kopia lustrzana https://github.com/Hamlib/Hamlib
* made RIG_VFO_CURR different than RIG_VFO_NONE
* added RIG_TS_ANY, RIG_FLT_ANY for free form tuning_step and filters * added support for set RTS/DTR state of the serial port git-svn-id: https://hamlib.svn.sourceforge.net/svnroot/hamlib/trunk@1376 7ae35d74-ebe9-4afe-98af-79ac388436b8Hamlib-1.1.4
rodzic
e9b377f9bc
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f78e4e655c
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@ -2,7 +2,7 @@
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* Hamlib Interface - API header
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* Copyright (c) 2000-2002 by Stephane Fillod and Frank Singleton
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*
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* $Id: rig.h,v 1.73 2002-12-16 22:02:28 fillods Exp $
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* $Id: rig.h,v 1.74 2003-02-23 22:34:54 fillods Exp $
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*
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* This library is free software; you can redistribute it and/or modify
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* it under the terms of the GNU Library General Public License as
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@ -180,6 +180,15 @@ enum serial_handshake_e {
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};
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/**
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* \brief Serial control state
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*/
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enum serial_control_state_e {
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RIG_SIGNAL_UNSET = 0, /*!< Unset or tri-state */
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RIG_SIGNAL_ON, /*!< ON */
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RIG_SIGNAL_OFF /*!< OFF */
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};
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#define RIG_FLAG_RECEIVER (1<<1)
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#define RIG_FLAG_TRANSMITTER (1<<2)
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#define RIG_FLAG_SCANNER (1<<3)
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@ -294,16 +303,16 @@ typedef signed long shortfreq_t;
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*/
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typedef int vfo_t;
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/** \brief current "tunable channel"/VFO */
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#define RIG_VFO_CURR 0
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/** \brief used in caps */
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#define RIG_VFO_NONE 0
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/** \brief current "tunable channel"/VFO */
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#define RIG_VFO_CURR -6
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/** \brief means Memory mode, to be used with set_vfo */
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#define RIG_VFO_MEM -2
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/** \brief means (any)VFO mode, with set_vfo */
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/** \brief means (last or any)VFO mode, with set_vfo */
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#define RIG_VFO_VFO -3
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/** \brief alias for split tx or uplink */
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@ -324,8 +333,8 @@ typedef int vfo_t;
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#define RIG_VFO_A (RIG_CTRL_BAND(RIG_CTRL_MAIN, RIG_VFO1))
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#define RIG_VFO_B (RIG_CTRL_BAND(RIG_CTRL_MAIN, RIG_VFO2))
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#define RIG_VFO_C (RIG_CTRL_BAND(RIG_CTRL_SUB, RIG_VFO1))
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#define RIG_VFO_MAIN (RIG_CTRL_BAND(RIG_CTRL_MAIN, RIG_VFO_CURR))
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#define RIG_VFO_SUB (RIG_CTRL_BAND(RIG_CTRL_SUB, RIG_VFO_CURR))
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#define RIG_VFO_MAIN (RIG_CTRL_BAND(RIG_CTRL_MAIN, 0))
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#define RIG_VFO_SUB (RIG_CTRL_BAND(RIG_CTRL_SUB, 0))
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#define RIG_TARGETABLE_NONE 0x00
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@ -726,15 +735,28 @@ typedef struct freq_range_list freq_range_t;
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/**
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* \brief Tuning step definition
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*
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* Lists the tuning steps available for each mode
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* Lists the tuning steps available for each mode.
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*
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* \sa rig_set_ts
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* If in the list a ts field has RIG_TS_ANY value,
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* this means the rig allows its tuning step to be
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* set to any value ranging from the lowest to the
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* highest (if any) value in the list for that mode.
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* The tuning step must be sorted in the ascending
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* order, and the RIG_TS_ANY value, if present, must
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* be the last one in the list.
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*
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* Note also that the minimum frequency resolution
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* of the rig is determined by the lowest value
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* in the Tuning step list.
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*
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* \sa rig_set_ts, rig_get_resolution
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*/
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struct tuning_step_list {
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rmode_t modes; /*!< Bit field of RIG_MODE's */
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shortfreq_t ts; /*!< Tuning step in Hz */
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};
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#define RIG_TS_ANY 0
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#define RIG_TS_END {RIG_MODE_NONE,0}
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#define RIG_IS_TS_END(t) ((t).modes == RIG_MODE_NONE && (t).ts == 0)
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@ -752,6 +774,16 @@ struct tuning_step_list {
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* Note: if there's no lower width or upper width, then narrow or
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* respectively wide passband is equal to the default normal passband.
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*
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* If in the list a width field has RIG_FLT_ANY value,
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* this means the rig allows its passband width to be
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* set to any value ranging from the lowest to the
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* highest value (if any) in the list for that mode.
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* The RIG_TS_ANY value, if present, must
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* be the last one in the list.
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*
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* The width field is the narrowest passband in a transmit/receive chain
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* with regard to different IF.
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*
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* \sa rig_set_mode, rig_passband_normal, rig_passband_narrow, rig_passband_wide
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*/
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struct filter_list {
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@ -759,6 +791,7 @@ struct filter_list {
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pbwidth_t width; /*!< Passband width in Hz */
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};
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#define RIG_FLT_ANY 0
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#define RIG_FLT_END {RIG_MODE_NONE,0}
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#define RIG_IS_FLT_END(f) ((f).modes == RIG_MODE_NONE)
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@ -1161,6 +1194,8 @@ typedef struct {
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int stop_bits; /*!< Number of stop bits */
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enum serial_parity_e parity; /*!< Serial parity */
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enum serial_handshake_e handshake; /*!< Serial handshake */
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enum serial_control_state_e rts_state; /*!< RTS set state */
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enum serial_control_state_e dtr_state; /*!< DTR set state */
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} serial; /*!< serial attributes */
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struct {
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int pin; /*!< Parrallel port pin number */
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