mirror of
https://github.com/eddyem/bta-meteo-logger.git
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852 lines
31 KiB
C
852 lines
31 KiB
C
// (C) V.S. Shergin, SAO RAS
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#pragma once
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#ifndef __BTA_SHDATA_H__
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#define __BTA_SHDATA_H__
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#include <stdio.h>
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#include <stdlib.h>
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#include <unistd.h>
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#include <stdint.h>
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#include <string.h>
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#include <sys/ipc.h>
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#include <sys/shm.h>
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#include <sys/msg.h>
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#include <errno.h>
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#pragma pack(push, 4)
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/*
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* Shared memory block
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*/
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struct SHM_Block {
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union {
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char name[5]; // memory segment identificator
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key_t code;
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} key;
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int32_t size; // size of memory used
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int32_t maxsize; // size when created
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int32_t mode; // access mode (rwxrwxrwx)
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int32_t atflag; // connection mode (SHM_RDONLY or 0)
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void (*init)(); // init function
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int32_t (*check)(); // test function
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void (*close)(); // deinit function
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int32_t side; // connection type: client/server
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int32_t id; // connection identificator
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uint8_t *addr; // connection address
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};
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extern volatile struct SHM_Block sdat;
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/*
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* Command queue descriptor
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*/
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struct CMD_Queue {
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union {
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char name[5]; // queue key
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key_t code;
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} key;
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int32_t mode; // access mode (rwxrwxrwx)
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int32_t side; // connection type (Sender/Receiver - server/client)
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int32_t id; // connection identificator
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uint32_t acckey; // access key (for transmission from client to server)
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};
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extern struct CMD_Queue mcmd;
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extern struct CMD_Queue ocmd;
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extern struct CMD_Queue ucmd;
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void send_cmd_noarg(int);
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void send_cmd_str(int, char *);
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void send_cmd_i1(int, int32_t);
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void send_cmd_i2(int, int32_t, int32_t);
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void send_cmd_i3(int, int32_t, int32_t, int32_t);
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void send_cmd_i4(int, int32_t, int32_t, int32_t, int32_t);
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void send_cmd_d1(int, double);
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void send_cmd_d2(int, double, double);
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void send_cmd_i1d1(int, int32_t, double);
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void send_cmd_i2d1(int, int32_t, int32_t, double);
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void send_cmd_i3d1(int, int32_t, int32_t, int32_t, double);
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/*******************************************************************************
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* Command list *
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*******************************************************************************/
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/* name code args type */
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// Stop telescope
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#define StopTel 1
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#define StopTeleskope() send_cmd_noarg( 1 )
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// High/low speed
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#define StartHS 2
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#define StartHighSpeed() send_cmd_noarg( 2 )
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#define StartLS 3
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#define StartLowSpeed() send_cmd_noarg( 3 )
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// Timer setup (Ch7_15 or SysTimer)
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#define SetTmr 4
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#define SetTimerMode(T) send_cmd_i1 ( 4, (int)(T))
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// Simulation (modeling) mode
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#define SetModMod 5
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#define SetModelMode(M) send_cmd_i1 ( 5, (int)(M))
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// Azimuth speed code
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#define SetCodA 6
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#define SetPKN_A(iA,sA) send_cmd_i2 ( 6, (int)(iA),(int)(sA))
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// Zenith speed code
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#define SetCodZ 7
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#define SetPKN_Z(iZ) send_cmd_i1 ( 7, (int)(iZ))
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// Parangle speed code
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#define SetCodP 8
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#define SetPKN_P(iP) send_cmd_i1 ( 8, (int)(iP))
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// Set Az velocity
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#define SetVA 9
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#define SetSpeedA(vA) send_cmd_d1 ( 9, (double)(vA))
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// Set Z velocity
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#define SetVZ 10
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#define SetSpeedZ(vZ) send_cmd_d1 (10, (double)(vZ))
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// Set P velocity
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#define SetVP 11
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#define SetSpeedP(vP) send_cmd_d1 (11, (double)(vP))
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// Set new polar coordinates
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#define SetAD 12
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#define SetRADec(Alp,Del) send_cmd_d2 (12, (double)(Alp),(double)(Del))
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// Set new azimutal coordinates
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#define SetAZ 13
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#define SetAzimZ(A,Z) send_cmd_d2 (13, (double)(A),(double)(Z))
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// Goto new object by polar coords
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#define GoToAD 14
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#define GoToObject() send_cmd_noarg(14 )
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// Start steering to object by polar coords
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#define MoveToAD 15
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#define MoveToObject() send_cmd_noarg(15 )
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// Go to object by azimutal coords
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#define GoToAZ 16
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#define GoToAzimZ() send_cmd_noarg(16 )
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// Set A&Z for simulation
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#define WriteAZ 17
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#define WriteModelAZ() send_cmd_noarg(17 )
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// Set P2 mode
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#define SetModP 18
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#define SetPMode(pmod) send_cmd_i1 (18, (int)(pmod))
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// Move(+-1)/Stop(0) P2
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#define P2Move 19
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#define MoveP2(dir) send_cmd_i1 (19, (int)(dir))
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// Move(+-2,+-1)/Stop(0) focus
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#define FocMove 20
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#define MoveFocus(speed,time) send_cmd_i1d1(20,(int)(speed),(double)(time))
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// Use/don't use pointing correction system
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#define UsePCorr 21
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#define SwitchPosCorr(pc_flag) send_cmd_i1 (21, (int)(pc_flag))
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// Tracking flags
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#define SetTrkFlags 22
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#define SetTrkOkMode(trk_flags) send_cmd_i1 (22, (int)(trk_flags))
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// Set focus (0 - primary, 1 - N1, 2 - N2)
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#define SetTFoc 23
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#define SetTelFocus(N) send_cmd_i1 ( 23, (int)(N))
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// Set intrinsic move parameters by RA/Decl
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#define SetVAD 24
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#define SetVelAD(VAlp,VDel) send_cmd_d2 (24, (double)(VAlp),(double)(VDel))
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// Reverse Azimuth direction when pointing
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#define SetRevA 25
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#define SetAzRevers(amod) send_cmd_i1 (25, (int)(amod))
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// Set P2 velocity
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#define SetVP2 26
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#define SetVelP2(vP2) send_cmd_d1 (26, (double)(vP2))
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// Set pointing target
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#define SetTarg 27
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#define SetSysTarg(Targ) send_cmd_i1 (27, (int)(Targ))
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// Send message to all clients (+write into protocol)
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#define SendMsg 28
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#define SendMessage(Mesg) send_cmd_str (28, (char *)(Mesg))
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// RA/Decl user correction
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#define CorrAD 29
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#define DoADcorr(dAlp,dDel) send_cmd_d2 (29, (double)(dAlp),(double)(dDel))
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// A/Z user correction
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#define CorrAZ 30
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#define DoAZcorr(dA,dZ) send_cmd_d2 (30, (double)(dA),(double)(dZ))
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// sec A/Z user correction speed
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#define SetVCAZ 31
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#define SetVCorr(vA,vZ) send_cmd_d2 (31, (double)(vA),(double)(vZ))
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// move P2 with given velocity for a given time
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#define P2MoveTo 32
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#define MoveP2To(vP2,time) send_cmd_d2 (32, (double)(vP2),(double)(time))
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// Go to t/Decl position
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#define GoToTD 33
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#define GoToSat() send_cmd_noarg (33 )
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// Move to t/Decl
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#define MoveToTD 34
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#define MoveToSat() send_cmd_noarg (34 )
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// Empty command for synchronisation
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#define NullCom 35
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#define SyncCom() send_cmd_noarg (35 )
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// Button "Start"
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#define StartTel 36
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#define StartTeleskope() send_cmd_noarg(36 )
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// Set telescope mode
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#define SetTMod 37
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#define SetTelMode(M) send_cmd_i1 ( 37, (int)(M))
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// Turn telescope on (oil etc)
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#define TelOn 38
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#define TeleskopeOn() send_cmd_noarg(38 )
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// Dome mode
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#define SetModD 39
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#define SetDomeMode(dmod) send_cmd_i1 (39, (int)(dmod))
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// Move(+-3,+-2,+-1)/Stop(0) dome
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#define DomeMove 40
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#define MoveDome(speed,time) send_cmd_i1d1(40,(int)(speed),(double)(time))
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// Set account password
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#define SetPass 41
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#define SetPasswd(LPass) send_cmd_str (41, (char *)(LPass))
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// Set code of access level
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#define SetLevC 42
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#define SetLevCode(Nlev,Cod) send_cmd_i2(42, (int)(Nlev),(int)(Cod))
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// Set key for access level
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#define SetLevK 43
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#define SetLevKey(Nlev,Key) send_cmd_i2(43, (int)(Nlev),(int)(Key))
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// Setup network
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#define SetNet 44
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#define SetNetAcc(Mask,Addr) send_cmd_i2(44, (int)(Mask),(int)(Addr))
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// Input meteo data
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#define SetMet 45
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#define SetMeteo(m_id,m_val) send_cmd_i1d1(45,(int)(m_id),(double)(m_val))
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// Cancel meteo data
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#define TurnMetOff 46
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#define TurnMeteoOff(m_id) send_cmd_i1 (46, (int)(m_id))
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// Set time correction (IERS DUT1=UT1-UTC)
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#define SetDUT1 47
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#define SetDtime(dT) send_cmd_d1 (47, (double)(dT))
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// Set polar motion (IERS polar motion)
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#define SetPM 48
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#define SetPolMot(Xp,Yp) send_cmd_d2 (48, (double)(Xp),(double)(Yp))
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// Get SEW parameter
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#define GetSEW 49
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#define GetSEWparam(Ndrv,Indx,Cnt) send_cmd_i3(49,(int)(Ndrv),(int)(Indx),(int)(Cnt))
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// Set SEW parameter
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#define PutSEW 50
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#define PutSEWparam(Ndrv,Indx,Key,Val) send_cmd_i4(50,(int)(Ndrv),(int)(Indx),(int)(Key),(int)(Val))
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// Set lock flags
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#define SetLocks 51
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#define SetLockFlags(f) send_cmd_i1 (SetLocks, (int)(f))
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// Clear lock flags
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#define ClearLocks 52
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#define ClearLockFlags(f) send_cmd_i1 (ClearLocks, (int)(f))
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// Set PEP-RK bits
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#define SetRKbits 53
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#define AddRKbits(f) send_cmd_i1 (SetRKbits, (int)(f))
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// Clear PEP-RK bits
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#define ClrRKbits 54
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#define ClearRKbits(f) send_cmd_i1 (ClrRKbits, (int)(f))
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// Set SEW dome motor number (for indication)
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#define SetSEWnd 55
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#define SetDomeDrive(ND) send_cmd_i1 (SetSEWnd, (int)(ND))
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// Turn SEW controllers of dome on/off
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#define SEWsDome 56
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#define DomeSEW(OnOff) send_cmd_i1 (SEWsDome, (int)(OnOff))
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/*******************************************************************************
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* BTA data structure definitions *
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*******************************************************************************/
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#define ServPID (sdt->pid) // PID of main program
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// model
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#define UseModel (sdt->model) // model variants
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enum{
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NoModel = 0 // OFF
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,CheckModel // control motors by model
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,DriveModel // "blind" management without real sensors
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,FullModel // full model without telescope
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};
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// timer
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#define ClockType (sdt->timer) // which timer to use
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enum{
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Ch7_15 = 0 // Inner timer with synchronisation by CH7_15
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,SysTimer // System timer (synchronisation unknown)
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,ExtSynchro // External synchronisation (bta_time or xntpd)
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};
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// system
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#define Sys_Mode (sdt->system) // main system mode
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enum{
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SysStop = 0 // Stop
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,SysWait // Wait for start (pointing)
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,SysPointAZ // Pointing by A/Z
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,SysPointAD // Pointing by RA/Decl
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,SysTrkStop // Tracking stop
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,SysTrkStart // Start tracking (acceleration to nominal velocity)
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,SysTrkMove // Tracking move to object
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,SysTrkSeek // Tracking in seeking mode
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,SysTrkOk // Tracking OK
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,SysTrkCorr // Correction of tracking position
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,SysTest // Test
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};
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// sys_target
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#define Sys_Target (sdt->sys_target) // system pointing target
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enum{
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TagPosition = 0 // point by A/Z
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,TagObject // point by RA/Decl
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,TagNest // point to "nest"
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,TagZenith // point to zenith
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,TagHorizon // point to horizon
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,TagStatObj // point to statinary object (t/Decl)
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};
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// tel_focus
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#define Tel_Focus (sdt->tel_focus) // telescope focus type
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enum{
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Prime = 0
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,Nasmyth1
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,Nasmyth2
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};
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// PCS
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#define PosCor_Coeff (sdt->pc_coeff) // pointing correction system coefficients
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// tel_state
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#define Tel_State (sdt->tel_state) // telescope state
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#define Req_State (sdt->req_state) // required state
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enum{
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Stopping = 0
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,Pointing
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,Tracking
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};
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// tel_hard_state
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#define Tel_Hardware (sdt->tel_hard_state) // Power state
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enum{
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Hard_Off = 0
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,Hard_On
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};
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// tel_mode
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#define Tel_Mode (sdt->tel_mode) // telescope mode
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enum{
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Automatic = 0 // Automatic (normal) mode
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,Manual = 1 // manual mode
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,ZenHor = 2 // work when Z<5 || Z>80
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,A_Move = 4 // hand move by A
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,Z_Move = 8 // hand move by Z
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,Balance =0x10// balancing
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};
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// az_mode
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#define Az_Mode (sdt->az_mode) // azimuth reverce
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enum{
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Rev_Off = 0 // move by nearest way
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,Rev_On // move by longest way
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};
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// p2_state
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#define P2_State (sdt->p2_state) // P2 motor state
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#define P2_Mode (sdt->p2_req_mode)
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enum{
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P2_Off = 0 // Stop
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,P2_On // Guiding
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,P2_Plus // Move to +
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,P2_Minus = -2 // Move to -
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};
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// focus_state
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#define Foc_State (sdt->focus_state) // focus motor state
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enum{
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Foc_Hminus = -2// fast "-" move
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,Foc_Lminus // slow "-" move
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,Foc_Off // Off
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,Foc_Lplus // slow "+" move
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,Foc_Hplus // fast "+" move
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};
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// dome_state
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#define Dome_State (sdt->dome_state) // dome motors state
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enum{
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D_Hminus = -3 // speeds: low, medium, high
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,D_Mminus
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,D_Lminus
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,D_Off // off
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,D_Lplus
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,D_Mplus
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,D_Hplus
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,D_On = 7 // auto
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};
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// pcor_mode
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#define Pos_Corr (sdt->pcor_mode) // pointing correction mode
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enum{
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PC_Off = 0
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,PC_On
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};
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// trkok_mode
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#define TrkOk_Mode (sdt->trkok_mode) // tracking mode
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enum{
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UseDiffVel = 1 // Isodrome (correction by real motors speed)
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,UseDiffAZ = 2 // Tracking by coordinate difference
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,UseDFlt = 4 // Turn on digital filter
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};
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// input RA/Decl values
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#define InpAlpha (sdt->i_alpha)
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#define InpDelta (sdt->i_delta)
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// current source RA/Decl values
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#define SrcAlpha (sdt->s_alpha)
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#define SrcDelta (sdt->s_delta)
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// intrinsic object velocity
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#define VelAlpha (sdt->v_alpha)
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#define VelDelta (sdt->v_delta)
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// input A/Z values
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#define InpAzim (sdt->i_azim)
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#define InpZdist (sdt->i_zdist)
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// calculated values
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#define CurAlpha (sdt->c_alpha)
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#define CurDelta (sdt->c_delta)
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// current values (from sensors)
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#define tag_A (sdt->tag_a)
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#define tag_Z (sdt->tag_z)
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#define tag_P (sdt->tag_p)
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// calculated corrections
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#define pos_cor_A (sdt->pcor_a)
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#define pos_cor_Z (sdt->pcor_z)
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#define refract_Z (sdt->refr_z)
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// reverse calculation corr.
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#define tel_cor_A (sdt->tcor_a)
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#define tel_cor_Z (sdt->tcor_z)
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#define tel_ref_Z (sdt->tref_z)
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// coords difference
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#define Diff_A (sdt->diff_a)
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#define Diff_Z (sdt->diff_z)
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#define Diff_P (sdt->diff_p)
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// base object velocity
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#define vel_objA (sdt->vbasea)
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#define vel_objZ (sdt->vbasez)
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#define vel_objP (sdt->vbasep)
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// correction by real speed
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#define diff_vA (sdt->diffva)
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#define diff_vZ (sdt->diffvz)
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#define diff_vP (sdt->diffvp)
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// motor speed
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#define speedA (sdt->speeda)
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#define speedZ (sdt->speedz)
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#define speedP (sdt->speedp)
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// last precipitation time
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#define Precip_time (sdt->m_time_precip)
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// reserved
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#define Reserve (sdt->reserve)
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// real motor speed (''/sec)
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#define req_speedA (sdt->rspeeda)
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#define req_speedZ (sdt->rspeedz)
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#define req_speedP (sdt->rspeedp)
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// model speed
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#define mod_vel_A (sdt->simvela)
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#define mod_vel_Z (sdt->simvelz)
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#define mod_vel_P (sdt->simvelp)
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#define mod_vel_F (sdt->simvelf)
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#define mod_vel_D (sdt->simvelf)
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// telescope & hand correction state
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/*
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* 0x8000 - <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
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* 0x4000 - <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD>.
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* 0x2000 - <20><><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD>
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* 0x1000 - <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> P2 <20><><EFBFBD>.
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* 0x01F0 - <20><>.<2E><><EFBFBD><EFBFBD>. 0.2 0.4 1.0 2.0 5.0("/<2F><><EFBFBD>)
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* 0x000F - <20><><EFBFBD><EFBFBD>.<2E><><EFBFBD><EFBFBD>. +Z -Z +A -A
|
||
*/
|
||
#define code_KOST (sdt->kost)
|
||
// different time (UTC, stellar, local)
|
||
#define M_time (sdt->m_time)
|
||
#define S_time (sdt->s_time)
|
||
#define L_time (sdt->l_time)
|
||
// PPNDD sensor (rough) code
|
||
#define ppndd_A (sdt->ppndd_a)
|
||
#define ppndd_Z (sdt->ppndd_z)
|
||
#define ppndd_P (sdt->ppndd_p)
|
||
#define ppndd_B (sdt->ppndd_b) // atm. pressure
|
||
// DUP sensor (precise) code (Gray code)
|
||
#define dup_A (sdt->dup_a)
|
||
#define dup_Z (sdt->dup_z)
|
||
#define dup_P (sdt->dup_p)
|
||
#define dup_F (sdt->dup_f)
|
||
#define dup_D (sdt->dup_d)
|
||
// binary 14-digit precise code
|
||
#define low_A (sdt->low_a)
|
||
#define low_Z (sdt->low_z)
|
||
#define low_P (sdt->low_p)
|
||
#define low_F (sdt->low_f)
|
||
#define low_D (sdt->low_d)
|
||
// binary 23-digit rough code
|
||
#define code_A (sdt->code_a)
|
||
#define code_Z (sdt->code_z)
|
||
#define code_P (sdt->code_p)
|
||
#define code_B (sdt->code_b)
|
||
#define code_F (sdt->code_f)
|
||
#define code_D (sdt->code_d)
|
||
// ADC PCL818 (8-channel) codes
|
||
#define ADC(N) (sdt->adc[(N)])
|
||
#define code_T1 ADC(0) // External temperature code
|
||
#define code_T2 ADC(1) // In-dome temperature code
|
||
#define code_T3 ADC(2) // Mirror temperature code
|
||
#define code_Wnd ADC(3) // Wind speed code
|
||
// calculated values
|
||
#define val_A (sdt->val_a) // A, ''
|
||
#define val_Z (sdt->val_z) // Z, ''
|
||
#define val_P (sdt->val_p) // P, ''
|
||
#define val_B (sdt->val_b) // atm. pressure, mm.hg.
|
||
#define val_F (sdt->val_f) // focus, mm
|
||
#define val_D (sdt->val_d) // Dome Az, ''
|
||
#define val_T1 (sdt->val_t1) // ext. T, degrC
|
||
#define val_T2 (sdt->val_t2) // in-dome T, degrC
|
||
#define val_T3 (sdt->val_t3) // mirror T, degrC
|
||
#define val_Wnd (sdt->val_wnd) // wind speed, m/s
|
||
// RA/Decl calculated by A/Z
|
||
#define val_Alp (sdt->val_alp)
|
||
#define val_Del (sdt->val_del)
|
||
// measured speed
|
||
#define vel_A (sdt->vel_a)
|
||
#define vel_Z (sdt->vel_z)
|
||
#define vel_P (sdt->vel_p)
|
||
#define vel_F (sdt->vel_f)
|
||
#define vel_D (sdt->vel_d)
|
||
// system messages queue
|
||
#define MesgNum 3
|
||
#define MesgLen 39
|
||
// message type
|
||
enum{
|
||
MesgEmpty = 0
|
||
,MesgInfor
|
||
,MesgWarn
|
||
,MesgFault
|
||
,MesgLog
|
||
};
|
||
#define Sys_Mesg(N) (sdt->sys_msg_buf[N])
|
||
// access levels
|
||
#define code_Lev1 (sdt->code_lev[0]) // remote observer - only information
|
||
#define code_Lev2 (sdt->code_lev[1]) // local observer - input coordinates
|
||
#define code_Lev3 (sdt->code_lev[2]) // main observer - correction by A/Z, P2/F management
|
||
#define code_Lev4 (sdt->code_lev[3]) // operator - start/stop telescope, testing
|
||
#define code_Lev5 (sdt->code_lev[4]) // main operator - full access
|
||
#define code_Lev(x) (sdt->code_lev[(x-1)])
|
||
// network settings
|
||
#define NetMask (sdt->netmask) // subnet mask (usually 255.255.255.0)
|
||
#define NetWork (sdt->netaddr) // subnet address (for ex.: 192.168.3.0)
|
||
#define ACSMask (sdt->acsmask) // ACS network mask (for ex.: 255.255.255.0)
|
||
#define ACSNet (sdt->acsaddr) // ACS subnet address (for ex.: 192.168.13.0)
|
||
// meteo data
|
||
#define MeteoMode (sdt->meteo_stat)
|
||
enum{
|
||
INPUT_B = 1 // pressure
|
||
,INPUT_T1 = 2 // external T
|
||
,INPUT_T2 = 4 // in-dome T
|
||
,INPUT_T3 = 8 // mirror T
|
||
,INPUT_WND = 0x10 // wind speed
|
||
,INPUT_HMD = 0x20 // humidity
|
||
};
|
||
#define SENSOR_B (INPUT_B <<8) // external data flags
|
||
#define SENSOR_T1 (INPUT_T1 <<8)
|
||
#define SENSOR_T2 (INPUT_T2 <<8)
|
||
#define SENSOR_T3 (INPUT_T3 <<8)
|
||
#define SENSOR_WND (INPUT_WND<<8)
|
||
#define SENSOR_HMD (INPUT_HMD<<8)
|
||
#define ADC_B (INPUT_B <<16) // reading from ADC flags
|
||
#define ADC_T1 (INPUT_T1 <<16)
|
||
#define ADC_T2 (INPUT_T2 <<16)
|
||
#define ADC_T3 (INPUT_T3 <<16)
|
||
#define ADC_WND (INPUT_WND<<16)
|
||
#define ADC_HMD (INPUT_HMD<<16)
|
||
#define NET_B (INPUT_B <<24) // got by network flags
|
||
#define NET_T1 (INPUT_T1 <<24)
|
||
#define NET_WND (INPUT_WND<<24)
|
||
#define NET_HMD (INPUT_HMD<<24)
|
||
// input meteo values
|
||
#define inp_B (sdt->inp_b) // atm.pressure (mm.hg)
|
||
#define inp_T1 (sdt->inp_t1) // ext T
|
||
#define inp_T2 (sdt->inp_t2) // in-dome T
|
||
#define inp_T3 (sdt->inp_t3) // mirror T
|
||
#define inp_Wnd (sdt->inp_wnd) // wind
|
||
// values used for refraction calculation
|
||
#define Temper (sdt->temper)
|
||
#define Pressure (sdt->press)
|
||
// last wind gust time
|
||
#define Wnd10_time (sdt->m_time10)
|
||
#define Wnd15_time (sdt->m_time15)
|
||
// IERS DUT1
|
||
#define DUT1 (sdt->dut1)
|
||
// sensors reading time
|
||
#define A_time (sdt->a_time)
|
||
#define Z_time (sdt->z_time)
|
||
#define P_time (sdt->p_time)
|
||
// input speeds
|
||
#define speedAin (sdt->speedain)
|
||
#define speedZin (sdt->speedzin)
|
||
#define speedPin (sdt->speedpin)
|
||
// acceleration (''/sec^2)
|
||
#define acc_A (sdt->acc_a)
|
||
#define acc_Z (sdt->acc_z)
|
||
#define acc_P (sdt->acc_p)
|
||
#define acc_F (sdt->acc_f)
|
||
#define acc_D (sdt->acc_d)
|
||
// SEW code
|
||
#define code_SEW (sdt->code_sew)
|
||
// sew data
|
||
#define statusSEW(Drv) (sdt->sewdrv[(Drv)-1].status)
|
||
#define statusSEW1 (sdt->sewdrv[0].status)
|
||
#define statusSEW2 (sdt->sewdrv[1].status)
|
||
#define statusSEW3 (sdt->sewdrv[2].status)
|
||
#define speedSEW(Drv) (sdt->sewdrv[(Drv)-1].set_speed)
|
||
#define speedSEW1 (sdt->sewdrv[0].set_speed)
|
||
#define speedSEW2 (sdt->sewdrv[1].set_speed)
|
||
#define speedSEW3 (sdt->sewdrv[2].set_speed)
|
||
#define vel_SEW(Drv) (sdt->sewdrv[(Drv)-1].mes_speed)
|
||
#define vel_SEW1 (sdt->sewdrv[0].mes_speed)
|
||
#define vel_SEW2 (sdt->sewdrv[1].mes_speed)
|
||
#define vel_SEW3 (sdt->sewdrv[2].mes_speed)
|
||
#define currentSEW(Drv) (sdt->sewdrv[(Drv)-1].current)
|
||
#define currentSEW1 (sdt->sewdrv[0].current)
|
||
#define currentSEW2 (sdt->sewdrv[1].current)
|
||
#define currentSEW3 (sdt->sewdrv[2].current)
|
||
#define indexSEW(Drv) (sdt->sewdrv[(Drv)-1].index)
|
||
#define indexSEW1 (sdt->sewdrv[0].index)
|
||
#define indexSEW2 (sdt->sewdrv[1].index)
|
||
#define indexSEW3 (sdt->sewdrv[2].index)
|
||
#define valueSEW(Drv) (sdt->sewdrv[(Drv)-1].value.l)
|
||
#define valueSEW1 (sdt->sewdrv[0].value.l)
|
||
#define valueSEW2 (sdt->sewdrv[1].value.l)
|
||
#define valueSEW3 (sdt->sewdrv[2].value.l)
|
||
#define bvalSEW(Drv,Nb) (sdt->sewdrv[(Drv)-1].value.b[Nb])
|
||
// 23-digit PEP-controllers code
|
||
#define PEP_code_A (sdt->pep_code_a)
|
||
#define PEP_code_Z (sdt->pep_code_z)
|
||
#define PEP_code_P (sdt->pep_code_p)
|
||
// PEP end-switches code
|
||
#define switch_A (sdt->pep_sw_a)
|
||
enum{
|
||
Sw_minus_A = 1 // negative A value
|
||
,Sw_plus240_A = 2 // end switch +240degr
|
||
,Sw_minus240_A = 4 // end switch -240degr
|
||
,Sw_minus45_A = 8 // "horizon" end switch
|
||
};
|
||
#define switch_Z (sdt->pep_sw_z)
|
||
enum{
|
||
Sw_0_Z = 1
|
||
,Sw_5_Z = 2
|
||
,Sw_20_Z = 4
|
||
,Sw_60_Z = 8
|
||
,Sw_80_Z = 0x10
|
||
,Sw_90_Z = 0x20
|
||
};
|
||
#define switch_P (sdt->pep_sw_p)
|
||
enum{
|
||
Sw_No_P = 0 // no switches
|
||
,Sw_22_P = 1 // 22degr
|
||
,Sw_89_P = 2 // 89degr
|
||
,Sw_Sm_P = 0x80 // Primary focus smoke sensor
|
||
};
|
||
// PEP codes
|
||
#define PEP_code_F (sdt->pep_code_f)
|
||
#define PEP_code_D (sdt->pep_code_d)
|
||
#define PEP_code_Rin (sdt->pep_code_ri)
|
||
#define PEP_code_Rout (sdt->pep_code_ro)
|
||
// PEP flags
|
||
#define PEP_A_On (sdt->pep_on[0])
|
||
#define PEP_A_Off (PEP_A_On==0)
|
||
#define PEP_Z_On (sdt->pep_on[1])
|
||
#define PEP_Z_Off (PEP_Z_On==0)
|
||
#define PEP_P_On (sdt->pep_on[2])
|
||
#define PEP_P_Off (PEP_P_On==0)
|
||
#define PEP_F_On (sdt->pep_on[3])
|
||
#define PEP_F_Off (PEP_F_On==0)
|
||
#define PEP_D_On (sdt->pep_on[4])
|
||
#define PEP_D_Off (PEP_D_On==0)
|
||
#define PEP_R_On (sdt->pep_on[5])
|
||
#define PEP_R_Off ((PEP_R_On&1)==0)
|
||
#define PEP_R_Inp ((PEP_R_On&2)!=0)
|
||
#define PEP_K_On (sdt->pep_on[6])
|
||
#define PEP_K_Off ((PEP_K_On&1)==0)
|
||
#define PEP_K_Inp ((PEP_K_On&2)!=0)
|
||
// IERS polar motion
|
||
#define polarX (sdt->xpol)
|
||
#define polarY (sdt->ypol)
|
||
// current Julian date, sidereal time correction by "Equation of the Equinoxes"
|
||
#define JDate (sdt->jdate)
|
||
#define EE_time (sdt->eetime)
|
||
// humidity value (%%) & hand input
|
||
#define val_Hmd (sdt->val_hmd)
|
||
#define inp_Hmd (sdt->val_hmd)
|
||
// worm position, mkm
|
||
#define worm_A (sdt->worm_a)
|
||
#define worm_Z (sdt->worm_z)
|
||
// locking flags
|
||
#define LockFlags (sdt->lock_flags)
|
||
enum{
|
||
Lock_A = 1
|
||
,Lock_Z = 2
|
||
,Lock_P = 4
|
||
,Lock_F = 8
|
||
,Lock_D = 0x10
|
||
};
|
||
#define A_Locked (LockFlags&Lock_A)
|
||
#define Z_Locked (LockFlags&Lock_Z)
|
||
#define P_Locked (LockFlags&Lock_P)
|
||
#define F_Locked (LockFlags&Lock_F)
|
||
#define D_Locked (LockFlags&Lock_D)
|
||
// SEW dome divers speed
|
||
#define Dome_Speed (sdt->sew_dome_speed)
|
||
// SEW dome drive number (for indication)
|
||
#define DomeSEW_N (sdt->sew_dome_num)
|
||
// SEW dome driver parameters
|
||
#define statusSEWD (sdt->sewdomedrv.status) // controller status
|
||
#define speedSEWD (sdt->sewdomedrv.set_speed) // speed, rpm
|
||
#define vel_SEWD (sdt->sewdomedrv.mes_speed) /*<2A><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><>/<2F><><EFBFBD> (rpm)*/
|
||
#define currentSEWD (sdt->sewdomedrv.current) // current, A
|
||
#define indexSEWD (sdt->sewdomedrv.index) // parameter index
|
||
#define valueSEWD (sdt->sewdomedrv.value.l) // parameter value
|
||
// dome PEP codes
|
||
#define PEP_code_Din (sdt->pep_code_di) // data in
|
||
#define PEP_Dome_SEW_Ok 0x200
|
||
#define PEP_Dome_Cable_Ok 0x100
|
||
#define PEP_code_Dout (sdt->pep_code_do) // data out
|
||
#define PEP_Dome_SEW_On 0x10
|
||
#define PEP_Dome_SEW_Off 0x20
|
||
|
||
|
||
/*******************************************************************************
|
||
* BTA data structure *
|
||
*******************************************************************************/
|
||
|
||
#define BTA_Data_Ver 2
|
||
struct BTA_Data {
|
||
int32_t magic; // magic value
|
||
int32_t version; // BTA_Data_Ver
|
||
int32_t size; // sizeof(struct BTA_Data)
|
||
int32_t pid; // main process PID
|
||
int32_t model; // model modes
|
||
int32_t timer; // timer selected
|
||
int32_t system; // main system mode
|
||
int32_t sys_target; // system pointing target
|
||
int32_t tel_focus; // telescope focus type
|
||
double pc_coeff[8]; // pointing correction system coefficients
|
||
int32_t tel_state; // telescope state
|
||
int32_t req_state; // new (required) state
|
||
int32_t tel_hard_state; // Power state
|
||
int32_t tel_mode; // telescope mode
|
||
int32_t az_mode; // azimuth reverce
|
||
int32_t p2_state; // P2 motor state
|
||
int32_t p2_req_mode; // P2 required state
|
||
int32_t focus_state; // focus motor state
|
||
int32_t dome_state; // dome motors state
|
||
int32_t pcor_mode; // pointing correction mode
|
||
int32_t trkok_mode; // tracking mode
|
||
double i_alpha, i_delta; // input values
|
||
double s_alpha, s_delta; // source
|
||
double v_alpha, v_delta; // intrinsic vel.
|
||
double i_azim, i_zdist; // input A/Z
|
||
double c_alpha, c_delta; // calculated values
|
||
double tag_a, tag_z, tag_p; // current values (from sensors)
|
||
double pcor_a, pcor_z, refr_z; // calculated corrections
|
||
double tcor_a, tcor_z, tref_z; // reverse calculation corr.
|
||
double diff_a, diff_z, diff_p; // coords difference
|
||
double vbasea,vbasez,vbasep; // base object velocity
|
||
double diffva,diffvz,diffvp; // correction by real speed
|
||
double speeda,speedz,speedp; // motor speed
|
||
double m_time_precip; // last precipitation time
|
||
uint8_t reserve[16]; // reserved
|
||
double rspeeda, rspeedz, rspeedp; // real motor speed (''/sec)
|
||
double simvela, simvelz, simvelp, simvelf, simveld; // model speed
|
||
uint32_t kost; // telescope & hand correction state
|
||
double m_time, s_time, l_time; // different time (UTC, stellar, local)
|
||
uint32_t ppndd_a, ppndd_z, ppndd_p, ppndd_b; // PPNDD sensor (rough) code
|
||
uint32_t dup_a, dup_z, dup_p, dup_f, dup_d; // DUP sensor (precise) code (Gray code)
|
||
uint32_t low_a, low_z, low_p, low_f, low_d; // binary 14-digit precise code
|
||
uint32_t code_a, code_z, code_p, code_b, code_f, code_d; // binary 23-digit rough code
|
||
uint32_t adc[8]; // ADC PCL818 (8-channel) codes
|
||
double val_a, val_z, val_p, val_b, val_f, val_d;
|
||
double val_t1, val_t2, val_t3, val_wnd; // calculated values
|
||
double val_alp, val_del; // RA/Decl calculated by A/Z
|
||
double vel_a, vel_z, vel_p, vel_f, vel_d; // measured speed
|
||
// system messages queue
|
||
struct SysMesg {
|
||
int32_t seq_num;
|
||
char type; // message type
|
||
char text[MesgLen]; // message itself
|
||
} sys_msg_buf[MesgNum];
|
||
// access levels
|
||
uint32_t code_lev[5];
|
||
// network settings
|
||
uint32_t netmask, netaddr, acsmask, acsaddr;
|
||
int32_t meteo_stat; // meteo data
|
||
double inp_b, inp_t1, inp_t2, inp_t3, inp_wnd; // input meteo values
|
||
double temper, press; // values used for refraction calculation
|
||
double m_time10, m_time15; // last wind gust time
|
||
double dut1; // IERS DUT1 (src: ftp://maia.usno.navy.mil/ser7/ser7.dat), DUT1 = UT1-UTC
|
||
double a_time, z_time, p_time; // sensors reading time
|
||
double speedain, speedzin, speedpin; // input speeds
|
||
double acc_a, acc_z, acc_p, acc_f, acc_d; // acceleration (''/sec^2)
|
||
uint32_t code_sew; // SEW code
|
||
struct SEWdata { // sew data
|
||
int32_t status;
|
||
double set_speed; // target speed, rpm
|
||
double mes_speed; // measured speed, rpm
|
||
double current; // measured current, A
|
||
int32_t index; // parameter number
|
||
union{ // parameter code
|
||
uint8_t b[4];
|
||
uint32_t l;
|
||
} value;
|
||
} sewdrv[3];
|
||
uint32_t pep_code_a, pep_code_z, pep_code_p; // 23-digit PEP-controllers code
|
||
uint32_t pep_sw_a, pep_sw_z, pep_sw_p; // PEP end-switches code
|
||
uint32_t pep_code_f, pep_code_d, pep_code_ri, pep_code_ro; // PEP codes
|
||
uint8_t pep_on[10]; // PEP flags
|
||
double xpol, ypol; // IERS polar motion (src: ftp://maia.usno.navy.mil/ser7/ser7.dat)
|
||
double jdate, eetime; // current Julian date, sidereal time correction by "Equation of the Equinoxes"
|
||
double val_hmd, inp_hmd; // humidity value (%%) & hand input
|
||
double worm_a, worm_z; // worm position, mkm
|
||
/* <20><><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD><EFBFBD> <20><><EFBFBD><EFBFBD><EFBFBD><EFBFBD> */
|
||
uint32_t lock_flags; // locking flags
|
||
int32_t sew_dome_speed; // SEW dome divers speed: D_Lplus, D_Hminus etc
|
||
int32_t sew_dome_num; // SEW dome drive number (for indication)
|
||
struct SEWdata sewdomedrv; // SEW dome driver parameters
|
||
uint32_t pep_code_di, pep_code_do; // dome PEP codes
|
||
};
|
||
|
||
extern volatile struct BTA_Data *sdt;
|
||
|
||
/*******************************************************************************
|
||
* Local data structure *
|
||
*******************************************************************************/
|
||
// Oil pressure, MPa
|
||
#define PressOilA (sdtl->pr_oil_a)
|
||
#define PressOilZ (sdtl->pr_oil_z)
|
||
#define PressOilTank (sdtl->pr_oil_t)
|
||
// Oil themperature, degrC
|
||
#define OilTemper1 (sdtl->t_oil_1) // oil
|
||
#define OilTemper2 (sdtl->t_oil_2) // water
|
||
|
||
// Local data structure
|
||
struct BTA_Local {
|
||
uint8_t reserve[120]; // reserved data
|
||
double pr_oil_a,pr_oil_z,pr_oil_t; // Oil pressure
|
||
double t_oil_1,t_oil_2; // Oil themperature
|
||
};
|
||
|
||
/**
|
||
* Message buffer structure
|
||
*/
|
||
struct my_msgbuf {
|
||
int32_t mtype; // message type
|
||
uint32_t acckey; // client access key
|
||
uint32_t src_pid; // source PID
|
||
uint32_t src_ip; // IP of command source or 0 for local
|
||
char mtext[100]; // message itself
|
||
};
|
||
|
||
extern volatile struct BTA_Local *sdtl;
|
||
extern int snd_id;
|
||
extern int cmd_src_pid;
|
||
extern uint32_t cmd_src_ip;
|
||
|
||
#define ClientSide 0
|
||
#define ServerSide 1
|
||
|
||
#ifndef BTA_MODULE
|
||
void bta_data_init();
|
||
int bta_data_check();
|
||
void bta_data_close();
|
||
int get_shm_block(volatile struct SHM_Block *sb, int server);
|
||
int close_shm_block(volatile struct SHM_Block *sb);
|
||
void get_cmd_queue(struct CMD_Queue *cq, int server);
|
||
#endif
|
||
|
||
int check_shm_block(volatile struct SHM_Block *sb);
|
||
|
||
void encode_lev_passwd(char *passwd, int nlev, uint32_t *keylev, uint32_t *codlev);
|
||
int find_lev_passwd(char *passwd, uint32_t *keylev, uint32_t *codlev);
|
||
int check_lev_passwd(char *passwd);
|
||
void set_acckey(uint32_t newkey);
|
||
|
||
// restore packing
|
||
#pragma pack(pop)
|
||
//#pragma GCC diagnostic pop
|
||
|
||
#endif // __BTA_SHDATA_H__
|