source: trunk/MagicSoft/Cosy/devdrv/shaftencoder.h@ 7297

Last change on this file since 7297 was 7297, checked in by tbretz, 19 years ago
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File size: 3.7 KB
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1#ifndef COSY_ShafTEncoder
2#define COSY_ShafTEncoder
3
4#ifndef COSY_NodeDrv
5#include "nodedrv.h"
6#endif
7
8#ifndef MARS_MTime
9#include "MTime.h"
10#endif
11
12class Macs;
13class TGLabel;
14
15enum Direction_t { kUndefined, kForward, kBackward };
16
17class ShaftEncoder : public NodeDrv
18{
19private:
20 LWORDS_t fPos; // ticks
21 WORDS_t fVel; // ticks per 5ms
22 WORDS_t fAcc; // ticks per 25ms^2
23 WORDS_t fTurn; // Number of turn
24 LWORD_t fTicks; // Number of ticks per turn
25 WORD_t fTurns; // Number of possible turns
26
27 Direction_t fDirection;
28
29 Float_t fHysteresisPos;
30 Float_t fHysteresisNeg;
31
32 TGLabel *fLabel; //
33 LWORDS_t fUpdPos; // ticks
34
35 bool fPosHasChanged; //!
36 bool fDirHasChanged; //!
37
38 MTime fTime;
39 MLog *fReport;
40
41 Macs *fMotor; // Corresponding Motor/MACS
42 Int_t fOffset; // offset between SE and Motor
43 Int_t fDirChangedPos; // Last position at which the SE changed its moving direction
44 Int_t fDirChangedOffset; // Offset between SE and Motor when SE changed its moving direction last
45
46
47 void HandlePDOType0(BYTE_t *data, timeval_t *tv);
48 void HandlePDOType1(BYTE_t *data, timeval_t *tv);
49 void HandlePDOType2(BYTE_t *data, timeval_t *tv);
50
51 void ReqPos();
52
53 void Init();
54 void CheckConnection();
55 // void CheckTwin(Int_t diff) const;
56
57public:
58 ShaftEncoder(const BYTE_t nodeid, const char *name=NULL, MLog &out=gLog);
59
60 void StopDevice();
61
62 void SetDisplay(TGLabel *label) { fLabel = label; }
63 void SetMotor(Macs *m) { fMotor = m; }
64 //void SetTwin(ShaftEncoder *se) { fTwin = se; }
65
66 void HandleSDO(WORD_t idx, BYTE_t subidx, LWORD_t val, timeval_t *tv);
67 void HandleSDOOK(WORD_t idx, BYTE_t subidx, LWORD_t data, timeval_t *tv);
68 /*
69 void HandleSDOOK(WORD_t idx, BYTE_t subidx, timeval_t *tv) { NodeDrv::HandleSDOOK(idx, subidx, tv); }
70 void HandleSDOError(LWORD_t data) { NodeDrv::HandleSDOError(data); }
71 */
72 void HandlePDO1(BYTE_t *data, timeval_t *tv) { HandlePDOType2(data, tv); }
73 void HandlePDO2(BYTE_t *data, timeval_t *tv) { HandlePDOType2(data, tv); }
74
75 LWORDS_t GetPos() const { return IsZombieNode() ? 0 : fPos+fTurn*fTicks; } // FIXME? 0?
76 Int_t GetDirection() const { return IsZombieNode() ? 0 : fPos-fDirChangedPos; } // FIXME? 0?
77 Int_t GetDirChangedPos() const { return IsZombieNode() ? 0 : fDirChangedPos; } // FIXME? 0?
78 LWORD_t GetPhysRes() const { return fTicks; }
79 Int_t GetOffset() const { return fOffset; }
80 Int_t GetDirChangedOffset() const { return fDirChangedOffset; }
81
82 Int_t GetPosDirCorrected() const
83 {
84 return DirHasChanged() ? GetDirChangedPos() : GetPos();
85 }
86 Int_t GetOffsetDirCorrected() const
87 {
88 return DirHasChanged() ? GetDirChangedOffset() : GetOffset();
89 }
90
91 void SetOffset(Int_t off) { fOffset = off; }
92
93 double GetMjd();
94
95 void SetPreset(LWORD_t pre=0);
96
97 void DisplayVal();
98
99 bool PosHasChanged() const { return fPosHasChanged; }
100 bool DirHasChanged() const { return fDirHasChanged; }
101 void ResetPosHasChanged() { fPosHasChanged = false; }
102 void ResetDirHasChanged() { fDirHasChanged = false; }
103
104 void SetReport(MLog *log) { fReport = log; }
105
106 void SetHysteresisNeg(Float_t f) { fHysteresisNeg = f; }
107 void SetHysteresisPos(Float_t f) { fHysteresisPos = f; }
108
109 Float_t GetPosCorrected() const
110 {
111 switch (fDirection)
112 {
113 case kUndefined:
114 return GetPos();
115 case kForward:
116 return GetPos()-fHysteresisPos;
117 case kBackward:
118 return GetPos()+fHysteresisNeg;
119 }
120 }
121
122 ClassDef(ShaftEncoder, 0)
123};
124
125#endif
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