Hamlib/include/hamlib/rotlist.h

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C

/*
* Hamlib Interface - list of known rotators
* Copyright (c) 2000-2011 by Stephane Fillod
* Copyright (c) 2000-2002 by Frank Singleton
*
*
* This library is free software; you can redistribute it and/or
* modify it under the terms of the GNU Lesser General Public
* License as published by the Free Software Foundation; either
* version 2.1 of the License, or (at your option) any later version.
*
* This library is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
* Lesser General Public License for more details.
*
* You should have received a copy of the GNU Lesser General Public
* License along with this library; if not, write to the Free Software
* Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA
*
*/
#ifndef _ROTLIST_H
#define _ROTLIST_H 1
#define ROT_MAKE_MODEL(a,b) ((a)*100+(b))
#define ROT_BACKEND_NUM(a) ((a)/100)
/**
* \addtogroup rotator
* @{
*/
/**
* \file rotlist.h
* \brief Hamlib rotator model definitions.
*
* This file contains rotator model definitions for the Hamlib rotator API.
* Each distinct rotator type has a unique model number (ID) and is used by
* hamlib to identify and distinguish between the different hardware drivers.
* The exact model numbers can be acquired using the macros in this file. To
* obtain a list of supported rotator branches, one can use the statically
* defined ROT_BACKEND_LIST macro. To obtain a full list of supported
* rotators (including each model in every branch), the foreach_opened_rot()
* API function can be used.
*
* The model number, or ID, is used to tell Hamlib which rotator the client
* whishes to use. It is done with the rot_init() API call.
*/
#define ROT_MODEL_NONE 0
/**
* \def ROT_MODEL_DUMMY
* \brief A macro that returns the model number for the dummy backend.
*
* The dummy backend, as the name suggests, is a backend which performs
* no hardware operations and always behaves as one would expect. It can
* be thought of as a hardware simulator and is very usefull for testing
* client applications.
*/
/**
* \def ROT_MODEL_NETROTCTL
* \brief A macro that returns the model number for the Network backend.
*
* This backend allows use of the rotctld daemon through the normal
* Hamlib API.
*/
#define ROT_DUMMY 0
#define ROT_BACKEND_DUMMY "dummy"
#define ROT_MODEL_DUMMY ROT_MAKE_MODEL(ROT_DUMMY, 1)
#define ROT_MODEL_NETROTCTL ROT_MAKE_MODEL(ROT_DUMMY, 2)
/*
* Easycomm
*/
/**
* \def ROT_MODEL_EASYCOMM1
* \brief A macro that returns the model number of the EasyComm 1 backend.
*
* The EasyComm 1 backend can be used with rotators that support the
* EASYCOMM I Standard.
*/
/**
* \def ROT_MODEL_EASYCOMM2
* \brief A macro that returns the model number of the EasyComm 2 backend.
*
* The EasyComm 2 backend can be used with rotators that support the
* EASYCOMM II Standard.
*/
#define ROT_EASYCOMM 2
#define ROT_BACKEND_EASYCOMM "easycomm"
#define ROT_MODEL_EASYCOMM1 ROT_MAKE_MODEL(ROT_EASYCOMM, 1)
#define ROT_MODEL_EASYCOMM2 ROT_MAKE_MODEL(ROT_EASYCOMM, 2)
#define ROT_MODEL_TRAKBOX ROT_MAKE_MODEL(ROT_EASYCOMM, 3)
#define ROT_MODEL_EASYCOMM3 ROT_MAKE_MODEL(ROT_EASYCOMM, 4)
/**
* \def ROT_MODEL_FODTRACK
* \brief A macro that returns the model number of the Fodtrack backend.
*
* The Fodtrack backend can be used with rotators that support the
* FODTRACK Standard.
*/
#define ROT_FODTRACK 3
#define ROT_BACKEND_FODTRACK "fodtrack"
#define ROT_MODEL_FODTRACK ROT_MAKE_MODEL(ROT_FODTRACK, 1)
/**
* \def ROT_MODEL_ROTOREZ
* \brief A macro that returns the model number of the Rotor-EZ backend.
*
* The Rotor-EZ backend can be used with Hy-Gain rotators that support
* the extended DCU command set by Idiom Press Rotor-EZ board.
*/
/**
* \def ROT_MODEL_ROTORCARD
* \brief A macro that returns the model number of the Rotor Card backend.
*
* The Rotor-EZ backend can be used with Yaesu rotators that support the
* extended DCU command set by Idiom Press Rotor Card board.
*/
/**
* \def ROT_MODEL_DCU
* \brief A macro that returns the model number of the DCU backend.
*
* The Rotor-EZ backend can be used with rotators that support the DCU
* command set by Hy-Gain (currently the DCU-1).
*/
/**
* \def ROT_MODEL_ERC
* \brief A macro that returns the model number of the ERC backend.
*
* The Rotor-EZ backend can be used with rotators that support the DCU
* command set by DF9GR (currently the ERC).
*/
/**
* \def ROT_MODEL_RT21
* \brief A macro that returns the model number of the RT21 backend.
*
* The Rotor-EZ backend can be used with rotators that support the DCU
* command set by Green Heron (currently the RT-21).
*/
#define ROT_ROTOREZ 4
#define ROT_BACKEND_ROTOREZ "rotorez"
#define ROT_MODEL_ROTOREZ ROT_MAKE_MODEL(ROT_ROTOREZ, 1)
#define ROT_MODEL_ROTORCARD ROT_MAKE_MODEL(ROT_ROTOREZ, 2)
#define ROT_MODEL_DCU ROT_MAKE_MODEL(ROT_ROTOREZ, 3)
#define ROT_MODEL_ERC ROT_MAKE_MODEL(ROT_ROTOREZ, 4)
#define ROT_MODEL_RT21 ROT_MAKE_MODEL(ROT_ROTOREZ, 5)
/**
* \def ROT_MODEL_SARTEK1
* \brief A macro that returns the model number of the SARtek-1 backend.
*
* The sartek backend can be used with rotators that support the SARtek
* protocol.
*/
#define ROT_SARTEK 5
#define ROT_BACKEND_SARTEK "sartek"
#define ROT_MODEL_SARTEK1 ROT_MAKE_MODEL(ROT_SARTEK, 1)
/**
* \def ROT_MODEL_GS232A
* \brief A macro that returns the model number of the GS-232A backend.
*
* The GS-232A backend can be used with rotators that support the GS-232A
* protocol.
*/
/**
* \def ROT_MODEL_GS232_GENERIC
* \brief A macro that returns the model number of the GS-232 backend.
*
* The GS-232 backend can be used with rotators that support the generic (even if not coded correctly) GS-232
* protocol.
*/
/**
* \def ROT_MODEL_GS232B
* \brief A macro that returns the model number of the GS-232B backend.
*
* The GS-232B backend can be used with rotators that support the GS-232B
* protocol.
*/
/**
* \def ROT_MODEL_F1TETRACKER
* \brief A macro that returns the model number of the F1TETRACKER backend.
*
* The F1TETRACKER backend can be used with rotators that support the
* F1TETRACKER protocol.
*/
/**
* \def ROT_MODEL_GS23
* \brief A macro that returns the model number of the GS23 backend.
*
* The GS23 backend can be used with rotators that support the
* GS23 protocol.
*/
/**
* \def ROT_MODEL_AMSAT_LVB
* \brief A macro that returns the model number of the AMSAT_LVB TRACKER backend.
*
* The AMSAT LVB TRACKER backend can be used with rotators that support the
* AMSAT LVB TRACKER GS232 based protocol.
*/
/**
* \def ROT_MODEL_ST2
* \brief A macro that returns the model number of the Fox Delta ST2 backend.
*
* The Fox Delta ST2 backend can be used with rotators that support the
* Fox Delta ST2 GS232 based protocol.
*/
#define ROT_GS232A 6
#define ROT_BACKEND_GS232A "gs232a"
#define ROT_MODEL_GS232A ROT_MAKE_MODEL(ROT_GS232A, 1)
#define ROT_MODEL_GS232_GENERIC ROT_MAKE_MODEL(ROT_GS232A, 2) /* GENERIC */
#define ROT_MODEL_GS232B ROT_MAKE_MODEL(ROT_GS232A, 3)
#define ROT_MODEL_F1TETRACKER ROT_MAKE_MODEL(ROT_GS232A, 4)
#define ROT_MODEL_GS23 ROT_MAKE_MODEL(ROT_GS232A, 5)
#define ROT_MODEL_GS232 ROT_MAKE_MODEL(ROT_GS232A, 6) /* Not A or B */
#define ROT_MODEL_LVB ROT_MAKE_MODEL(ROT_GS232A, 7)
#define ROT_MODEL_ST2 ROT_MAKE_MODEL(ROT_GS232A, 8)
/**
* \def ROT_MODEL_PCROTOR
* \brief A macro that returns the model number of the PcRotor/WA6UFQ backend.
*
* The kit backend can be used with home brewed rotators.
*/
#define ROT_KIT 7
#define ROT_BACKEND_KIT "kit"
#define ROT_MODEL_PCROTOR ROT_MAKE_MODEL(ROT_KIT, 1)
/**
* \def ROT_MODEL_HD1780
* \brief A macro that returns the model number of the HD 1780 backend.
*/
#define ROT_HEATHKIT 8
#define ROT_BACKEND_HEATHKIT "heathkit"
#define ROT_MODEL_HD1780 ROT_MAKE_MODEL(ROT_HEATHKIT, 1)
/**
* \def ROT_MODEL_SPID_ROT2PROG
* \brief A macro that returns the model number of the ROT2PROG backend.
*
* The SPID backend can be used with rotators that support the SPID protocol.
*/
/**
* \def ROT_MODEL_SPID_ROT1PROG
* \brief A macro that returns the model number of the ROT1PROG backend.
*
* The SPID backend can be used with rotators that support the SPID protocol.
*/
/**
* \def ROT_MODEL_SPID_MD01_ROT2PROG
* \brief A macro that returns the model number of the MD-01/02 (ROT2PROG protocol) backend.
*
* The SPID backend can be used with rotators that support the SPID protocol.
*/
#define ROT_SPID 9
#define ROT_BACKEND_SPID "spid"
#define ROT_MODEL_SPID_ROT2PROG ROT_MAKE_MODEL(ROT_SPID, 1)
#define ROT_MODEL_SPID_ROT1PROG ROT_MAKE_MODEL(ROT_SPID, 2)
#define ROT_MODEL_SPID_MD01_ROT2PROG ROT_MAKE_MODEL(ROT_SPID, 3)
/**
* \def ROT_MODEL_RC2800
* \brief A macro that returns the model number of the RC2800 backend.
*
* The M2 backend can be used with rotators that support the RC2800 protocol
* and alike.
*/
#define ROT_M2 10
#define ROT_BACKEND_M2 "m2"
#define ROT_MODEL_RC2800 ROT_MAKE_MODEL(ROT_M2, 1)
/**
* \def ROT_MODEL_RCI_AZEL
* \brief A macro that returns the model number of the RCI_AZEL backend.
*
* The ARS backend can be used with rotators that support the ARS protocol.
*/
/**
* \def ROT_MODEL_RCI_AZ
* \brief A macro that returns the model number of the RCI_AZ backend.
*
* The ARS backend can be used with rotators that support the ARS protocol.
*/
#define ROT_ARS 11
#define ROT_BACKEND_ARS "ars"
#define ROT_MODEL_RCI_AZEL ROT_MAKE_MODEL(ROT_ARS, 1)
#define ROT_MODEL_RCI_AZ ROT_MAKE_MODEL(ROT_ARS, 2)
/**
* \def ROT_MODEL_IF100
* \brief A macro that returns the model number of the IF-100 backend.
*
* The AMSAT backend can be used with rotators that support, among other, the
* IF-100 interface.
*/
#define ROT_AMSAT 12
#define ROT_BACKEND_AMSAT "amsat"
#define ROT_MODEL_IF100 ROT_MAKE_MODEL(ROT_AMSAT, 1)
/**
* \def ROT_MODEL_TS7400
* \brief A macro that returns the model number of the TS7400 backend.
*
* The TS-7400 backend supports and embedded ARM board using the TS-7400
* Linux board. More information is at http://www.embeddedarm.com
*/
#define ROT_TS7400 13
#define ROT_BACKEND_TS7400 "ts7400"
#define ROT_MODEL_TS7400 ROT_MAKE_MODEL(ROT_TS7400, 1)
/**
* \def ROT_MODEL_NEXSTAR
* \brief A macro that returns the model number of the NEXSTAR backend.
*
* The CELESTRON backend can be used with rotators that support the Celestron
* protocol and alike.
*/
#define ROT_CELESTRON 14
#define ROT_BACKEND_CELESTRON "celestron"
#define ROT_MODEL_NEXSTAR ROT_MAKE_MODEL(ROT_CELESTRON, 1)
/**
* \def ROT_MODEL_ETHER6
* \brief A macro that returns the model number of the Ether6 backend.
*
* The Ether6 backend can be used with rotators that support the Ether6
* protocol and alike.
*/
#define ROT_ETHER6 15
#define ROT_BACKEND_ETHER6 "ether6"
#define ROT_MODEL_ETHER6 ROT_MAKE_MODEL(ROT_ETHER6, 1)
/**
* \def ROT_MODEL_CNCTRK
* \brief A macro that returns the model number of the CNCTRK backend.
*
* The CNCTRK backend can be used with rotators that support the LinuxCNC
* running Axis GUI interface.
*/
#define ROT_CNCTRK 16
#define ROT_BACKEND_CNCTRK "cnctrk"
#define ROT_MODEL_CNCTRK ROT_MAKE_MODEL(ROT_CNCTRK, 1)
/**
* \def ROT_MODEL_PROSISTEL
* \brief A macro that returns the model number of the PROSISTEL backend.
*
*/
#define ROT_PROSISTEL 17
#define ROT_BACKEND_PROSISTEL "prosistel"
#define ROT_MODEL_PROSISTEL ROT_MAKE_MODEL(ROT_PROSISTEL, 1)
/**
* \def ROT_MODEL_MEADE
* \brief A macro that returns the model number of the MEADE backend.
*
* The MEADE backen can be used with Meade telescope rotators like
* DS-2000
*/
#define ROT_MEADE 18
#define ROT_BACKEND_MEADE "meade"
#define ROT_MODEL_MEADE ROT_MAKE_MODEL(ROT_MEADE, 1)
/**
* \def ROT_MODEL_IOPTRON
* \brief A macro that returns the model number of the IOPTRON backend.
*
* The IOPTRON backen can be used with IOPTRON telescope mounts
*/
#define ROT_IOPTRON 19
#define ROT_BACKEND_IOPTRON "ioptron"
#define ROT_MODEL_IOPTRON ROT_MAKE_MODEL(ROT_IOPTRON, 1)
/**
* \typedef typedef int rot_model_t
* \brief Convenience type definition for rotator model.
*/
typedef int rot_model_t;
#endif /* _ROTLIST_H */
/** @} */