 | (uint64_t(d.fActiveFTU[2])<<20) |
|
---|
680 | (uint64_t(d.fActiveFTU[3])<<30)),
|
---|
681 | fNumBoards(d.fNumBoards)
|
---|
682 | {
|
---|
683 | for (int i=0; i<4; i++)
|
---|
684 | fNumBoardsCrate[i] = d.fNumBoardsCrate[i];
|
---|
685 |
|
---|
686 | for (int i=0; i<40; i++)
|
---|
687 | {
|
---|
688 | fDNA[i] = d[i].fDNA;
|
---|
689 | fAddr[i] = d[i].fPingAddr&0x3f;
|
---|
690 | fPing[i] = (d[i].fPingAddr>>8)&0x3;
|
---|
691 | }
|
---|
692 | }
|
---|
693 |
|
---|
694 | bool IsActive(int i) const { return fActiveFTU&(uint64_t(1)<<i); }
|
---|
695 |
|
---|
696 | } __attribute__((__packed__));
|
---|
697 |
|
---|
698 |
|
---|
699 | struct Error
|
---|
700 | {
|
---|
701 | uint16_t fNumCalls; // 0=error, >1 needed repetition but successfull
|
---|
702 |
|
---|
703 | uint16_t fDelimiter;
|
---|
704 | uint16_t fDestAddress;
|
---|
705 | uint16_t fSrcAddress;
|
---|
706 | uint16_t fFirmwareId;
|
---|
707 | uint16_t fCommand;
|
---|
708 | uint16_t fData[21];
|
---|
709 | uint16_t fCrcErrorCounter;
|
---|
710 | uint16_t fCrcCheckSum;
|
---|
711 |
|
---|
712 | Error() { init(*this); }
|
---|
713 |
|
---|
714 | std::vector<uint16_t> HtoN() const
|
---|
715 | {
|
---|
716 | return htoncpy(*this);
|
---|
717 | }
|
---|
718 |
|
---|
719 | void operator=(const std::vector<uint16_t> &vec) { ntohcpy(vec, *this); }
|
---|
720 |
|
---|
721 | void clear() { reset(*this); }
|
---|
722 |
|
---|
723 | uint16_t &operator[](int idx) { return fData[idx]; }
|
---|
724 | const uint16_t &operator[](int idx) const { return fData[idx]; }
|
---|
725 |
|
---|
726 | void print(std::ostream &out) const;
|
---|
727 |
|
---|
728 | } __attribute__((__packed__));
|
---|
729 |
|
---|
730 | struct DimError
|
---|
731 | {
|
---|
732 | uint64_t fTimeStamp;
|
---|
733 | Error fError;
|
---|
734 |
|
---|
735 | DimError(const Header &h, const Error &e) :
|
---|
736 | fTimeStamp(h.fTimeStamp),
|
---|
737 | fError(e)
|
---|
738 | {
|
---|
739 | fError.fDestAddress = (e.fDestAddress&0x3)*10 + ((e.fDestAddress>>2)&0xf);
|
---|
740 | fError.fSrcAddress = (e.fSrcAddress &0x3)*10 + ((e.fSrcAddress >>2)&0xf);
|
---|
741 | }
|
---|
742 |
|
---|
743 | } __attribute__((__packed__));
|
---|
744 |
|
---|
745 | /*
|
---|
746 | struct Command
|
---|
747 | {
|
---|
748 | uint16_t fStartDelimiter;
|
---|
749 | uint16_t fCommand;
|
---|
750 | uint16_t fParam[3];
|
---|
751 |
|
---|
752 | Command() { init(*this); }
|
---|
753 |
|
---|
754 | void HtoN() { hton(*this); }
|
---|
755 | void NtoH() { ntoh(*this); }
|
---|
756 |
|
---|
757 | void operator=(const std::vector<uint16_t> &vec) { ntohcpy(vec, *this); }
|
---|
758 |
|
---|
759 | void clear() { reset(*this); }
|
---|
760 |
|
---|
761 |
|
---|
762 | } __attribute__((__packed__));
|
---|
763 | */
|
---|
764 |
|
---|
765 | // --------------------------------------------------------------------
|
---|
766 |
|
---|
767 | inline std::ostream &operator<<(std::ostream &out, const FtuResponse &h)
|
---|
768 | {
|
---|
769 | h.print(out);
|
---|
770 | return out;
|
---|
771 | }
|
---|
772 |
|
---|
773 | inline std::ostream &operator<<(std::ostream &out, const Header &h)
|
---|
774 | {
|
---|
775 | h.print(out);
|
---|
776 | return out;
|
---|
777 | }
|
---|
778 |
|
---|
779 |
|
---|
780 | inline std::ostream &operator<<(std::ostream &out, const FtuList &h)
|
---|
781 | {
|
---|
782 | h.print(out);
|
---|
783 | return out;
|
---|
784 | }
|
---|
785 |
|
---|
786 | inline std::ostream &operator<<(std::ostream &out, const DynamicDataBoard &h)
|
---|
787 | {
|
---|
788 | h.print(out);
|
---|
789 | return out;
|
---|
790 | }
|
---|
791 |
|
---|
792 | inline std::ostream &operator<<(std::ostream &out, const DynamicData &h)
|
---|
793 | {
|
---|
794 | h.print(out);
|
---|
795 | return out;
|
---|
796 | }
|
---|
797 |
|
---|
798 | inline std::ostream &operator<<(std::ostream &out, const StaticDataBoard &h)
|
---|
799 | {
|
---|
800 | h.print(out);
|
---|
801 | return out;
|
---|
802 | }
|
---|
803 |
|
---|
804 | inline std::ostream &operator<<(std::ostream &out, const StaticData &h)
|
---|
805 | {
|
---|
806 | h.print(out);
|
---|
807 | return out;
|
---|
808 | }
|
---|
809 |
|
---|
810 | inline std::ostream &operator<<(std::ostream &out, const Error &h)
|
---|
811 | {
|
---|
812 | h.print(out);
|
---|
813 | return out;
|
---|
814 | }
|
---|
815 | };
|
---|
816 |
|
---|
817 | #endif
|
---|