--- /dev/null
+/*==========================================================================;\r
+ *\r
+ * Copyright (C) 1995,1996 Microsoft Corporation. All Rights Reserved.\r
+ *\r
+ * File: dsound.h\r
+ * Content: DirectSound include file\r
+ *\r
+ **************************************************************************/\r
+\r
+#ifndef __DSOUND_INCLUDED__\r
+#define __DSOUND_INCLUDED__\r
+\r
+#include <d3dtypes.h>\r
+\r
+#define COM_NO_WINDOWS_H\r
+#include <objbase.h>\r
+\r
+#define _FACDS 0x878\r
+#define MAKE_DSHRESULT(code) MAKE_HRESULT(1, _FACDS, code)\r
+\r
+#ifdef __cplusplus\r
+extern "C" {\r
+#endif // __cplusplus\r
+\r
+// Direct Sound Component GUID {47D4D946-62E8-11cf-93BC-444553540000}\r
+DEFINE_GUID(CLSID_DirectSound, 0x47d4d946, 0x62e8, 0x11cf, 0x93, 0xbc, 0x44, 0x45, 0x53, 0x54, 0x0, 0x0);\r
+\r
+// DirectSound Capture Component GUID {B0210780-89CD-11d0-AF08-00A0C925CD16}\r
+DEFINE_GUID(CLSID_DirectSoundCapture, 0xb0210780, 0x89cd, 0x11d0, 0xaf, 0x8, 0x0, 0xa0, 0xc9, 0x25, 0xcd, 0x16);\r
+\r
+//\r
+// Structures\r
+// \r
+\r
+#ifdef __cplusplus\r
+// 'struct' not 'class' per the way DECLARE_INTERFACE_ is defined\r
+struct IDirectSound;\r
+struct IDirectSoundBuffer;\r
+struct IDirectSound3DListener;\r
+struct IDirectSound3DBuffer;\r
+struct IDirectSoundCapture;\r
+struct IDirectSoundCaptureBuffer;\r
+struct IDirectSoundNotify;\r
+#endif // __cplusplus\r
+\r
+typedef struct IDirectSound *LPDIRECTSOUND;\r
+typedef struct IDirectSoundBuffer *LPDIRECTSOUNDBUFFER;\r
+typedef struct IDirectSound3DListener *LPDIRECTSOUND3DLISTENER;\r
+typedef struct IDirectSound3DBuffer *LPDIRECTSOUND3DBUFFER;\r
+typedef struct IDirectSoundCapture *LPDIRECTSOUNDCAPTURE;\r
+typedef struct IDirectSoundCaptureBuffer *LPDIRECTSOUNDCAPTUREBUFFER;\r
+typedef struct IDirectSoundNotify *LPDIRECTSOUNDNOTIFY;\r
+\r
+typedef struct _DSCAPS\r
+{\r
+ DWORD dwSize;\r
+ DWORD dwFlags;\r
+ DWORD dwMinSecondarySampleRate;\r
+ DWORD dwMaxSecondarySampleRate;\r
+ DWORD dwPrimaryBuffers;\r
+ DWORD dwMaxHwMixingAllBuffers;\r
+ DWORD dwMaxHwMixingStaticBuffers;\r
+ DWORD dwMaxHwMixingStreamingBuffers;\r
+ DWORD dwFreeHwMixingAllBuffers;\r
+ DWORD dwFreeHwMixingStaticBuffers;\r
+ DWORD dwFreeHwMixingStreamingBuffers;\r
+ DWORD dwMaxHw3DAllBuffers;\r
+ DWORD dwMaxHw3DStaticBuffers;\r
+ DWORD dwMaxHw3DStreamingBuffers;\r
+ DWORD dwFreeHw3DAllBuffers;\r
+ DWORD dwFreeHw3DStaticBuffers;\r
+ DWORD dwFreeHw3DStreamingBuffers;\r
+ DWORD dwTotalHwMemBytes;\r
+ DWORD dwFreeHwMemBytes;\r
+ DWORD dwMaxContigFreeHwMemBytes;\r
+ DWORD dwUnlockTransferRateHwBuffers;\r
+ DWORD dwPlayCpuOverheadSwBuffers;\r
+ DWORD dwReserved1;\r
+ DWORD dwReserved2;\r
+} DSCAPS, *LPDSCAPS;\r
+\r
+typedef const DSCAPS *LPCDSCAPS;\r
+\r
+typedef struct _DSBCAPS\r
+{\r
+ DWORD dwSize;\r
+ DWORD dwFlags;\r
+ DWORD dwBufferBytes;\r
+ DWORD dwUnlockTransferRate;\r
+ DWORD dwPlayCpuOverhead;\r
+} DSBCAPS, *LPDSBCAPS;\r
+\r
+typedef const DSBCAPS *LPCDSBCAPS;\r
+\r
+typedef struct _DSBUFFERDESC\r
+{\r
+ DWORD dwSize;\r
+ DWORD dwFlags;\r
+ DWORD dwBufferBytes;\r
+ DWORD dwReserved;\r
+ LPWAVEFORMATEX lpwfxFormat;\r
+} DSBUFFERDESC, *LPDSBUFFERDESC;\r
+\r
+typedef const DSBUFFERDESC *LPCDSBUFFERDESC;\r
+\r
+typedef struct _DS3DBUFFER\r
+{\r
+ DWORD dwSize;\r
+ D3DVECTOR vPosition;\r
+ D3DVECTOR vVelocity;\r
+ DWORD dwInsideConeAngle;\r
+ DWORD dwOutsideConeAngle;\r
+ D3DVECTOR vConeOrientation;\r
+ LONG lConeOutsideVolume;\r
+ D3DVALUE flMinDistance;\r
+ D3DVALUE flMaxDistance;\r
+ DWORD dwMode;\r
+} DS3DBUFFER, *LPDS3DBUFFER;\r
+\r
+typedef const DS3DBUFFER *LPCDS3DBUFFER;\r
+\r
+typedef struct _DS3DLISTENER\r
+{\r
+ DWORD dwSize;\r
+ D3DVECTOR vPosition;\r
+ D3DVECTOR vVelocity;\r
+ D3DVECTOR vOrientFront;\r
+ D3DVECTOR vOrientTop;\r
+ D3DVALUE flDistanceFactor;\r
+ D3DVALUE flRolloffFactor;\r
+ D3DVALUE flDopplerFactor;\r
+} DS3DLISTENER, *LPDS3DLISTENER;\r
+\r
+typedef const DS3DLISTENER *LPCDS3DLISTENER;\r
+\r
+typedef struct _DSCCAPS\r
+{\r
+ DWORD dwSize;\r
+ DWORD dwFlags;\r
+ DWORD dwFormats;\r
+ DWORD dwChannels;\r
+} DSCCAPS, *LPDSCCAPS;\r
+\r
+typedef const DSCCAPS *LPCDSCCAPS;\r
+\r
+typedef struct _DSCBUFFERDESC\r
+{\r
+ DWORD dwSize;\r
+ DWORD dwFlags;\r
+ DWORD dwBufferBytes;\r
+ DWORD dwReserved;\r
+ LPWAVEFORMATEX lpwfxFormat;\r
+} DSCBUFFERDESC, *LPDSCBUFFERDESC;\r
+\r
+typedef const DSCBUFFERDESC *LPCDSCBUFFERDESC;\r
+\r
+typedef struct _DSCBCAPS \r
+{\r
+ DWORD dwSize;\r
+ DWORD dwFlags;\r
+ DWORD dwBufferBytes;\r
+ DWORD dwReserved;\r
+} DSCBCAPS, *LPDSCBCAPS;\r
+\r
+typedef const DSCBCAPS *LPCDSCBCAPS;\r
+\r
+typedef struct _DSBPOSITIONNOTIFY\r
+{\r
+ DWORD dwOffset;\r
+ HANDLE hEventNotify;\r
+} DSBPOSITIONNOTIFY, *LPDSBPOSITIONNOTIFY;\r
+\r
+typedef const DSBPOSITIONNOTIFY *LPCDSBPOSITIONNOTIFY;\r
+\r
+//\r
+// Compatibility typedefs\r
+//\r
+\r
+typedef LPDIRECTSOUND *LPLPDIRECTSOUND;\r
+typedef LPDIRECTSOUNDBUFFER *LPLPDIRECTSOUNDBUFFER;\r
+typedef LPDIRECTSOUND3DLISTENER *LPLPDIRECTSOUND3DLISTENER;\r
+typedef LPDIRECTSOUND3DBUFFER *LPLPDIRECTSOUND3DBUFFER;\r
+typedef LPDIRECTSOUNDCAPTURE *LPLPDIRECTSOUNDCAPTURE;\r
+typedef LPDIRECTSOUNDCAPTUREBUFFER *LPLPDIRECTSOUNDCAPTUREBUFFER;\r
+typedef LPDIRECTSOUNDNOTIFY *LPLPDIRECTSOUNDNOTIFY;\r
+typedef LPVOID *LPLPVOID;\r
+typedef const WAVEFORMATEX *LPCWAVEFORMATEX;\r
+\r
+//\r
+// DirectSound API\r
+//\r
+\r
+typedef BOOL (CALLBACK *LPDSENUMCALLBACKW)(LPGUID, LPCWSTR, LPCWSTR, LPVOID);\r
+typedef BOOL (CALLBACK *LPDSENUMCALLBACKA)(LPGUID, LPCSTR, LPCSTR, LPVOID);\r
+\r
+extern HRESULT WINAPI DirectSoundCreate(LPGUID, LPDIRECTSOUND *, LPUNKNOWN);\r
+extern HRESULT WINAPI DirectSoundEnumerateW(LPDSENUMCALLBACKW, LPVOID);\r
+extern HRESULT WINAPI DirectSoundEnumerateA(LPDSENUMCALLBACKA, LPVOID);\r
+\r
+extern HRESULT WINAPI DirectSoundCaptureCreate(LPGUID, LPDIRECTSOUNDCAPTURE *, LPUNKNOWN);\r
+extern HRESULT WINAPI DirectSoundCaptureEnumerateW(LPDSENUMCALLBACKW, LPVOID);\r
+extern HRESULT WINAPI DirectSoundCaptureEnumerateA(LPDSENUMCALLBACKA, LPVOID);\r
+\r
+#ifdef UNICODE\r
+#define LPDSENUMCALLBACK LPDSENUMCALLBACKW\r
+#define DirectSoundEnumerate DirectSoundEnumerateW\r
+#define DirectSoundCaptureEnumerate DirectSoundCaptureEnumerateW\r
+#else // UNICODE\r
+#define LPDSENUMCALLBACK LPDSENUMCALLBACKA\r
+#define DirectSoundEnumerate DirectSoundEnumerateA\r
+#define DirectSoundCaptureEnumerate DirectSoundCaptureEnumerateA\r
+#endif // UNICODE\r
+\r
+//\r
+// IDirectSound\r
+//\r
+\r
+DEFINE_GUID(IID_IDirectSound, 0x279AFA83, 0x4981, 0x11CE, 0xA5, 0x21, 0x00, 0x20, 0xAF, 0x0B, 0xE5, 0x60);\r
+\r
+#undef INTERFACE\r
+#define INTERFACE IDirectSound\r
+\r
+DECLARE_INTERFACE_(IDirectSound, IUnknown)\r
+{\r
+ // IUnknown methods\r
+ STDMETHOD(QueryInterface) (THIS_ REFIID, LPVOID FAR *) PURE;\r
+ STDMETHOD_(ULONG,AddRef) (THIS) PURE;\r
+ STDMETHOD_(ULONG,Release) (THIS) PURE;\r
+ \r
+ // IDirectSound methods\r
+ STDMETHOD(CreateSoundBuffer) (THIS_ LPCDSBUFFERDESC, LPDIRECTSOUNDBUFFER *, LPUNKNOWN) PURE;\r
+ STDMETHOD(GetCaps) (THIS_ LPDSCAPS) PURE;\r
+ STDMETHOD(DuplicateSoundBuffer) (THIS_ LPDIRECTSOUNDBUFFER, LPDIRECTSOUNDBUFFER *) PURE;\r
+ STDMETHOD(SetCooperativeLevel) (THIS_ HWND, DWORD) PURE;\r
+ STDMETHOD(Compact) (THIS) PURE;\r
+ STDMETHOD(GetSpeakerConfig) (THIS_ LPDWORD) PURE;\r
+ STDMETHOD(SetSpeakerConfig) (THIS_ DWORD) PURE;\r
+ STDMETHOD(Initialize) (THIS_ LPGUID) PURE;\r
+};\r
+\r
+#if !defined(__cplusplus) || defined(CINTERFACE)\r
+#define IDirectSound_QueryInterface(p,a,b) (p)->lpVtbl->QueryInterface(p,a,b)\r
+#define IDirectSound_AddRef(p) (p)->lpVtbl->AddRef(p)\r
+#define IDirectSound_Release(p) (p)->lpVtbl->Release(p)\r
+#define IDirectSound_CreateSoundBuffer(p,a,b,c) (p)->lpVtbl->CreateSoundBuffer(p,a,b,c)\r
+#define IDirectSound_GetCaps(p,a) (p)->lpVtbl->GetCaps(p,a)\r
+#define IDirectSound_DuplicateSoundBuffer(p,a,b) (p)->lpVtbl->DuplicateSoundBuffer(p,a,b)\r
+#define IDirectSound_SetCooperativeLevel(p,a,b) (p)->lpVtbl->SetCooperativeLevel(p,a,b)\r
+#define IDirectSound_Compact(p) (p)->lpVtbl->Compact(p)\r
+#define IDirectSound_GetSpeakerConfig(p,a) (p)->lpVtbl->GetSpeakerConfig(p,a)\r
+#define IDirectSound_SetSpeakerConfig(p,b) (p)->lpVtbl->SetSpeakerConfig(p,b)\r
+#define IDirectSound_Initialize(p,a) (p)->lpVtbl->Initialize(p,a)\r
+#else // !defined(__cplusplus) || defined(CINTERFACE)\r
+#define IDirectSound_QueryInterface(p,a,b) (p)->QueryInterface(a,b)\r
+#define IDirectSound_AddRef(p) (p)->AddRef()\r
+#define IDirectSound_Release(p) (p)->Release()\r
+#define IDirectSound_CreateSoundBuffer(p,a,b,c) (p)->CreateSoundBuffer(a,b,c)\r
+#define IDirectSound_GetCaps(p,a) (p)->GetCaps(a)\r
+#define IDirectSound_DuplicateSoundBuffer(p,a,b) (p)->DuplicateSoundBuffer(a,b)\r
+#define IDirectSound_SetCooperativeLevel(p,a,b) (p)->SetCooperativeLevel(a,b)\r
+#define IDirectSound_Compact(p) (p)->Compact()\r
+#define IDirectSound_GetSpeakerConfig(p,a) (p)->GetSpeakerConfig(a)\r
+#define IDirectSound_SetSpeakerConfig(p,b) (p)->SetSpeakerConfig(b)\r
+#define IDirectSound_Initialize(p,a) (p)->Initialize(a)\r
+#endif // !defined(__cplusplus) || defined(CINTERFACE)\r
+\r
+//\r
+// IDirectSoundBuffer\r
+//\r
+\r
+DEFINE_GUID(IID_IDirectSoundBuffer, 0x279AFA85, 0x4981, 0x11CE, 0xA5, 0x21, 0x00, 0x20, 0xAF, 0x0B, 0xE5, 0x60);\r
+\r
+#undef INTERFACE\r
+#define INTERFACE IDirectSoundBuffer\r
+\r
+DECLARE_INTERFACE_(IDirectSoundBuffer, IUnknown)\r
+{\r
+ // IUnknown methods\r
+ STDMETHOD(QueryInterface) (THIS_ REFIID, LPVOID FAR *) PURE;\r
+ STDMETHOD_(ULONG,AddRef) (THIS) PURE;\r
+ STDMETHOD_(ULONG,Release) (THIS) PURE;\r
+ \r
+ // IDirectSoundBuffer methods\r
+ STDMETHOD(GetCaps) (THIS_ LPDSBCAPS) PURE;\r
+ STDMETHOD(GetCurrentPosition) (THIS_ LPDWORD, LPDWORD) PURE;\r
+ STDMETHOD(GetFormat) (THIS_ LPWAVEFORMATEX, DWORD, LPDWORD) PURE;\r
+ STDMETHOD(GetVolume) (THIS_ LPLONG) PURE;\r
+ STDMETHOD(GetPan) (THIS_ LPLONG) PURE;\r
+ STDMETHOD(GetFrequency) (THIS_ LPDWORD) PURE;\r
+ STDMETHOD(GetStatus) (THIS_ LPDWORD) PURE;\r
+ STDMETHOD(Initialize) (THIS_ LPDIRECTSOUND, LPCDSBUFFERDESC) PURE;\r
+ STDMETHOD(Lock) (THIS_ DWORD, DWORD, LPVOID *, LPDWORD, LPVOID *, LPDWORD, DWORD) PURE;\r
+ STDMETHOD(Play) (THIS_ DWORD, DWORD, DWORD) PURE;\r
+ STDMETHOD(SetCurrentPosition) (THIS_ DWORD) PURE;\r
+ STDMETHOD(SetFormat) (THIS_ LPCWAVEFORMATEX) PURE;\r
+ STDMETHOD(SetVolume) (THIS_ LONG) PURE;\r
+ STDMETHOD(SetPan) (THIS_ LONG) PURE;\r
+ STDMETHOD(SetFrequency) (THIS_ DWORD) PURE;\r
+ STDMETHOD(Stop) (THIS) PURE;\r
+ STDMETHOD(Unlock) (THIS_ LPVOID, DWORD, LPVOID, DWORD) PURE;\r
+ STDMETHOD(Restore) (THIS) PURE;\r
+};\r
+\r
+#if !defined(__cplusplus) || defined(CINTERFACE)\r
+#define IDirectSoundBuffer_QueryInterface(p,a,b) (p)->lpVtbl->QueryInterface(p,a,b)\r
+#define IDirectSoundBuffer_AddRef(p) (p)->lpVtbl->AddRef(p)\r
+#define IDirectSoundBuffer_Release(p) (p)->lpVtbl->Release(p)\r
+#define IDirectSoundBuffer_GetCaps(p,a) (p)->lpVtbl->GetCaps(p,a)\r
+#define IDirectSoundBuffer_GetCurrentPosition(p,a,b) (p)->lpVtbl->GetCurrentPosition(p,a,b)\r
+#define IDirectSoundBuffer_GetFormat(p,a,b,c) (p)->lpVtbl->GetFormat(p,a,b,c)\r
+#define IDirectSoundBuffer_GetVolume(p,a) (p)->lpVtbl->GetVolume(p,a)\r
+#define IDirectSoundBuffer_GetPan(p,a) (p)->lpVtbl->GetPan(p,a)\r
+#define IDirectSoundBuffer_GetFrequency(p,a) (p)->lpVtbl->GetFrequency(p,a)\r
+#define IDirectSoundBuffer_GetStatus(p,a) (p)->lpVtbl->GetStatus(p,a)\r
+#define IDirectSoundBuffer_Initialize(p,a,b) (p)->lpVtbl->Initialize(p,a,b)\r
+#define IDirectSoundBuffer_Lock(p,a,b,c,d,e,f,g) (p)->lpVtbl->Lock(p,a,b,c,d,e,f,g)\r
+#define IDirectSoundBuffer_Play(p,a,b,c) (p)->lpVtbl->Play(p,a,b,c)\r
+#define IDirectSoundBuffer_SetCurrentPosition(p,a) (p)->lpVtbl->SetCurrentPosition(p,a)\r
+#define IDirectSoundBuffer_SetFormat(p,a) (p)->lpVtbl->SetFormat(p,a)\r
+#define IDirectSoundBuffer_SetVolume(p,a) (p)->lpVtbl->SetVolume(p,a)\r
+#define IDirectSoundBuffer_SetPan(p,a) (p)->lpVtbl->SetPan(p,a)\r
+#define IDirectSoundBuffer_SetFrequency(p,a) (p)->lpVtbl->SetFrequency(p,a)\r
+#define IDirectSoundBuffer_Stop(p) (p)->lpVtbl->Stop(p)\r
+#define IDirectSoundBuffer_Unlock(p,a,b,c,d) (p)->lpVtbl->Unlock(p,a,b,c,d)\r
+#define IDirectSoundBuffer_Restore(p) (p)->lpVtbl->Restore(p)\r
+#else // !defined(__cplusplus) || defined(CINTERFACE)\r
+#define IDirectSoundBuffer_QueryInterface(p,a,b) (p)->QueryInterface(a,b)\r
+#define IDirectSoundBuffer_AddRef(p) (p)->AddRef()\r
+#define IDirectSoundBuffer_Release(p) (p)->Release()\r
+#define IDirectSoundBuffer_GetCaps(p,a) (p)->GetCaps(a)\r
+#define IDirectSoundBuffer_GetCurrentPosition(p,a,b) (p)->GetCurrentPosition(a,b)\r
+#define IDirectSoundBuffer_GetFormat(p,a,b,c) (p)->GetFormat(a,b,c)\r
+#define IDirectSoundBuffer_GetVolume(p,a) (p)->GetVolume(a)\r
+#define IDirectSoundBuffer_GetPan(p,a) (p)->GetPan(a)\r
+#define IDirectSoundBuffer_GetFrequency(p,a) (p)->GetFrequency(a)\r
+#define IDirectSoundBuffer_GetStatus(p,a) (p)->GetStatus(a)\r
+#define IDirectSoundBuffer_Initialize(p,a,b) (p)->Initialize(a,b)\r
+#define IDirectSoundBuffer_Lock(p,a,b,c,d,e,f,g) (p)->Lock(a,b,c,d,e,f,g)\r
+#define IDirectSoundBuffer_Play(p,a,b,c) (p)->Play(a,b,c)\r
+#define IDirectSoundBuffer_SetCurrentPosition(p,a) (p)->SetCurrentPosition(a)\r
+#define IDirectSoundBuffer_SetFormat(p,a) (p)->SetFormat(a)\r
+#define IDirectSoundBuffer_SetVolume(p,a) (p)->SetVolume(a)\r
+#define IDirectSoundBuffer_SetPan(p,a) (p)->SetPan(a)\r
+#define IDirectSoundBuffer_SetFrequency(p,a) (p)->SetFrequency(a)\r
+#define IDirectSoundBuffer_Stop(p) (p)->Stop()\r
+#define IDirectSoundBuffer_Unlock(p,a,b,c,d) (p)->Unlock(a,b,c,d)\r
+#define IDirectSoundBuffer_Restore(p) (p)->Restore()\r
+#endif // !defined(__cplusplus) || defined(CINTERFACE)\r
+\r
+//\r
+// IDirectSound3DListener\r
+//\r
+\r
+DEFINE_GUID(IID_IDirectSound3DListener, 0x279AFA84, 0x4981, 0x11CE, 0xA5, 0x21, 0x00, 0x20, 0xAF, 0x0B, 0xE5, 0x60);\r
+\r
+#undef INTERFACE\r
+#define INTERFACE IDirectSound3DListener\r
+\r
+DECLARE_INTERFACE_(IDirectSound3DListener, IUnknown)\r
+{\r
+ // IUnknown methods\r
+ STDMETHOD(QueryInterface) (THIS_ REFIID, LPVOID FAR *) PURE;\r
+ STDMETHOD_(ULONG,AddRef) (THIS) PURE;\r
+ STDMETHOD_(ULONG,Release) (THIS) PURE;\r
+\r
+ // IDirectSound3D methods\r
+ STDMETHOD(GetAllParameters) (THIS_ LPDS3DLISTENER) PURE;\r
+ STDMETHOD(GetDistanceFactor) (THIS_ LPD3DVALUE) PURE;\r
+ STDMETHOD(GetDopplerFactor) (THIS_ LPD3DVALUE) PURE;\r
+ STDMETHOD(GetOrientation) (THIS_ LPD3DVECTOR, LPD3DVECTOR) PURE;\r
+ STDMETHOD(GetPosition) (THIS_ LPD3DVECTOR) PURE;\r
+ STDMETHOD(GetRolloffFactor) (THIS_ LPD3DVALUE) PURE;\r
+ STDMETHOD(GetVelocity) (THIS_ LPD3DVECTOR) PURE;\r
+ STDMETHOD(SetAllParameters) (THIS_ LPCDS3DLISTENER, DWORD) PURE;\r
+ STDMETHOD(SetDistanceFactor) (THIS_ D3DVALUE, DWORD) PURE;\r
+ STDMETHOD(SetDopplerFactor) (THIS_ D3DVALUE, DWORD) PURE;\r
+ STDMETHOD(SetOrientation) (THIS_ D3DVALUE, D3DVALUE, D3DVALUE, D3DVALUE, D3DVALUE, D3DVALUE, DWORD) PURE;\r
+ STDMETHOD(SetPosition) (THIS_ D3DVALUE, D3DVALUE, D3DVALUE, DWORD) PURE;\r
+ STDMETHOD(SetRolloffFactor) (THIS_ D3DVALUE, DWORD) PURE;\r
+ STDMETHOD(SetVelocity) (THIS_ D3DVALUE, D3DVALUE, D3DVALUE, DWORD) PURE;\r
+ STDMETHOD(CommitDeferredSettings) (THIS) PURE;\r
+};\r
+\r
+#if !defined(__cplusplus) || defined(CINTERFACE)\r
+#define IDirectSound3DListener_QueryInterface(p,a,b) (p)->lpVtbl->QueryInterface(p,a,b)\r
+#define IDirectSound3DListener_AddRef(p) (p)->lpVtbl->AddRef(p)\r
+#define IDirectSound3DListener_Release(p) (p)->lpVtbl->Release(p)\r
+#define IDirectSound3DListener_GetAllParameters(p,a) (p)->lpVtbl->GetAllParameters(p,a)\r
+#define IDirectSound3DListener_GetDistanceFactor(p,a) (p)->lpVtbl->GetDistanceFactor(p,a)\r
+#define IDirectSound3DListener_GetDopplerFactor(p,a) (p)->lpVtbl->GetDopplerFactor(p,a)\r
+#define IDirectSound3DListener_GetOrientation(p,a,b) (p)->lpVtbl->GetOrientation(p,a,b)\r
+#define IDirectSound3DListener_GetPosition(p,a) (p)->lpVtbl->GetPosition(p,a)\r
+#define IDirectSound3DListener_GetRolloffFactor(p,a) (p)->lpVtbl->GetRolloffFactor(p,a)\r
+#define IDirectSound3DListener_GetVelocity(p,a) (p)->lpVtbl->GetVelocity(p,a)\r
+#define IDirectSound3DListener_SetAllParameters(p,a,b) (p)->lpVtbl->SetAllParameters(p,a,b)\r
+#define IDirectSound3DListener_SetDistanceFactor(p,a,b) (p)->lpVtbl->SetDistanceFactor(p,a,b)\r
+#define IDirectSound3DListener_SetDopplerFactor(p,a,b) (p)->lpVtbl->SetDopplerFactor(p,a,b)\r
+#define IDirectSound3DListener_SetOrientation(p,a,b,c,d,e,f,g) (p)->lpVtbl->SetOrientation(p,a,b,c,d,e,f,g)\r
+#define IDirectSound3DListener_SetPosition(p,a,b,c,d) (p)->lpVtbl->SetPosition(p,a,b,c,d)\r
+#define IDirectSound3DListener_SetRolloffFactor(p,a,b) (p)->lpVtbl->SetRolloffFactor(p,a,b)\r
+#define IDirectSound3DListener_SetVelocity(p,a,b,c,d) (p)->lpVtbl->SetVelocity(p,a,b,c,d)\r
+#define IDirectSound3DListener_CommitDeferredSettings(p) (p)->lpVtbl->CommitDeferredSettings(p)\r
+#else // !defined(__cplusplus) || defined(CINTERFACE)\r
+#define IDirectSound3DListener_QueryInterface(p,a,b) (p)->QueryInterface(a,b)\r
+#define IDirectSound3DListener_AddRef(p) (p)->AddRef()\r
+#define IDirectSound3DListener_Release(p) (p)->Release()\r
+#define IDirectSound3DListener_GetAllParameters(p,a) (p)->GetAllParameters(a)\r
+#define IDirectSound3DListener_GetDistanceFactor(p,a) (p)->GetDistanceFactor(a)\r
+#define IDirectSound3DListener_GetDopplerFactor(p,a) (p)->GetDopplerFactor(a)\r
+#define IDirectSound3DListener_GetOrientation(p,a,b) (p)->GetOrientation(a,b)\r
+#define IDirectSound3DListener_GetPosition(p,a) (p)->GetPosition(a)\r
+#define IDirectSound3DListener_GetRolloffFactor(p,a) (p)->GetRolloffFactor(a)\r
+#define IDirectSound3DListener_GetVelocity(p,a) (p)->GetVelocity(a)\r
+#define IDirectSound3DListener_SetAllParameters(p,a,b) (p)->SetAllParameters(a,b)\r
+#define IDirectSound3DListener_SetDistanceFactor(p,a,b) (p)->SetDistanceFactor(a,b)\r
+#define IDirectSound3DListener_SetDopplerFactor(p,a,b) (p)->SetDopplerFactor(a,b)\r
+#define IDirectSound3DListener_SetOrientation(p,a,b,c,d,e,f,g) (p)->SetOrientation(a,b,c,d,e,f,g)\r
+#define IDirectSound3DListener_SetPosition(p,a,b,c,d) (p)->SetPosition(a,b,c,d)\r
+#define IDirectSound3DListener_SetRolloffFactor(p,a,b) (p)->SetRolloffFactor(a,b)\r
+#define IDirectSound3DListener_SetVelocity(p,a,b,c,d) (p)->SetVelocity(a,b,c,d)\r
+#define IDirectSound3DListener_CommitDeferredSettings(p) (p)->CommitDeferredSettings()\r
+#endif // !defined(__cplusplus) || defined(CINTERFACE)\r
+\r
+//\r
+// IDirectSound3DBuffer\r
+//\r
+\r
+DEFINE_GUID(IID_IDirectSound3DBuffer, 0x279AFA86, 0x4981, 0x11CE, 0xA5, 0x21, 0x00, 0x20, 0xAF, 0x0B, 0xE5, 0x60);\r
+\r
+#undef INTERFACE\r
+#define INTERFACE IDirectSound3DBuffer\r
+\r
+DECLARE_INTERFACE_(IDirectSound3DBuffer, IUnknown)\r
+{\r
+ // IUnknown methods\r
+ STDMETHOD(QueryInterface) (THIS_ REFIID, LPVOID *) PURE;\r
+ STDMETHOD_(ULONG,AddRef) (THIS) PURE;\r
+ STDMETHOD_(ULONG,Release) (THIS) PURE;\r
+\r
+ // IDirectSoundBuffer3D methods\r
+ STDMETHOD(GetAllParameters) (THIS_ LPDS3DBUFFER) PURE;\r
+ STDMETHOD(GetConeAngles) (THIS_ LPDWORD, LPDWORD) PURE;\r
+ STDMETHOD(GetConeOrientation) (THIS_ LPD3DVECTOR) PURE;\r
+ STDMETHOD(GetConeOutsideVolume) (THIS_ LPLONG) PURE;\r
+ STDMETHOD(GetMaxDistance) (THIS_ LPD3DVALUE) PURE;\r
+ STDMETHOD(GetMinDistance) (THIS_ LPD3DVALUE) PURE;\r
+ STDMETHOD(GetMode) (THIS_ LPDWORD) PURE;\r
+ STDMETHOD(GetPosition) (THIS_ LPD3DVECTOR) PURE;\r
+ STDMETHOD(GetVelocity) (THIS_ LPD3DVECTOR) PURE;\r
+ STDMETHOD(SetAllParameters) (THIS_ LPCDS3DBUFFER, DWORD) PURE;\r
+ STDMETHOD(SetConeAngles) (THIS_ DWORD, DWORD, DWORD) PURE;\r
+ STDMETHOD(SetConeOrientation) (THIS_ D3DVALUE, D3DVALUE, D3DVALUE, DWORD) PURE;\r
+ STDMETHOD(SetConeOutsideVolume) (THIS_ LONG, DWORD) PURE;\r
+ STDMETHOD(SetMaxDistance) (THIS_ D3DVALUE, DWORD) PURE;\r
+ STDMETHOD(SetMinDistance) (THIS_ D3DVALUE, DWORD) PURE;\r
+ STDMETHOD(SetMode) (THIS_ DWORD, DWORD) PURE;\r
+ STDMETHOD(SetPosition) (THIS_ D3DVALUE, D3DVALUE, D3DVALUE, DWORD) PURE;\r
+ STDMETHOD(SetVelocity) (THIS_ D3DVALUE, D3DVALUE, D3DVALUE, DWORD) PURE;\r
+};\r
+\r
+#if !defined(__cplusplus) || defined(CINTERFACE)\r
+#define IDirectSound3DBuffer_QueryInterface(p,a,b) (p)->lpVtbl->QueryInterface(p,a,b)\r
+#define IDirectSound3DBuffer_AddRef(p) (p)->lpVtbl->AddRef(p)\r
+#define IDirectSound3DBuffer_Release(p) (p)->lpVtbl->Release(p)\r
+#define IDirectSound3DBuffer_GetAllParameters(p,a) (p)->lpVtbl->GetAllParameters(p,a)\r
+#define IDirectSound3DBuffer_GetConeAngles(p,a,b) (p)->lpVtbl->GetConeAngles(p,a,b)\r
+#define IDirectSound3DBuffer_GetConeOrientation(p,a) (p)->lpVtbl->GetConeOrientation(p,a)\r
+#define IDirectSound3DBuffer_GetConeOutsideVolume(p,a) (p)->lpVtbl->GetConeOutsideVolume(p,a)\r
+#define IDirectSound3DBuffer_GetPosition(p,a) (p)->lpVtbl->GetPosition(p,a)\r
+#define IDirectSound3DBuffer_GetMinDistance(p,a) (p)->lpVtbl->GetMinDistance(p,a)\r
+#define IDirectSound3DBuffer_GetMaxDistance(p,a) (p)->lpVtbl->GetMaxDistance(p,a)\r
+#define IDirectSound3DBuffer_GetMode(p,a) (p)->lpVtbl->GetMode(p,a)\r
+#define IDirectSound3DBuffer_GetVelocity(p,a) (p)->lpVtbl->GetVelocity(p,a)\r
+#define IDirectSound3DBuffer_SetAllParameters(p,a,b) (p)->lpVtbl->SetAllParameters(p,a,b)\r
+#define IDirectSound3DBuffer_SetConeAngles(p,a,b,c) (p)->lpVtbl->SetConeAngles(p,a,b,c)\r
+#define IDirectSound3DBuffer_SetConeOrientation(p,a,b,c,d) (p)->lpVtbl->SetConeOrientation(p,a,b,c,d)\r
+#define IDirectSound3DBuffer_SetConeOutsideVolume(p,a,b)(p)->lpVtbl->SetConeOutsideVolume(p,a,b)\r
+#define IDirectSound3DBuffer_SetPosition(p,a,b,c,d) (p)->lpVtbl->SetPosition(p,a,b,c,d)\r
+#define IDirectSound3DBuffer_SetMinDistance(p,a,b) (p)->lpVtbl->SetMinDistance(p,a,b)\r
+#define IDirectSound3DBuffer_SetMaxDistance(p,a,b) (p)->lpVtbl->SetMaxDistance(p,a,b)\r
+#define IDirectSound3DBuffer_SetMode(p,a,b) (p)->lpVtbl->SetMode(p,a,b)\r
+#define IDirectSound3DBuffer_SetVelocity(p,a,b,c,d) (p)->lpVtbl->SetVelocity(p,a,b,c,d)\r
+#else // !defined(__cplusplus) || defined(CINTERFACE)\r
+#define IDirectSound3DBuffer_QueryInterface(p,a,b) (p)->QueryInterface(a,b)\r
+#define IDirectSound3DBuffer_AddRef(p) (p)->AddRef()\r
+#define IDirectSound3DBuffer_Release(p) (p)->Release()\r
+#define IDirectSound3DBuffer_GetAllParameters(p,a) (p)->GetAllParameters(a)\r
+#define IDirectSound3DBuffer_GetConeAngles(p,a,b) (p)->GetConeAngles(a,b)\r
+#define IDirectSound3DBuffer_GetConeOrientation(p,a) (p)->GetConeOrientation(a)\r
+#define IDirectSound3DBuffer_GetConeOutsideVolume(p,a) (p)->GetConeOutsideVolume(a)\r
+#define IDirectSound3DBuffer_GetPosition(p,a) (p)->GetPosition(a)\r
+#define IDirectSound3DBuffer_GetMinDistance(p,a) (p)->GetMinDistance(a)\r
+#define IDirectSound3DBuffer_GetMaxDistance(p,a) (p)->GetMaxDistance(a)\r
+#define IDirectSound3DBuffer_GetMode(p,a) (p)->GetMode(a)\r
+#define IDirectSound3DBuffer_GetVelocity(p,a) (p)->GetVelocity(a)\r
+#define IDirectSound3DBuffer_SetAllParameters(p,a,b) (p)->SetAllParameters(a,b)\r
+#define IDirectSound3DBuffer_SetConeAngles(p,a,b,c) (p)->SetConeAngles(a,b,c)\r
+#define IDirectSound3DBuffer_SetConeOrientation(p,a,b,c,d) (p)->SetConeOrientation(a,b,c,d)\r
+#define IDirectSound3DBuffer_SetConeOutsideVolume(p,a,b)(p)->SetConeOutsideVolume(a,b)\r
+#define IDirectSound3DBuffer_SetPosition(p,a,b,c,d) (p)->SetPosition(a,b,c,d)\r
+#define IDirectSound3DBuffer_SetMinDistance(p,a,b) (p)->SetMinDistance(a,b)\r
+#define IDirectSound3DBuffer_SetMaxDistance(p,a,b) (p)->SetMaxDistance(a,b)\r
+#define IDirectSound3DBuffer_SetMode(p,a,b) (p)->SetMode(a,b)\r
+#define IDirectSound3DBuffer_SetVelocity(p,a,b,c,d) (p)->SetVelocity(a,b,c,d)\r
+#endif // !defined(__cplusplus) || defined(CINTERFACE)\r
+\r
+//\r
+// IDirectSoundCapture\r
+//\r
+\r
+DEFINE_GUID(IID_IDirectSoundCapture, 0xb0210781, 0x89cd, 0x11d0, 0xaf, 0x8, 0x0, 0xa0, 0xc9, 0x25, 0xcd, 0x16);\r
+\r
+#undef INTERFACE\r
+#define INTERFACE IDirectSoundCapture\r
+\r
+DECLARE_INTERFACE_(IDirectSoundCapture, IUnknown)\r
+{\r
+ // IUnknown methods\r
+ STDMETHOD(QueryInterface) (THIS_ REFIID, LPVOID *) PURE;\r
+ STDMETHOD_(ULONG,AddRef) (THIS) PURE;\r
+ STDMETHOD_(ULONG,Release) (THIS) PURE;\r
+\r
+ // IDirectSoundCapture methods\r
+ STDMETHOD(CreateCaptureBuffer) (THIS_ LPCDSCBUFFERDESC, LPDIRECTSOUNDCAPTUREBUFFER *, LPUNKNOWN) PURE;\r
+ STDMETHOD(GetCaps) (THIS_ LPDSCCAPS ) PURE;\r
+ STDMETHOD(Initialize) (THIS_ LPGUID) PURE;\r
+};\r
+\r
+#if !defined(__cplusplus) || defined(CINTERFACE)\r
+#define IDirectSoundCapture_QueryInterface(p,a,b) (p)->lpVtbl->QueryInterface(p,a,b)\r
+#define IDirectSoundCapture_AddRef(p) (p)->lpVtbl->AddRef(p)\r
+#define IDirectSoundCapture_Release(p) (p)->lpVtbl->Release(p)\r
+#define IDirectSoundCapture_CreateCaptureBuffer(p,a,b,c) (p)->lpVtbl->CreateCaptureBuffer(p,a,b,c)\r
+#define IDirectSoundCapture_GetCaps(p,a) (p)->lpVtbl->GetCaps(p,a)\r
+#define IDirectSoundCapture_Initialize(p,a) (p)->lpVtbl->Initialize(p,a)\r
+#else // !defined(__cplusplus) || defined(CINTERFACE)\r
+#define IDirectSoundCapture_QueryInterface(p,a,b) (p)->QueryInterface(a,b)\r
+#define IDirectSoundCapture_AddRef(p) (p)->AddRef()\r
+#define IDirectSoundCapture_Release(p) (p)->Release()\r
+#define IDirectSoundCapture_CreateCaptureBuffer(p,a,b,c) (p)->CreateCaptureBuffer(a,b,c)\r
+#define IDirectSoundCapture_GetCaps(p,a) (p)->GetCaps(a)\r
+#define IDirectSoundCapture_Initialize(p,a) (p)->Initialize(a)\r
+#endif // !defined(__cplusplus) || defined(CINTERFACE)\r
+\r
+//\r
+// IDirectSoundCaptureBuffer\r
+//\r
+\r
+DEFINE_GUID(IID_IDirectSoundCaptureBuffer, 0xb0210782, 0x89cd, 0x11d0, 0xaf, 0x8, 0x0, 0xa0, 0xc9, 0x25, 0xcd, 0x16);\r
+\r
+#undef INTERFACE\r
+#define INTERFACE IDirectSoundCaptureBuffer\r
+\r
+DECLARE_INTERFACE_(IDirectSoundCaptureBuffer, IUnknown)\r
+{\r
+ // IUnknown methods\r
+ STDMETHOD(QueryInterface) (THIS_ REFIID, LPVOID *) PURE;\r
+ STDMETHOD_(ULONG,AddRef) (THIS) PURE;\r
+ STDMETHOD_(ULONG,Release) (THIS) PURE;\r
+\r
+ // IDirectSoundCaptureBuffer methods\r
+ STDMETHOD(GetCaps) (THIS_ LPDSCBCAPS ) PURE;\r
+ STDMETHOD(GetCurrentPosition) (THIS_ LPDWORD, LPDWORD ) PURE;\r
+ STDMETHOD(GetFormat) (THIS_ LPWAVEFORMATEX, DWORD, LPDWORD ) PURE;\r
+ STDMETHOD(GetStatus) (THIS_ LPDWORD ) PURE;\r
+ STDMETHOD(Initialize) (THIS_ LPDIRECTSOUNDCAPTURE, LPCDSCBUFFERDESC) PURE;\r
+ STDMETHOD(Lock) (THIS_ DWORD, DWORD, LPVOID *, LPDWORD, LPVOID *, LPDWORD, DWORD) PURE;\r
+ STDMETHOD(Start) (THIS_ DWORD) PURE;\r
+ STDMETHOD(Stop) (THIS) PURE;\r
+ STDMETHOD(Unlock) (THIS_ LPVOID, DWORD, LPVOID, DWORD) PURE;\r
+};\r
+\r
+#if !defined(__cplusplus) || defined(CINTERFACE)\r
+#define IDirectSoundCaptureBuffer_QueryInterface(p,a,b) (p)->lpVtbl->QueryInterface(p,a,b)\r
+#define IDirectSoundCaptureBuffer_AddRef(p) (p)->lpVtbl->AddRef(p)\r
+#define IDirectSoundCaptureBuffer_Release(p) (p)->lpVtbl->Release(p)\r
+#define IDirectSoundCaptureBuffer_GetCaps(p,a) (p)->lpVtbl->GetCaps(p,a)\r
+#define IDirectSoundCaptureBuffer_GetCurrentPosition(p,a,b) (p)->lpVtbl->GetCurrentPosition(p,a,b)\r
+#define IDirectSoundCaptureBuffer_GetFormat(p,a,b,c) (p)->lpVtbl->GetFormat(p,a,b,c)\r
+#define IDirectSoundCaptureBuffer_GetStatus(p,a) (p)->lpVtbl->GetStatus(p,a)\r
+#define IDirectSoundCaptureBuffer_Initialize(p,a,b) (p)->lpVtbl->Initialize(p,a,b)\r
+#define IDirectSoundCaptureBuffer_Lock(p,a,b,c,d,e,f,g) (p)->lpVtbl->Lock(p,a,b,c,d,e,f,g)\r
+#define IDirectSoundCaptureBuffer_Start(p,a) (p)->lpVtbl->Start(p,a)\r
+#define IDirectSoundCaptureBuffer_Stop(p) (p)->lpVtbl->Stop(p)\r
+#define IDirectSoundCaptureBuffer_Unlock(p,a,b,c,d) (p)->lpVtbl->Unlock(p,a,b,c,d)\r
+#else // !defined(__cplusplus) || defined(CINTERFACE)\r
+#define IDirectSoundCaptureBuffer_QueryInterface(p,a,b) (p)->QueryInterface(a,b)\r
+#define IDirectSoundCaptureBuffer_AddRef(p) (p)->AddRef()\r
+#define IDirectSoundCaptureBuffer_Release(p) (p)->Release()\r
+#define IDirectSoundCaptureBuffer_GetCaps(p,a) (p)->GetCaps(a)\r
+#define IDirectSoundCaptureBuffer_GetCurrentPosition(p,a,b) (p)->GetCurrentPosition(a,b)\r
+#define IDirectSoundCaptureBuffer_GetFormat(p,a,b,c) (p)->GetFormat(a,b,c)\r
+#define IDirectSoundCaptureBuffer_GetStatus(p,a) (p)->GetStatus(a)\r
+#define IDirectSoundCaptureBuffer_Initialize(p,a,b) (p)->Initialize(a,b)\r
+#define IDirectSoundCaptureBuffer_Lock(p,a,b,c,d,e,f,g) (p)->Lock(a,b,c,d,e,f,g)\r
+#define IDirectSoundCaptureBuffer_Start(p,a) (p)->Start(a)\r
+#define IDirectSoundCaptureBuffer_Stop(p) (p)->Stop()\r
+#define IDirectSoundCaptureBuffer_Unlock(p,a,b,c,d) (p)->Unlock(a,b,c,d)\r
+#endif // !defined(__cplusplus) || defined(CINTERFACE)\r
+\r
+//\r
+// IDirectSoundNotify\r
+//\r
+\r
+DEFINE_GUID(IID_IDirectSoundNotify, 0xb0210783, 0x89cd, 0x11d0, 0xaf, 0x8, 0x0, 0xa0, 0xc9, 0x25, 0xcd, 0x16);\r
+\r
+#undef INTERFACE\r
+#define INTERFACE IDirectSoundNotify\r
+\r
+DECLARE_INTERFACE_(IDirectSoundNotify, IUnknown)\r
+{\r
+ // IUnknown methods\r
+ STDMETHOD(QueryInterface) (THIS_ REFIID, LPVOID *) PURE;\r
+ STDMETHOD_(ULONG,AddRef) (THIS) PURE;\r
+ STDMETHOD_(ULONG,Release) (THIS) PURE;\r
+\r
+ // IDirectSoundNotify methods\r
+ STDMETHOD(SetNotificationPositions) (THIS_ DWORD, LPCDSBPOSITIONNOTIFY) PURE;\r
+};\r
+\r
+#if !defined(__cplusplus) || defined(CINTERFACE)\r
+#define IDirectSoundNotify_QueryInterface(p,a,b) (p)->lpVtbl->QueryInterface(p,a,b)\r
+#define IDirectSoundNotify_AddRef(p) (p)->lpVtbl->AddRef(p)\r
+#define IDirectSoundNotify_Release(p) (p)->lpVtbl->Release(p)\r
+#define IDirectSoundNotify_SetNotificationPositions(p,a,b) (p)->lpVtbl->SetNotificationPositions(p,a,b)\r
+#else // !defined(__cplusplus) || defined(CINTERFACE)\r
+#define IDirectSoundNotify_QueryInterface(p,a,b) (p)->QueryInterface(a,b)\r
+#define IDirectSoundNotify_AddRef(p) (p)->AddRef()\r
+#define IDirectSoundNotify_Release(p) (p)->Release()\r
+#define IDirectSoundNotify_SetNotificationPositions(p,a,b) (p)->SetNotificationPositions(a,b)\r
+#endif // !defined(__cplusplus) || defined(CINTERFACE)\r
+\r
+//\r
+// IKsPropertySet\r
+//\r
+\r
+#ifndef _IKsPropertySet_\r
+#define _IKsPropertySet_\r
+\r
+#ifdef __cplusplus\r
+// 'struct' not 'class' per the way DECLARE_INTERFACE_ is defined\r
+struct IKsPropertySet;\r
+#endif // __cplusplus\r
+\r
+typedef struct IKsPropertySet *LPKSPROPERTYSET;\r
+\r
+#define KSPROPERTY_SUPPORT_GET 0x00000001\r
+#define KSPROPERTY_SUPPORT_SET 0x00000002\r
+\r
+DEFINE_GUID(IID_IKsPropertySet, 0x31efac30, 0x515c, 0x11d0, 0xa9, 0xaa, 0x00, 0xaa, 0x00, 0x61, 0xbe, 0x93);\r
+\r
+#undef INTERFACE\r
+#define INTERFACE IKsPropertySet\r
+\r
+DECLARE_INTERFACE_(IKsPropertySet, IUnknown)\r
+{\r
+ // IUnknown methods\r
+ STDMETHOD(QueryInterface) (THIS_ REFIID, LPVOID *) PURE;\r
+ STDMETHOD_(ULONG,AddRef) (THIS) PURE;\r
+ STDMETHOD_(ULONG,Release) (THIS) PURE;\r
+\r
+ // IKsPropertySet methods\r
+ STDMETHOD(Get) (THIS_ REFGUID, ULONG, LPVOID, ULONG, LPVOID, ULONG, PULONG) PURE;\r
+ STDMETHOD(Set) (THIS_ REFGUID, ULONG, LPVOID, ULONG, LPVOID, ULONG) PURE;\r
+ STDMETHOD(QuerySupport) (THIS_ REFGUID, ULONG, PULONG) PURE;\r
+};\r
+\r
+#if !defined(__cplusplus) || defined(CINTERFACE)\r
+#define IKsPropertySet_QueryInterface(p,a,b) (p)->lpVtbl->QueryInterface(p,a,b)\r
+#define IKsPropertySet_AddRef(p) (p)->lpVtbl->AddRef(p)\r
+#define IKsPropertySet_Release(p) (p)->lpVtbl->Release(p)\r
+#define IKsPropertySet_Get(p,a,b,c,d,e,f,g) (p)->lpVtbl->Get(p,a,b,c,d,e,f,g)\r
+#define IKsPropertySet_Set(p,a,b,c,d,e,f) (p)->lpVtbl->Set(p,a,b,c,d,e,f)\r
+#define IKsPropertySet_QuerySupport(p,a,b,c) (p)->lpVtbl->QuerySupport(p,a,b,c)\r
+#else // !defined(__cplusplus) || defined(CINTERFACE)\r
+#define IKsPropertySet_QueryInterface(p,a,b) (p)->QueryInterface(a,b)\r
+#define IKsPropertySet_AddRef(p) (p)->AddRef()\r
+#define IKsPropertySet_Release(p) (p)->Release()\r
+#define IKsPropertySet_Get(p,a,b,c,d,e,f,g) (p)->Get(a,b,c,d,e,f,g)\r
+#define IKsPropertySet_Set(p,a,b,c,d,e,f) (p)->Set(a,b,c,d,e,f)\r
+#define IKsPropertySet_QuerySupport(p,a,b,c) (p)->QuerySupport(a,b,c)\r
+#endif // !defined(__cplusplus) || defined(CINTERFACE)\r
+\r
+#endif // _IKsPropertySet_\r
+\r
+//\r
+// Return Codes\r
+//\r
+\r
+#define DS_OK 0\r
+\r
+// The call failed because resources (such as a priority level)\r
+// were already being used by another caller.\r
+#define DSERR_ALLOCATED MAKE_DSHRESULT(10)\r
+\r
+// The control (vol,pan,etc.) requested by the caller is not available.\r
+#define DSERR_CONTROLUNAVAIL MAKE_DSHRESULT(30)\r
+\r
+// An invalid parameter was passed to the returning function\r
+#define DSERR_INVALIDPARAM E_INVALIDARG\r
+\r
+// This call is not valid for the current state of this object\r
+#define DSERR_INVALIDCALL MAKE_DSHRESULT(50)\r
+\r
+// An undetermined error occured inside the DirectSound subsystem\r
+#define DSERR_GENERIC E_FAIL\r
+\r
+// The caller does not have the priority level required for the function to\r
+// succeed.\r
+#define DSERR_PRIOLEVELNEEDED MAKE_DSHRESULT(70)\r
+\r
+// Not enough free memory is available to complete the operation\r
+#define DSERR_OUTOFMEMORY E_OUTOFMEMORY\r
+\r
+// The specified WAVE format is not supported\r
+#define DSERR_BADFORMAT MAKE_DSHRESULT(100)\r
+\r
+// The function called is not supported at this time\r
+#define DSERR_UNSUPPORTED E_NOTIMPL\r
+\r
+// No sound driver is available for use\r
+#define DSERR_NODRIVER MAKE_DSHRESULT(120)\r
+\r
+// This object is already initialized\r
+#define DSERR_ALREADYINITIALIZED MAKE_DSHRESULT(130)\r
+\r
+// This object does not support aggregation\r
+#define DSERR_NOAGGREGATION CLASS_E_NOAGGREGATION\r
+\r
+// The buffer memory has been lost, and must be restored.\r
+#define DSERR_BUFFERLOST MAKE_DSHRESULT(150)\r
+\r
+// Another app has a higher priority level, preventing this call from\r
+// succeeding.\r
+#define DSERR_OTHERAPPHASPRIO MAKE_DSHRESULT(160)\r
+\r
+// This object has not been initialized\r
+#define DSERR_UNINITIALIZED MAKE_DSHRESULT(170)\r
+\r
+// The requested COM interface is not available\r
+#define DSERR_NOINTERFACE E_NOINTERFACE\r
+\r
+//\r
+// Flags\r
+//\r
+\r
+#define DSCAPS_PRIMARYMONO 0x00000001\r
+#define DSCAPS_PRIMARYSTEREO 0x00000002\r
+#define DSCAPS_PRIMARY8BIT 0x00000004\r
+#define DSCAPS_PRIMARY16BIT 0x00000008\r
+#define DSCAPS_CONTINUOUSRATE 0x00000010\r
+#define DSCAPS_EMULDRIVER 0x00000020\r
+#define DSCAPS_CERTIFIED 0x00000040\r
+#define DSCAPS_SECONDARYMONO 0x00000100\r
+#define DSCAPS_SECONDARYSTEREO 0x00000200\r
+#define DSCAPS_SECONDARY8BIT 0x00000400\r
+#define DSCAPS_SECONDARY16BIT 0x00000800\r
+\r
+#define DSBPLAY_LOOPING 0x00000001\r
+ \r
+#define DSBSTATUS_PLAYING 0x00000001\r
+#define DSBSTATUS_BUFFERLOST 0x00000002\r
+#define DSBSTATUS_LOOPING 0x00000004\r
+\r
+#define DSBLOCK_FROMWRITECURSOR 0x00000001\r
+#define DSBLOCK_ENTIREBUFFER 0x00000002\r
+\r
+#define DSSCL_NORMAL 0x00000001\r
+#define DSSCL_PRIORITY 0x00000002\r
+#define DSSCL_EXCLUSIVE 0x00000003\r
+#define DSSCL_WRITEPRIMARY 0x00000004\r
+\r
+#define DS3DMODE_NORMAL 0x00000000\r
+#define DS3DMODE_HEADRELATIVE 0x00000001\r
+#define DS3DMODE_DISABLE 0x00000002\r
+\r
+#define DS3D_IMMEDIATE 0x00000000\r
+#define DS3D_DEFERRED 0x00000001\r
+\r
+#define DS3D_MINDISTANCEFACTOR 0.0f\r
+#define DS3D_MAXDISTANCEFACTOR 10.0f\r
+#define DS3D_DEFAULTDISTANCEFACTOR 1.0f\r
+\r
+#define DS3D_MINROLLOFFFACTOR 0.0f\r
+#define DS3D_MAXROLLOFFFACTOR 10.0f\r
+#define DS3D_DEFAULTROLLOFFFACTOR 1.0f\r
+\r
+#define DS3D_MINDOPPLERFACTOR 0.0f\r
+#define DS3D_MAXDOPPLERFACTOR 10.0f\r
+#define DS3D_DEFAULTDOPPLERFACTOR 1.0f\r
+\r
+#define DS3D_DEFAULTMINDISTANCE 1.0f\r
+#define DS3D_DEFAULTMAXDISTANCE 1000000000.0f\r
+\r
+#define DS3D_MINCONEANGLE 0\r
+#define DS3D_MAXCONEANGLE 360\r
+#define DS3D_DEFAULTCONEANGLE 360\r
+\r
+#define DS3D_DEFAULTCONEOUTSIDEVOLUME 0\r
+\r
+#define DSBCAPS_PRIMARYBUFFER 0x00000001\r
+#define DSBCAPS_STATIC 0x00000002\r
+#define DSBCAPS_LOCHARDWARE 0x00000004\r
+#define DSBCAPS_LOCSOFTWARE 0x00000008\r
+#define DSBCAPS_CTRL3D 0x00000010\r
+#define DSBCAPS_CTRLFREQUENCY 0x00000020\r
+#define DSBCAPS_CTRLPAN 0x00000040\r
+#define DSBCAPS_CTRLVOLUME 0x00000080\r
+#define DSBCAPS_CTRLPOSITIONNOTIFY 0x00000100\r
+#define DSBCAPS_CTRLDEFAULT 0x000000E0\r
+#define DSBCAPS_CTRLALL 0x000001F0\r
+#define DSBCAPS_STICKYFOCUS 0x00004000\r
+#define DSBCAPS_GLOBALFOCUS 0x00008000 \r
+#define DSBCAPS_GETCURRENTPOSITION2 0x00010000\r
+#define DSBCAPS_MUTE3DATMAXDISTANCE 0x00020000\r
+\r
+#define DSCBCAPS_WAVEMAPPED 0x80000000\r
+\r
+#define DSSPEAKER_HEADPHONE 0x00000001\r
+#define DSSPEAKER_MONO 0x00000002\r
+#define DSSPEAKER_QUAD 0x00000003\r
+#define DSSPEAKER_STEREO 0x00000004\r
+#define DSSPEAKER_SURROUND 0x00000005\r
+\r
+#define DSSPEAKER_GEOMETRY_MIN 0x00000005 // 5 degrees\r
+#define DSSPEAKER_GEOMETRY_NARROW 0x0000000A // 10 degrees\r
+#define DSSPEAKER_GEOMETRY_WIDE 0x00000014 // 20 degrees\r
+#define DSSPEAKER_GEOMETRY_MAX 0x000000B4 // 180 degrees\r
+\r
+#define DSSPEAKER_COMBINED(c, g) ((DWORD)(((BYTE)(c)) | ((DWORD)((BYTE)(g))) << 16))\r
+#define DSSPEAKER_CONFIG(a) ((BYTE)(a))\r
+#define DSSPEAKER_GEOMETRY(a) ((BYTE)(((DWORD)(a) >> 16) & 0x00FF))\r
+\r
+#define DSCCAPS_EMULDRIVER 0x00000020\r
+\r
+#define DSCBLOCK_ENTIREBUFFER 0x00000001\r
+\r
+#define DSCBSTATUS_CAPTURING 0x00000001\r
+#define DSCBSTATUS_LOOPING 0x00000002\r
+\r
+#define DSCBSTART_LOOPING 0x00000001\r
+\r
+#define DSBFREQUENCY_MIN 100\r
+#define DSBFREQUENCY_MAX 100000\r
+#define DSBFREQUENCY_ORIGINAL 0\r
+\r
+#define DSBPAN_LEFT -10000\r
+#define DSBPAN_CENTER 0\r
+#define DSBPAN_RIGHT 10000\r
+\r
+#define DSBVOLUME_MIN -10000\r
+#define DSBVOLUME_MAX 0\r
+\r
+#define DSBSIZE_MIN 4\r
+#define DSBSIZE_MAX 0x0FFFFFFF\r
+\r
+#define DSBPN_OFFSETSTOP 0xFFFFFFFF\r
+\r
+#ifdef __cplusplus\r
+};\r
+#endif // __cplusplus\r
+\r
+#endif // __DSOUND_INCLUDED__ \r
--- /dev/null
+/*\r
+ * Hamlib Interface - API header\r
+ * Copyright (c) 2000-2003 by Frank Singleton\r
+ * Copyright (c) 2000-2012 by Stephane Fillod\r
+ *\r
+ *\r
+ * This library is free software; you can redistribute it and/or\r
+ * modify it under the terms of the GNU Lesser General Public\r
+ * License as published by the Free Software Foundation; either\r
+ * version 2.1 of the License, or (at your option) any later version.\r
+ *\r
+ * This library is distributed in the hope that it will be useful,\r
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of\r
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU\r
+ * Lesser General Public License for more details.\r
+ *\r
+ * You should have received a copy of the GNU Lesser General Public\r
+ * License along with this library; if not, write to the Free Software\r
+ * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA\r
+ *\r
+ */\r
+\r
+\r
+#ifndef _RIG_H\r
+#define _RIG_H 1\r
+\r
+#include <stdio.h>\r
+#include <stdarg.h>\r
+\r
+#include <hamlib/riglist.h> /* list in another file to not mess up w/ this one */\r
+\r
+/**\r
+ * \addtogroup rig\r
+ * @{\r
+ */\r
+\r
+/*! \file rig.h\r
+ * \brief Hamlib rig data structures.\r
+ *\r
+ * This file contains the data structures and definitions for the Hamlib rig API.\r
+ * see the rig.c file for more details on the rig API.\r
+ */\r
+\r
+\r
+/* __BEGIN_DECLS should be used at the beginning of your declarations,\r
+ * so that C++ compilers don't mangle their names. Use __END_DECLS at\r
+ * the end of C declarations. */\r
+#undef __BEGIN_DECLS\r
+#undef __END_DECLS\r
+#ifdef __cplusplus\r
+# define __BEGIN_DECLS extern "C" {\r
+# define __END_DECLS }\r
+#else\r
+# define __BEGIN_DECLS /* empty */\r
+# define __END_DECLS /* empty */\r
+#endif\r
+\r
+/* HAMLIB_PARAMS is a macro used to wrap function prototypes, so that compilers\r
+ * that don't understand ANSI C prototypes still work, and ANSI C\r
+ * compilers can issue warnings about type mismatches. */\r
+#undef HAMLIB_PARAMS\r
+#if defined (__STDC__) || defined (_AIX) || (defined (__mips) && defined (_SYSTYPE_SVR4)) || defined(__CYGWIN__) || defined(_WIN32) || defined(__cplusplus)\r
+# define HAMLIB_PARAMS(protos) protos\r
+# define rig_ptr_t void*\r
+#else\r
+# define HAMLIB_PARAMS(protos) ()\r
+# define rig_ptr_t char*\r
+#endif\r
+\r
+#include <hamlib/rig_dll.h>\r
+\r
+\r
+__BEGIN_DECLS\r
+\r
+extern HAMLIB_EXPORT_VAR(const char) hamlib_version[];\r
+extern HAMLIB_EXPORT_VAR(const char) hamlib_copyright[];\r
+\r
+/**\r
+ * \brief Hamlib error codes\r
+ * Error code definition that can be returned by the Hamlib functions.\r
+ * Unless stated otherwise, Hamlib functions return the negative value\r
+ * of rig_errcode_e definitions in case of error, or 0 when successful.\r
+ */\r
+enum rig_errcode_e {\r
+ RIG_OK=0, /*!< No error, operation completed sucessfully */\r
+ RIG_EINVAL, /*!< invalid parameter */\r
+ RIG_ECONF, /*!< invalid configuration (serial,..) */\r
+ RIG_ENOMEM, /*!< memory shortage */\r
+ RIG_ENIMPL, /*!< function not implemented, but will be */\r
+ RIG_ETIMEOUT, /*!< communication timed out */\r
+ RIG_EIO, /*!< IO error, including open failed */\r
+ RIG_EINTERNAL, /*!< Internal Hamlib error, huh! */\r
+ RIG_EPROTO, /*!< Protocol error */\r
+ RIG_ERJCTED, /*!< Command rejected by the rig */\r
+ RIG_ETRUNC, /*!< Command performed, but arg truncated */\r
+ RIG_ENAVAIL, /*!< function not available */\r
+ RIG_ENTARGET, /*!< VFO not targetable */\r
+ RIG_BUSERROR, /*!< Error talking on the bus */\r
+ RIG_BUSBUSY, /*!< Collision on the bus */\r
+ RIG_EARG, /*!< NULL RIG handle or any invalid pointer parameter in get arg */\r
+ RIG_EVFO, /*!< Invalid VFO */\r
+ RIG_EDOM /*!< Argument out of domain of func */\r
+};\r
+\r
+/** \brief Token in the netrigctl protocol for returning error code */\r
+#define NETRIGCTL_RET "RPRT "\r
+\r
+/**\r
+ *\brief Hamlib debug levels\r
+ *\r
+ * REM: Numeric order matters for debug level\r
+ *\r
+ * \sa rig_set_debug\r
+ */\r
+enum rig_debug_level_e {\r
+ RIG_DEBUG_NONE = 0, /*!< no bug reporting */\r
+ RIG_DEBUG_BUG, /*!< serious bug */\r
+ RIG_DEBUG_ERR, /*!< error case (e.g. protocol, memory allocation) */\r
+ RIG_DEBUG_WARN, /*!< warning */\r
+ RIG_DEBUG_VERBOSE, /*!< verbose */\r
+ RIG_DEBUG_TRACE /*!< tracing */\r
+};\r
+\r
+/* --------------- Rig capabilities -----------------*/\r
+\r
+/* Forward struct references */\r
+\r
+struct rig;\r
+struct rig_state;\r
+\r
+/*!\r
+ * \brief Rig structure definition (see rig for details).\r
+ */\r
+typedef struct rig RIG;\r
+\r
+#define RIGNAMSIZ 30\r
+#define RIGVERSIZ 8\r
+#define FILPATHLEN 100\r
+#define FRQRANGESIZ 30\r
+#define MAXCHANDESC 30 /* describe channel eg: "WWV 5Mhz" */\r
+#define TSLSTSIZ 20 /* max tuning step list size, zero ended */\r
+#define FLTLSTSIZ 42 /* max mode/filter list size, zero ended */\r
+#define MAXDBLSTSIZ 8 /* max preamp/att levels supported, zero ended */\r
+#define CHANLSTSIZ 16 /* max mem_list size, zero ended */\r
+#define MAX_CAL_LENGTH 32 /* max calibration plots in cal_table_t */\r
+\r
+\r
+/**\r
+ * \brief CTCSS and DCS type definition.\r
+ *\r
+ * Continuous Tone Controlled Squelch System (CTCSS)\r
+ * sub-audible tone frequency are expressed in \em tenth of Hz.\r
+ * For example, the subaudible tone of 88.5 Hz is represented within\r
+ * Hamlib by 885.\r
+ *\r
+ * Digitally-Coded Squelch codes are simple direct integers.\r
+ */\r
+typedef unsigned int tone_t;\r
+\r
+/**\r
+ * \brief Port type\r
+ */\r
+typedef enum rig_port_e {\r
+ RIG_PORT_NONE = 0, /*!< No port */\r
+ RIG_PORT_SERIAL, /*!< Serial */\r
+ RIG_PORT_NETWORK, /*!< Network socket type */\r
+ RIG_PORT_DEVICE, /*!< Device driver, like the WiNRADiO */\r
+ RIG_PORT_PACKET, /*!< AX.25 network type, e.g. SV8CS protocol */\r
+ RIG_PORT_DTMF, /*!< DTMF protocol bridge via another rig, eg. Kenwood Sky Cmd System */\r
+ RIG_PORT_ULTRA, /*!< IrDA Ultra protocol! */\r
+ RIG_PORT_RPC, /*!< RPC wrapper */\r
+ RIG_PORT_PARALLEL, /*!< Parallel port */\r
+ RIG_PORT_USB, /*!< USB port */\r
+ RIG_PORT_UDP_NETWORK, /*!< UDP Network socket type */\r
+ RIG_PORT_CM108 /*!< CM108 GPIO */\r
+} rig_port_t;\r
+\r
+/**\r
+ * \brief Serial parity\r
+ */\r
+enum serial_parity_e {\r
+ RIG_PARITY_NONE = 0, /*!< No parity */\r
+ RIG_PARITY_ODD, /*!< Odd */\r
+ RIG_PARITY_EVEN, /*!< Even */\r
+ RIG_PARITY_MARK, /*!< Mark */\r
+ RIG_PARITY_SPACE /*!< Space */\r
+};\r
+\r
+/**\r
+ * \brief Serial handshake\r
+ */\r
+enum serial_handshake_e {\r
+ RIG_HANDSHAKE_NONE = 0, /*!< No handshake */\r
+ RIG_HANDSHAKE_XONXOFF, /*!< Software XON/XOFF */\r
+ RIG_HANDSHAKE_HARDWARE /*!< Hardware CTS/RTS */\r
+};\r
+\r
+\r
+/**\r
+ * \brief Serial control state\r
+ */\r
+enum serial_control_state_e {\r
+ RIG_SIGNAL_UNSET = 0, /*!< Unset or tri-state */\r
+ RIG_SIGNAL_ON, /*!< ON */\r
+ RIG_SIGNAL_OFF /*!< OFF */\r
+};\r
+\r
+/** \brief Rig type flags */\r
+typedef enum {\r
+ RIG_FLAG_RECEIVER = (1<<1), /*!< Receiver */\r
+ RIG_FLAG_TRANSMITTER = (1<<2), /*!< Transmitter */\r
+ RIG_FLAG_SCANNER = (1<<3), /*!< Scanner */\r
+\r
+ RIG_FLAG_MOBILE = (1<<4), /*!< mobile sized */\r
+ RIG_FLAG_HANDHELD = (1<<5), /*!< handheld sized */\r
+ RIG_FLAG_COMPUTER = (1<<6), /*!< "Computer" rig */\r
+ RIG_FLAG_TRUNKING = (1<<7), /*!< has trunking */\r
+ RIG_FLAG_APRS = (1<<8), /*!< has APRS */\r
+ RIG_FLAG_TNC = (1<<9), /*!< has TNC */\r
+ RIG_FLAG_DXCLUSTER = (1<<10), /*!< has DXCluster */\r
+ RIG_FLAG_TUNER = (1<<11) /*!< dumb tuner */\r
+} rig_type_t;\r
+\r
+#define RIG_FLAG_TRANSCEIVER (RIG_FLAG_RECEIVER|RIG_FLAG_TRANSMITTER)\r
+#define RIG_TYPE_MASK (RIG_FLAG_TRANSCEIVER|RIG_FLAG_SCANNER|RIG_FLAG_MOBILE|RIG_FLAG_HANDHELD|RIG_FLAG_COMPUTER|RIG_FLAG_TRUNKING|RIG_FLAG_TUNER)\r
+\r
+#define RIG_TYPE_OTHER 0\r
+#define RIG_TYPE_TRANSCEIVER RIG_FLAG_TRANSCEIVER\r
+#define RIG_TYPE_HANDHELD (RIG_FLAG_TRANSCEIVER|RIG_FLAG_HANDHELD)\r
+#define RIG_TYPE_MOBILE (RIG_FLAG_TRANSCEIVER|RIG_FLAG_MOBILE)\r
+#define RIG_TYPE_RECEIVER RIG_FLAG_RECEIVER\r
+#define RIG_TYPE_PCRECEIVER (RIG_FLAG_COMPUTER|RIG_FLAG_RECEIVER)\r
+#define RIG_TYPE_SCANNER (RIG_FLAG_SCANNER|RIG_FLAG_RECEIVER)\r
+#define RIG_TYPE_TRUNKSCANNER (RIG_TYPE_SCANNER|RIG_FLAG_TRUNKING)\r
+#define RIG_TYPE_COMPUTER (RIG_FLAG_TRANSCEIVER|RIG_FLAG_COMPUTER)\r
+#define RIG_TYPE_TUNER RIG_FLAG_TUNER\r
+\r
+\r
+/**\r
+ * \brief Development status of the backend\r
+ */\r
+enum rig_status_e {\r
+ RIG_STATUS_ALPHA = 0, /*!< Alpha quality, i.e. development */\r
+ RIG_STATUS_UNTESTED, /*!< Written from available specs, rig unavailable for test, feedback wanted! */\r
+ RIG_STATUS_BETA, /*!< Beta quality */\r
+ RIG_STATUS_STABLE, /*!< Stable */\r
+ RIG_STATUS_BUGGY /*!< Was stable, but something broke it! */\r
+/* RIG_STATUS_NEW * *!< Initial release of code\r
+ * !! Use of RIG_STATUS_NEW is deprecated. Do not use it anymore */\r
+};\r
+\r
+/** \brief Map all deprecated RIG_STATUS_NEW references to RIG_STATUS_UNTESTED for backward compatibility */\r
+#define RIG_STATUS_NEW RIG_STATUS_UNTESTED\r
+\r
+/**\r
+ * \brief Repeater shift type\r
+ */\r
+typedef enum {\r
+ RIG_RPT_SHIFT_NONE = 0, /*!< No repeater shift */\r
+ RIG_RPT_SHIFT_MINUS, /*!< "-" shift */\r
+ RIG_RPT_SHIFT_PLUS /*!< "+" shift */\r
+} rptr_shift_t;\r
+\r
+/**\r
+ * \brief Split mode\r
+ */\r
+typedef enum {\r
+ RIG_SPLIT_OFF = 0, /*!< Split mode disabled */\r
+ RIG_SPLIT_ON /*!< Split mode enabled */\r
+} split_t;\r
+\r
+/**\r
+ * \brief Frequency type,\r
+ * Frequency type unit in Hz, able to hold SHF frequencies.\r
+ */\r
+typedef double freq_t;\r
+/** \brief printf(3) format to be used for freq_t type */\r
+#define PRIfreq "f"\r
+/** \brief scanf(3) format to be used for freq_t type */\r
+#define SCNfreq "lf"\r
+#define FREQFMT SCNfreq\r
+\r
+/**\r
+ * \brief Short frequency type\r
+ * Frequency in Hz restricted to 31bits, suitable for offsets, shifts, etc..\r
+ */\r
+typedef signed long shortfreq_t;\r
+\r
+#define Hz(f) ((freq_t)(f))\r
+#define kHz(f) ((freq_t)((f)*(freq_t)1000))\r
+#define MHz(f) ((freq_t)((f)*(freq_t)1000000))\r
+#define GHz(f) ((freq_t)((f)*(freq_t)1000000000))\r
+\r
+#define s_Hz(f) ((shortfreq_t)(f))\r
+#define s_kHz(f) ((shortfreq_t)((f)*(shortfreq_t)1000))\r
+#define s_MHz(f) ((shortfreq_t)((f)*(shortfreq_t)1000000))\r
+#define s_GHz(f) ((shortfreq_t)((f)*(shortfreq_t)1000000000))\r
+\r
+#define RIG_FREQ_NONE Hz(0)\r
+\r
+\r
+/**\r
+ * \brief VFO definition\r
+ *\r
+ * There are several ways of using a vfo_t. For most cases, using RIG_VFO_A,\r
+ * RIG_VFO_B, RIG_VFO_CURR, etc., as opaque macros should suffice.\r
+ *\r
+ * Strictly speaking a VFO is Variable Frequency Oscillator.\r
+ * Here, it is referred as a tunable channel, from the radio operator's\r
+ * point of view. The channel can be designated individually by its real\r
+ * number, or by using an alias.\r
+ *\r
+ * Aliases may or may not be honored by a backend and are defined using\r
+ * high significant bits, i.e. RIG_VFO_MEM, RIG_VFO_MAIN, etc.\r
+ *\r
+ */\r
+typedef int vfo_t;\r
+\r
+/** \brief '' -- used in caps */\r
+#define RIG_VFO_NONE 0\r
+\r
+#define RIG_VFO_TX_FLAG (1<<30)\r
+\r
+/** \brief \c currVFO -- current "tunable channel"/VFO */\r
+#define RIG_VFO_CURR (1<<29)\r
+\r
+/** \brief \c MEM -- means Memory mode, to be used with set_vfo */\r
+#define RIG_VFO_MEM (1<<28)\r
+\r
+/** \brief \c VFO -- means (last or any)VFO mode, with set_vfo */\r
+#define RIG_VFO_VFO (1<<27)\r
+\r
+#define RIG_VFO_TX_VFO(v) ((v)|RIG_VFO_TX_FLAG)\r
+\r
+/** \brief \c TX -- alias for split tx or uplink, of VFO_CURR */\r
+#define RIG_VFO_TX RIG_VFO_TX_VFO(RIG_VFO_CURR)\r
+\r
+/** \brief \c RX -- alias for split rx or downlink */\r
+#define RIG_VFO_RX RIG_VFO_CURR\r
+\r
+/** \brief \c Main -- alias for MAIN */\r
+#define RIG_VFO_MAIN (1<<26)\r
+/** \brief \c Sub -- alias for SUB */\r
+#define RIG_VFO_SUB (1<<25)\r
+\r
+#define RIG_VFO_N(n) (1<<(n))\r
+\r
+/** \brief \c VFOA -- VFO A */\r
+#define RIG_VFO_A RIG_VFO_N(0)\r
+/** \brief \c VFOB -- VFO B */\r
+#define RIG_VFO_B RIG_VFO_N(1)\r
+/** \brief \c VFOC -- VFO C */\r
+#define RIG_VFO_C RIG_VFO_N(2)\r
+\r
+\r
+/*\r
+ * targetable bitfields, for internal use.\r
+ * RIG_TARGETABLE_PURE means a pure targetable radio on every command\r
+ */\r
+#define RIG_TARGETABLE_NONE 0\r
+#define RIG_TARGETABLE_FREQ (1<<0)\r
+#define RIG_TARGETABLE_MODE (1<<1)\r
+#define RIG_TARGETABLE_PURE (1<<2)\r
+#define RIG_TARGETABLE_TONE (1<<3)\r
+#define RIG_TARGETABLE_FUNC (1<<4)\r
+#define RIG_TARGETABLE_ALL 0x7fffffff\r
+\r
+\r
+#define RIG_PASSBAND_NORMAL s_Hz(0)\r
+/**\r
+ * \brief Passband width, in Hz\r
+ * \sa rig_passband_normal, rig_passband_narrow, rig_passband_wide\r
+ */\r
+typedef shortfreq_t pbwidth_t;\r
+\r
+\r
+/**\r
+ * \brief DCD status\r
+ */\r
+typedef enum dcd_e {\r
+ RIG_DCD_OFF = 0, /*!< Squelch closed */\r
+ RIG_DCD_ON /*!< Squelch open */\r
+} dcd_t;\r
+\r
+/**\r
+ * \brief DCD type\r
+ * \sa rig_get_dcd\r
+ */\r
+typedef enum {\r
+ RIG_DCD_NONE = 0, /*!< No DCD available */\r
+ RIG_DCD_RIG, /*!< Rig has DCD status support, i.e. rig has get_dcd cap */\r
+ RIG_DCD_SERIAL_DSR, /*!< DCD status from serial DSR signal */\r
+ RIG_DCD_SERIAL_CTS, /*!< DCD status from serial CTS signal */\r
+ RIG_DCD_SERIAL_CAR, /*!< DCD status from serial CD signal */\r
+ RIG_DCD_PARALLEL, /*!< DCD status from parallel port pin */\r
+ RIG_DCD_CM108 /*!< DCD status from CM108 vol dn pin */\r
+} dcd_type_t;\r
+\r
+\r
+/**\r
+ * \brief PTT status\r
+ */\r
+typedef enum {\r
+ RIG_PTT_OFF = 0, /*!< PTT desactivated */\r
+ RIG_PTT_ON, /*!< PTT activated */\r
+ RIG_PTT_ON_MIC, /*!< PTT Mic only, fallbacks on RIG_PTT_ON if unavailable */\r
+ RIG_PTT_ON_DATA /*!< PTT Data (Mic-muted), fallbacks on RIG_PTT_ON if unavailable */\r
+} ptt_t;\r
+\r
+/**\r
+ * \brief PTT type\r
+ * \sa rig_get_ptt\r
+ */\r
+typedef enum {\r
+ RIG_PTT_NONE = 0, /*!< No PTT available */\r
+ RIG_PTT_RIG, /*!< Legacy PTT */\r
+ RIG_PTT_SERIAL_DTR, /*!< PTT control through serial DTR signal */\r
+ RIG_PTT_SERIAL_RTS, /*!< PTT control through serial RTS signal */\r
+ RIG_PTT_PARALLEL, /*!< PTT control through parallel port */\r
+ RIG_PTT_RIG_MICDATA, /*!< Legacy PTT, supports RIG_PTT_ON_MIC/RIG_PTT_ON_DATA */\r
+ RIG_PTT_CM108 /*!< PTT control through CM108 GPIO pin */\r
+} ptt_type_t;\r
+\r
+/**\r
+ * \brief Radio power state\r
+ */\r
+typedef enum {\r
+ RIG_POWER_OFF = 0, /*!< Power off */\r
+ RIG_POWER_ON = (1<<0), /*!< Power on */\r
+ RIG_POWER_STANDBY = (1<<1) /*!< Standby */\r
+} powerstat_t;\r
+\r
+/**\r
+ * \brief Reset operation\r
+ */\r
+typedef enum {\r
+ RIG_RESET_NONE = 0, /*!< No reset */\r
+ RIG_RESET_SOFT = (1<<0), /*!< Software reset */\r
+ RIG_RESET_VFO = (1<<1), /*!< VFO reset */\r
+ RIG_RESET_MCALL = (1<<2), /*!< Memory clear */\r
+ RIG_RESET_MASTER = (1<<3) /*!< Master reset */\r
+} reset_t;\r
+\r
+\r
+/**\r
+ * \brief VFO operation\r
+ *\r
+ * A VFO operation is an action on a VFO (or tunable memory).\r
+ * The difference with a function is that an action has no on/off\r
+ * status, it is performed at once.\r
+ *\r
+ * Note: the vfo argument for some vfo operation may be irrelevant,\r
+ * and thus will be ignored.\r
+ *\r
+ * The VFO/MEM "mode" is set by rig_set_vfo.\n\r
+ * \c STRING used in rigctl\r
+ *\r
+ * \sa rig_parse_vfo_op() rig_strvfop()\r
+ */\r
+typedef enum {\r
+ RIG_OP_NONE = 0, /*!< '' No VFO_OP */\r
+ RIG_OP_CPY = (1<<0), /*!< \c CPY -- VFO A = VFO B */\r
+ RIG_OP_XCHG = (1<<1), /*!< \c XCHG -- Exchange VFO A/B */\r
+ RIG_OP_FROM_VFO = (1<<2), /*!< \c FROM_VFO -- VFO->MEM */\r
+ RIG_OP_TO_VFO = (1<<3), /*!< \c TO_VFO -- MEM->VFO */\r
+ RIG_OP_MCL = (1<<4), /*!< \c MCL -- Memory clear */\r
+ RIG_OP_UP = (1<<5), /*!< \c UP -- UP increment VFO freq by tuning step*/\r
+ RIG_OP_DOWN = (1<<6), /*!< \c DOWN -- DOWN decrement VFO freq by tuning step*/\r
+ RIG_OP_BAND_UP = (1<<7), /*!< \c BAND_UP -- Band UP */\r
+ RIG_OP_BAND_DOWN = (1<<8), /*!< \c BAND_DOWN -- Band DOWN */\r
+ RIG_OP_LEFT = (1<<9), /*!< \c LEFT -- LEFT */\r
+ RIG_OP_RIGHT = (1<<10),/*!< \c RIGHT -- RIGHT */\r
+ RIG_OP_TUNE = (1<<11),/*!< \c TUNE -- Start tune */\r
+ RIG_OP_TOGGLE = (1<<12) /*!< \c TOGGLE -- Toggle VFOA and VFOB */\r
+} vfo_op_t;\r
+\r
+\r
+/**\r
+ * \brief Rig Scan operation\r
+ *\r
+ * Various scan operations supported by a rig.\n\r
+ * \c STRING used in rigctl\r
+ *\r
+ * \sa rig_parse_scan() rig_strscan()\r
+ */\r
+typedef enum {\r
+ RIG_SCAN_NONE = 0, /*!< '' No Scan */\r
+ RIG_SCAN_STOP = RIG_SCAN_NONE, /*!< \c STOP -- Stop scanning */\r
+ RIG_SCAN_MEM = (1<<0), /*!< \c MEM -- Scan all memory channels */\r
+ RIG_SCAN_SLCT = (1<<1), /*!< \c SLCT -- Scan all selected memory channels */\r
+ RIG_SCAN_PRIO = (1<<2), /*!< \c PRIO -- Priority watch (mem or call channel) */\r
+ RIG_SCAN_PROG = (1<<3), /*!< \c PROG -- Programmed(edge) scan */\r
+ RIG_SCAN_DELTA = (1<<4), /*!< \c DELTA -- delta-f scan */\r
+ RIG_SCAN_VFO = (1<<5), /*!< \c VFO -- most basic scan */\r
+ RIG_SCAN_PLT = (1<<6) /*!< \c PLT -- Scan using pipelined tuning */\r
+} scan_t;\r
+\r
+/**\r
+ * \brief configuration token\r
+ */\r
+typedef long token_t;\r
+\r
+#define RIG_CONF_END 0\r
+\r
+/**\r
+ * \brief parameter types\r
+ *\r
+ * Used with configuration, parameter and extra-parm tables.\r
+ *\r
+ * Current internal implementation\r
+ * NUMERIC: val.f or val.i\r
+ * COMBO: val.i, starting from 0. Points to a table of strings or asci stored values.\r
+ * STRING: val.s or val.cs\r
+ * CHECKBUTTON: val.i 0/1\r
+ */\r
+\r
+/* strongly inspired from soundmodem. Thanks Thomas! */\r
+\r
+enum rig_conf_e {\r
+ RIG_CONF_STRING, /*!< String type */\r
+ RIG_CONF_COMBO, /*!< Combo type */\r
+ RIG_CONF_NUMERIC, /*!< Numeric type integer or real */\r
+ RIG_CONF_CHECKBUTTON, /*!< on/off type */\r
+ RIG_CONF_BUTTON /*!< Button type */\r
+};\r
+\r
+#define RIG_COMBO_MAX 8\r
+\r
+/**\r
+ * \brief Configuration parameter structure.\r
+ */\r
+struct confparams {\r
+ token_t token; /*!< Conf param token ID */\r
+ const char *name; /*!< Param name, no spaces allowed */\r
+ const char *label; /*!< Human readable label */\r
+ const char *tooltip; /*!< Hint on the parameter */\r
+ const char *dflt; /*!< Default value */\r
+ enum rig_conf_e type; /*!< Type of the parameter */\r
+ union { /*!< */\r
+ struct { /*!< */\r
+ float min; /*!< Minimum value */\r
+ float max; /*!< Maximum value */\r
+ float step; /*!< Step */\r
+ } n; /*!< Numeric type */\r
+ struct { /*!< */\r
+ const char *combostr[RIG_COMBO_MAX]; /*!< Combo list */\r
+ } c; /*!< Combo type */\r
+ } u; /*!< Type union */\r
+};\r
+\r
+/** \brief Announce\r
+ *\r
+ * Designate optional speech synthesizer.\r
+ */\r
+typedef enum {\r
+ RIG_ANN_NONE = 0, /*!< None */\r
+ RIG_ANN_OFF = RIG_ANN_NONE, /*!< disable announces */\r
+ RIG_ANN_FREQ = (1<<0), /*!< Announce frequency */\r
+ RIG_ANN_RXMODE = (1<<1), /*!< Announce receive mode */\r
+ RIG_ANN_CW = (1<<2), /*!< CW */\r
+ RIG_ANN_ENG = (1<<3), /*!< English */\r
+ RIG_ANN_JAP = (1<<4) /*!< Japan */\r
+} ann_t;\r
+\r
+\r
+/**\r
+ * \brief Antenna number\r
+ */\r
+typedef int ant_t;\r
+\r
+#define RIG_ANT_NONE 0\r
+#define RIG_ANT_N(n) ((ant_t)1<<(n))\r
+#define RIG_ANT_1 RIG_ANT_N(0)\r
+#define RIG_ANT_2 RIG_ANT_N(1)\r
+#define RIG_ANT_3 RIG_ANT_N(2)\r
+#define RIG_ANT_4 RIG_ANT_N(3)\r
+#define RIG_ANT_5 RIG_ANT_N(4)\r
+\r
+/**\r
+ * \brief AGC delay settings\r
+ */\r
+/* TODO: kill me, and replace by real AGC delay */\r
+enum agc_level_e {\r
+ RIG_AGC_OFF = 0,\r
+ RIG_AGC_SUPERFAST,\r
+ RIG_AGC_FAST,\r
+ RIG_AGC_SLOW,\r
+ RIG_AGC_USER, /*!< user selectable */\r
+ RIG_AGC_MEDIUM,\r
+ RIG_AGC_AUTO\r
+};\r
+\r
+/**\r
+ * \brief Level display meters\r
+ */\r
+enum meter_level_e {\r
+ RIG_METER_NONE = 0, /*< No display meter */\r
+ RIG_METER_SWR = (1<<0), /*< Stationary Wave Ratio */\r
+ RIG_METER_COMP = (1<<1), /*< Compression level */\r
+ RIG_METER_ALC = (1<<2), /*< ALC */\r
+ RIG_METER_IC = (1<<3), /*< IC */\r
+ RIG_METER_DB = (1<<4), /*< DB */\r
+ RIG_METER_PO = (1<<5), /*< Power Out */\r
+ RIG_METER_VDD = (1<<6) /*< Final Amp Voltage */\r
+};\r
+\r
+/**\r
+ * \brief Universal approach for passing values\r
+ * \sa rig_set_level, rig_get_level, rig_set_parm, rig_get_parm\r
+ */\r
+typedef union {\r
+ signed int i; /*!< Signed integer */\r
+ float f; /*!< Single precision float */\r
+ char *s; /*!< Pointer to char string */\r
+ const char *cs; /*!< Pointer to constant char string */\r
+} value_t;\r
+\r
+/** \brief Rig Level Settings\r
+ *\r
+ * Various operating levels supported by a rig.\n\r
+ * \c STRING used in rigctl\r
+ *\r
+ * \sa rig_parse_level() rig_strlevel()\r
+ */\r
+\r
+enum rig_level_e {\r
+ RIG_LEVEL_NONE = 0, /*!< '' -- No Level */\r
+ RIG_LEVEL_PREAMP = (1<<0), /*!< \c PREAMP -- Preamp, arg int (dB) */\r
+ RIG_LEVEL_ATT = (1<<1), /*!< \c ATT -- Attenuator, arg int (dB) */\r
+ RIG_LEVEL_VOX = (1<<2), /*!< \c VOX -- VOX delay, arg int (tenth of seconds) */\r
+ RIG_LEVEL_AF = (1<<3), /*!< \c AF -- Volume, arg float [0.0 ... 1.0] */\r
+ RIG_LEVEL_RF = (1<<4), /*!< \c RF -- RF gain (not TX power), arg float [0.0 ... 1.0] */\r
+ RIG_LEVEL_SQL = (1<<5), /*!< \c SQL -- Squelch, arg float [0.0 ... 1.0] */\r
+ RIG_LEVEL_IF = (1<<6), /*!< \c IF -- IF, arg int (Hz) */\r
+ RIG_LEVEL_APF = (1<<7), /*!< \c APF -- Audio Peak Filter, arg float [0.0 ... 1.0] */\r
+ RIG_LEVEL_NR = (1<<8), /*!< \c NR -- Noise Reduction, arg float [0.0 ... 1.0] */\r
+ RIG_LEVEL_PBT_IN = (1<<9), /*!< \c PBT_IN -- Twin PBT (inside), arg float [0.0 ... 1.0] */\r
+ RIG_LEVEL_PBT_OUT = (1<<10),/*!< \c PBT_OUT -- Twin PBT (outside), arg float [0.0 ... 1.0] */\r
+ RIG_LEVEL_CWPITCH = (1<<11),/*!< \c CWPITCH -- CW pitch, arg int (Hz) */\r
+ RIG_LEVEL_RFPOWER = (1<<12),/*!< \c RFPOWER -- RF Power, arg float [0.0 ... 1.0] */\r
+ RIG_LEVEL_MICGAIN = (1<<13),/*!< \c MICGAIN -- MIC Gain, arg float [0.0 ... 1.0] */\r
+ RIG_LEVEL_KEYSPD = (1<<14),/*!< \c KEYSPD -- Key Speed, arg int (WPM) */\r
+ RIG_LEVEL_NOTCHF = (1<<15),/*!< \c NOTCHF -- Notch Freq., arg int (Hz) */\r
+ RIG_LEVEL_COMP = (1<<16),/*!< \c COMP -- Compressor, arg float [0.0 ... 1.0] */\r
+ RIG_LEVEL_AGC = (1<<17),/*!< \c AGC -- AGC, arg int (see enum agc_level_e) */\r
+ RIG_LEVEL_BKINDL = (1<<18),/*!< \c BKINDL -- BKin Delay, arg int (tenth of dots) */\r
+ RIG_LEVEL_BALANCE = (1<<19),/*!< \c BAL -- Balance (Dual Watch), arg float [0.0 ... 1.0] */\r
+ RIG_LEVEL_METER = (1<<20),/*!< \c METER -- Display meter, arg int (see enum meter_level_e) */\r
+\r
+ RIG_LEVEL_VOXGAIN = (1<<21),/*!< \c VOXGAIN -- VOX gain level, arg float [0.0 ... 1.0] */\r
+ RIG_LEVEL_VOXDELAY = RIG_LEVEL_VOX, /*!< Synonym of RIG_LEVEL_VOX */\r
+ RIG_LEVEL_ANTIVOX = (1<<22),/*!< \c ANTIVOX -- anti-VOX level, arg float [0.0 ... 1.0] */\r
+ RIG_LEVEL_SLOPE_LOW = (1<<23),/*!< \c SLOPE_LOW -- Slope tune, low frequency cut, */\r
+ RIG_LEVEL_SLOPE_HIGH = (1<<24),/*!< \c SLOPE_HIGH -- Slope tune, high frequency cut, */\r
+ RIG_LEVEL_BKIN_DLYMS = (1<<25),/*!< \c BKIN_DLYMS -- BKin Delay, arg int Milliseconds */\r
+\r
+ /*!< These ones are not settable */\r
+ RIG_LEVEL_RAWSTR = (1<<26),/*!< \c RAWSTR -- Raw (A/D) value for signal strength, specific to each rig, arg int */\r
+ RIG_LEVEL_SQLSTAT = (1<<27),/*!< \c SQLSTAT -- SQL status, arg int (open=1/closed=0). Deprecated, use get_dcd instead */\r
+ RIG_LEVEL_SWR = (1<<28),/*!< \c SWR -- SWR, arg float [0.0 ... infinite] */\r
+ RIG_LEVEL_ALC = (1<<29),/*!< \c ALC -- ALC, arg float */\r
+ RIG_LEVEL_STRENGTH =(1<<30) /*!< \c STRENGTH -- Effective (calibrated) signal strength relative to S9, arg int (dB) */\r
+ /*RIG_LEVEL_BWC = (1<<31)*/ /*!< Bandwidth Control, arg int (Hz) */\r
+};\r
+\r
+#define RIG_LEVEL_FLOAT_LIST (RIG_LEVEL_AF|RIG_LEVEL_RF|RIG_LEVEL_SQL|RIG_LEVEL_APF|RIG_LEVEL_NR|RIG_LEVEL_PBT_IN|RIG_LEVEL_PBT_OUT|RIG_LEVEL_RFPOWER|RIG_LEVEL_MICGAIN|RIG_LEVEL_COMP|RIG_LEVEL_BALANCE|RIG_LEVEL_SWR|RIG_LEVEL_ALC|RIG_LEVEL_VOXGAIN|RIG_LEVEL_ANTIVOX)\r
+\r
+#define RIG_LEVEL_READONLY_LIST (RIG_LEVEL_SQLSTAT|RIG_LEVEL_SWR|RIG_LEVEL_ALC|RIG_LEVEL_STRENGTH|RIG_LEVEL_RAWSTR)\r
+\r
+#define RIG_LEVEL_IS_FLOAT(l) ((l)&RIG_LEVEL_FLOAT_LIST)\r
+#define RIG_LEVEL_SET(l) ((l)&~RIG_LEVEL_READONLY_LIST)\r
+\r
+\r
+/**\r
+ * \brief Rig Parameters\r
+ *\r
+ * Parameters are settings that are not VFO specific.\n\r
+ * \c STRING used in rigctl\r
+ *\r
+ * \sa rig_parse_parm() rig_strparm()\r
+ */\r
+enum rig_parm_e {\r
+ RIG_PARM_NONE = 0, /*!< '' -- No Parm */\r
+ RIG_PARM_ANN = (1<<0), /*!< \c ANN -- "Announce" level, see ann_t */\r
+ RIG_PARM_APO = (1<<1), /*!< \c APO -- Auto power off, int in minute */\r
+ RIG_PARM_BACKLIGHT = (1<<2), /*!< \c BACKLIGHT -- LCD light, float [0.0 ... 1.0] */\r
+ RIG_PARM_BEEP = (1<<4), /*!< \c BEEP -- Beep on keypressed, int (0,1) */\r
+ RIG_PARM_TIME = (1<<5), /*!< \c TIME -- hh:mm:ss, int in seconds from 00:00:00 */\r
+ RIG_PARM_BAT = (1<<6), /*!< \c BAT -- battery level, float [0.0 ... 1.0] */\r
+ RIG_PARM_KEYLIGHT = (1<<7) /*!< \c KEYLIGHT -- Button backlight, on/off */\r
+};\r
+\r
+#define RIG_PARM_FLOAT_LIST (RIG_PARM_BACKLIGHT|RIG_PARM_BAT)\r
+#define RIG_PARM_READONLY_LIST (RIG_PARM_BAT)\r
+\r
+#define RIG_PARM_IS_FLOAT(l) ((l)&RIG_PARM_FLOAT_LIST)\r
+#define RIG_PARM_SET(l) ((l)&~RIG_PARM_READONLY_LIST)\r
+\r
+#define RIG_SETTING_MAX 32\r
+/**\r
+ * \brief Setting\r
+ *\r
+ * This can be a func, a level or a parm.\r
+ * Each bit designates one of them.\r
+ */\r
+typedef unsigned long setting_t;\r
+\r
+/*\r
+ * tranceive mode, ie. the rig notify the host of any event,\r
+ * like freq changed, mode changed, etc.\r
+ */\r
+#define RIG_TRN_OFF 0\r
+#define RIG_TRN_RIG 1\r
+#define RIG_TRN_POLL 2\r
+\r
+\r
+/**\r
+ * \brief Rig Function Settings\r
+ *\r
+ * Various operating functions supported by a rig.\n\r
+ * \c STRING used in rigctl\r
+ *\r
+ * \sa rig_parse_func() rig_strfunc()\r
+ */\r
+enum rig_func_e {\r
+ RIG_FUNC_NONE = 0, /*!< '' -- No Function */\r
+ RIG_FUNC_FAGC = (1<<0), /*!< \c FAGC -- Fast AGC */\r
+ RIG_FUNC_NB = (1<<1), /*!< \c NB -- Noise Blanker */\r
+ RIG_FUNC_COMP = (1<<2), /*!< \c COMP -- Speech Compression */\r
+ RIG_FUNC_VOX = (1<<3), /*!< \c VOX -- Voice Operated Relay */\r
+ RIG_FUNC_TONE = (1<<4), /*!< \c TONE -- CTCSS Tone */\r
+ RIG_FUNC_TSQL = (1<<5), /*!< \c TSQL -- CTCSS Activate/De-activate */\r
+ RIG_FUNC_SBKIN = (1<<6), /*!< \c SBKIN -- Semi Break-in (CW mode) */\r
+ RIG_FUNC_FBKIN = (1<<7), /*!< \c FBKIN -- Full Break-in (CW mode) */\r
+ RIG_FUNC_ANF = (1<<8), /*!< \c ANF -- Automatic Notch Filter (DSP) */\r
+ RIG_FUNC_NR = (1<<9), /*!< \c NR -- Noise Reduction (DSP) */\r
+ RIG_FUNC_AIP = (1<<10),/*!< \c AIP -- RF pre-amp (AIP on Kenwood, IPO on Yaesu, etc.) */\r
+ RIG_FUNC_APF = (1<<11),/*!< \c APF -- Auto Passband/Audio Peak Filter */\r
+ RIG_FUNC_MON = (1<<12),/*!< \c MON -- Monitor transmitted signal */\r
+ RIG_FUNC_MN = (1<<13),/*!< \c MN -- Manual Notch */\r
+ RIG_FUNC_RF = (1<<14),/*!< \c RF -- RTTY Filter */\r
+ RIG_FUNC_ARO = (1<<15),/*!< \c ARO -- Auto Repeater Offset */\r
+ RIG_FUNC_LOCK = (1<<16),/*!< \c LOCK -- Lock */\r
+ RIG_FUNC_MUTE = (1<<17),/*!< \c MUTE -- Mute */\r
+ RIG_FUNC_VSC = (1<<18),/*!< \c VSC -- Voice Scan Control */\r
+ RIG_FUNC_REV = (1<<19),/*!< \c REV -- Reverse transmit and receive frequencies */\r
+ RIG_FUNC_SQL = (1<<20),/*!< \c SQL -- Turn Squelch Monitor on/off */\r
+ RIG_FUNC_ABM = (1<<21),/*!< \c ABM -- Auto Band Mode */\r
+ RIG_FUNC_BC = (1<<22),/*!< \c BC -- Beat Canceller */\r
+ RIG_FUNC_MBC = (1<<23),/*!< \c MBC -- Manual Beat Canceller */\r
+ /* (1<<24), used to be RIG_FUNC_LMP, see RIG_PARM_BACKLIGHT instead) */\r
+ RIG_FUNC_AFC = (1<<25),/*!< \c AFC -- Auto Frequency Control ON/OFF */\r
+ RIG_FUNC_SATMODE = (1<<26),/*!< \c SATMODE -- Satellite mode ON/OFF */\r
+ RIG_FUNC_SCOPE = (1<<27),/*!< \c SCOPE -- Simple bandscope ON/OFF */\r
+ RIG_FUNC_RESUME = (1<<28),/*!< \c RESUME -- Scan auto-resume */\r
+ RIG_FUNC_TBURST = (1<<29),/*!< \c TBURST -- 1750 Hz tone burst */\r
+ RIG_FUNC_TUNER = (1<<30) /*!< \c TUNER -- Enable automatic tuner */\r
+};\r
+\r
+/*\r
+ * power unit macros, converts to mW\r
+ * This is limited to 2MW on 32 bits systems.\r
+ */\r
+#define mW(p) ((int)(p))\r
+#define Watts(p) ((int)((p)*1000))\r
+#define W(p) Watts(p)\r
+#define kW(p) ((int)((p)*1000000L))\r
+\r
+/**\r
+ * \brief Radio mode\r
+ *\r
+ * Various modes supported by a rig.\n\r
+ * \c STRING used in rigctl\r
+ *\r
+ * \sa rig_parse_mode() rig_strrmode()\r
+ */\r
+typedef enum {\r
+ RIG_MODE_NONE = 0, /*!< '' -- None */\r
+ RIG_MODE_AM = (1<<0), /*!< \c AM -- Amplitude Modulation */\r
+ RIG_MODE_CW = (1<<1), /*!< \c CW -- CW "normal" sideband */\r
+ RIG_MODE_USB = (1<<2), /*!< \c USB -- Upper Side Band */\r
+ RIG_MODE_LSB = (1<<3), /*!< \c LSB -- Lower Side Band */\r
+ RIG_MODE_RTTY = (1<<4), /*!< \c RTTY -- Radio Teletype */\r
+ RIG_MODE_FM = (1<<5), /*!< \c FM -- "narrow" band FM */\r
+ RIG_MODE_WFM = (1<<6), /*!< \c WFM -- broadcast wide FM */\r
+ RIG_MODE_CWR = (1<<7), /*!< \c CWR -- CW "reverse" sideband */\r
+ RIG_MODE_RTTYR = (1<<8), /*!< \c RTTYR -- RTTY "reverse" sideband */\r
+ RIG_MODE_AMS = (1<<9), /*!< \c AMS -- Amplitude Modulation Synchronous */\r
+ RIG_MODE_PKTLSB = (1<<10),/*!< \c PKTLSB -- Packet/Digital LSB mode (dedicated port) */\r
+ RIG_MODE_PKTUSB = (1<<11),/*!< \c PKTUSB -- Packet/Digital USB mode (dedicated port) */\r
+ RIG_MODE_PKTFM = (1<<12),/*!< \c PKTFM -- Packet/Digital FM mode (dedicated port) */\r
+ RIG_MODE_ECSSUSB = (1<<13),/*!< \c ECSSUSB -- Exalted Carrier Single Sideband USB */\r
+ RIG_MODE_ECSSLSB = (1<<14),/*!< \c ECSSLSB -- Exalted Carrier Single Sideband LSB */\r
+ RIG_MODE_FAX = (1<<15),/*!< \c FAX -- Facsimile Mode */\r
+ RIG_MODE_SAM = (1<<16),/*!< \c SAM -- Synchronous AM double sideband */\r
+ RIG_MODE_SAL = (1<<17),/*!< \c SAL -- Synchronous AM lower sideband */\r
+ RIG_MODE_SAH = (1<<18),/*!< \c SAH -- Synchronous AM upper (higher) sideband */\r
+ RIG_MODE_DSB = (1<<19), /*!< \c DSB -- Double sideband suppressed carrier */\r
+ RIG_MODE_TESTS_MAX /*!< \c MUST ALWAYS BE LAST, Max Count for dumpcaps.c */\r
+} rmode_t;\r
+\r
+\r
+/** \brief macro for backends, not to be used by rig_set_mode et al. */\r
+#define RIG_MODE_SSB (RIG_MODE_USB|RIG_MODE_LSB)\r
+\r
+/** \brief macro for backends, not to be used by rig_set_mode et al. */\r
+#define RIG_MODE_ECSS (RIG_MODE_ECSSUSB|RIG_MODE_ECSSLSB)\r
+\r
+\r
+#define RIG_DBLST_END 0 /* end marker in a preamp/att level list */\r
+#define RIG_IS_DBLST_END(d) ((d)==0)\r
+\r
+/**\r
+ * \brief Frequency range\r
+ *\r
+ * Put together a group of this struct in an array to define\r
+ * what frequencies your rig has access to.\r
+ */\r
+typedef struct freq_range_list {\r
+ freq_t start; /*!< Start frequency */\r
+ freq_t end; /*!< End frequency */\r
+ rmode_t modes; /*!< Bit field of RIG_MODE's */\r
+ int low_power; /*!< Lower RF power in mW, -1 for no power (ie. rx list) */\r
+ int high_power; /*!< Higher RF power in mW, -1 for no power (ie. rx list) */\r
+ vfo_t vfo; /*!< VFO list equipped with this range */\r
+ ant_t ant; /*!< Antenna list equipped with this range, 0 means all */\r
+} freq_range_t;\r
+\r
+#define RIG_FRNG_END {Hz(0),Hz(0),RIG_MODE_NONE,0,0,RIG_VFO_NONE}\r
+#define RIG_IS_FRNG_END(r) ((r).start == Hz(0) && (r).end == Hz(0))\r
+\r
+#define RIG_ITU_REGION1 1\r
+#define RIG_ITU_REGION2 2\r
+#define RIG_ITU_REGION3 3\r
+\r
+/**\r
+ * \brief Tuning step definition\r
+ *\r
+ * Lists the tuning steps available for each mode.\r
+ *\r
+ * If a ts field in the list has RIG_TS_ANY value,\r
+ * this means the rig allows its tuning step to be\r
+ * set to any value ranging from the lowest to the\r
+ * highest (if any) value in the list for that mode.\r
+ * The tuning step must be sorted in the ascending\r
+ * order, and the RIG_TS_ANY value, if present, must\r
+ * be the last one in the list.\r
+ *\r
+ * Note also that the minimum frequency resolution\r
+ * of the rig is determined by the lowest value\r
+ * in the Tuning step list.\r
+ *\r
+ * \sa rig_set_ts, rig_get_resolution\r
+ */\r
+struct tuning_step_list {\r
+ rmode_t modes; /*!< Bit field of RIG_MODE's */\r
+ shortfreq_t ts; /*!< Tuning step in Hz */\r
+};\r
+\r
+#define RIG_TS_ANY 0\r
+#define RIG_TS_END {RIG_MODE_NONE,0}\r
+#define RIG_IS_TS_END(t) ((t).modes == RIG_MODE_NONE && (t).ts == 0)\r
+\r
+/**\r
+ * \brief Filter definition\r
+ *\r
+ * Lists the filters available for each mode.\r
+ *\r
+ * If more than one filter is available for a given mode,\r
+ * the first entry in the array will be the default\r
+ * filter to use for the normal passband of this mode.\r
+ * The first entry in the array below the default normal passband\r
+ * is the default narrow passband and the first entry in the array\r
+ * above the default normal passband is the default wide passband.\r
+ * Note: if there's no lower width or upper width, then narrow or\r
+ * respectively wide passband is equal to the default normal passband.\r
+ *\r
+ * If a width field in the list has RIG_FLT_ANY value,\r
+ * this means the rig allows its passband width to be\r
+ * set to any value ranging from the lowest to the\r
+ * highest value (if any) in the list for that mode.\r
+ * The RIG_FLT_ANY value, if present, must\r
+ * be the last one in the list.\r
+ *\r
+ * The width field is the narrowest passband in a transmit/receive chain\r
+ * with regard to different IF.\r
+ *\r
+ * \sa rig_set_mode, rig_passband_normal, rig_passband_narrow, rig_passband_wide\r
+ */\r
+struct filter_list {\r
+ rmode_t modes; /*!< Bit field of RIG_MODE's */\r
+ pbwidth_t width; /*!< Passband width in Hz */\r
+};\r
+\r
+#define RIG_FLT_ANY 0\r
+#define RIG_FLT_END {RIG_MODE_NONE,0}\r
+#define RIG_IS_FLT_END(f) ((f).modes == RIG_MODE_NONE)\r
+\r
+\r
+/** \brief Empty channel_t.flags field */\r
+#define RIG_CHFLAG_NONE 0\r
+/** \brief skip memory channel during scan (lock out), channel_t.flags */\r
+#define RIG_CHFLAG_SKIP (1<<0)\r
+/** \brief DATA port mode flag */\r
+#define RIG_CHFLAG_DATA (1<<1)\r
+\r
+/**\r
+ * \brief Extension attribute definition\r
+ *\r
+ */\r
+struct ext_list {\r
+ token_t token; /*!< Token ID */\r
+ value_t val; /*!< Value */\r
+};\r
+\r
+#define RIG_EXT_END {0, {.i=0}}\r
+#define RIG_IS_EXT_END(x) ((x).token == 0)\r
+\r
+/**\r
+ * \brief Channel structure\r
+ *\r
+ * The channel struct stores all the attributes peculiar to a VFO.\r
+ *\r
+ * \sa rig_set_channel, rig_get_channel\r
+ */\r
+struct channel {\r
+ int channel_num; /*!< Channel number */\r
+ int bank_num; /*!< Bank number */\r
+ vfo_t vfo; /*!< VFO */\r
+ int ant; /*!< Selected antenna */\r
+ freq_t freq; /*!< Receive frequency */\r
+ rmode_t mode; /*!< Receive mode */\r
+ pbwidth_t width; /*!< Receive passband width associated with mode */\r
+\r
+ freq_t tx_freq; /*!< Transmit frequency */\r
+ rmode_t tx_mode; /*!< Transmit mode */\r
+ pbwidth_t tx_width; /*!< Transmit passband width associated with mode */\r
+\r
+ split_t split; /*!< Split mode */\r
+ vfo_t tx_vfo; /*!< Split transmit VFO */\r
+\r
+ rptr_shift_t rptr_shift; /*!< Repeater shift */\r
+ shortfreq_t rptr_offs; /*!< Repeater offset */\r
+ shortfreq_t tuning_step; /*!< Tuning step */\r
+ shortfreq_t rit; /*!< RIT */\r
+ shortfreq_t xit; /*!< XIT */\r
+ setting_t funcs; /*!< Function status */\r
+ value_t levels[RIG_SETTING_MAX]; /*!< Level values */\r
+ tone_t ctcss_tone; /*!< CTCSS tone */\r
+ tone_t ctcss_sql; /*!< CTCSS squelch tone */\r
+ tone_t dcs_code; /*!< DCS code */\r
+ tone_t dcs_sql; /*!< DCS squelch code */\r
+ int scan_group; /*!< Scan group */\r
+ int flags; /*!< Channel flags, see RIG_CHFLAG's */\r
+ char channel_desc[MAXCHANDESC]; /*!< Name */\r
+ struct ext_list *ext_levels; /*!< Extension level value list, NULL ended. ext_levels can be NULL */\r
+};\r
+/** \brief Channel structure typedef */\r
+typedef struct channel channel_t;\r
+\r
+/**\r
+ * \brief Channel capability definition\r
+ *\r
+ * Definition of the attributes that can be stored/retrieved in/from memory\r
+ */\r
+struct channel_cap {\r
+ unsigned bank_num:1; /*!< Bank number */\r
+ unsigned vfo:1; /*!< VFO */\r
+ unsigned ant:1; /*!< Selected antenna */\r
+ unsigned freq:1; /*!< Receive frequency */\r
+ unsigned mode:1; /*!< Receive mode */\r
+ unsigned width:1; /*!< Receive passband width associated with mode */\r
+\r
+ unsigned tx_freq:1; /*!< Transmit frequency */\r
+ unsigned tx_mode:1; /*!< Transmit mode */\r
+ unsigned tx_width:1; /*!< Transmit passband width associated with mode */\r
+\r
+ unsigned split:1; /*!< Split mode */\r
+ unsigned tx_vfo:1; /*!< Split transmit VFO */\r
+ unsigned rptr_shift:1; /*!< Repeater shift */\r
+ unsigned rptr_offs:1; /*!< Repeater offset */\r
+ unsigned tuning_step:1; /*!< Tuning step */\r
+ unsigned rit:1; /*!< RIT */\r
+ unsigned xit:1; /*!< XIT */\r
+ setting_t funcs; /*!< Function status */\r
+ setting_t levels; /*!< Level values */\r
+ unsigned ctcss_tone:1; /*!< CTCSS tone */\r
+ unsigned ctcss_sql:1; /*!< CTCSS squelch tone */\r
+ unsigned dcs_code:1; /*!< DCS code */\r
+ unsigned dcs_sql:1; /*!< DCS squelch code */\r
+ unsigned scan_group:1; /*!< Scan group */\r
+ unsigned flags:1; /*!< Channel flags */\r
+ unsigned channel_desc:1; /*!< Name */\r
+ unsigned ext_levels:1; /*!< Extension level value list */\r
+};\r
+\r
+/** \brief Channel cap */\r
+typedef struct channel_cap channel_cap_t;\r
+\r
+\r
+/**\r
+ * \brief Memory channel type definition\r
+ *\r
+ * Definition of memory types. Depending on the type, the content\r
+ * of the memory channel has to be interpreted accordingly.\r
+ * For instance, a RIG_MTYPE_EDGE channel_t will hold only a start\r
+ * or stop frequency.\r
+ *\r
+ * \sa chan_list\r
+ */\r
+typedef enum {\r
+ RIG_MTYPE_NONE=0, /*!< None */\r
+ RIG_MTYPE_MEM, /*!< Regular */\r
+ RIG_MTYPE_EDGE, /*!< Scan edge */\r
+ RIG_MTYPE_CALL, /*!< Call channel */\r
+ RIG_MTYPE_MEMOPAD, /*!< Memory pad */\r
+ RIG_MTYPE_SAT, /*!< Satellite */\r
+ RIG_MTYPE_BAND, /*!< VFO/Band channel */\r
+ RIG_MTYPE_PRIO /*!< Priority channel */\r
+} chan_type_t;\r
+\r
+/**\r
+ * \brief Memory channel list definition\r
+ *\r
+ * Example for the Ic706MkIIG (99 memory channels, 2 scan edges, 2 call chans):\r
+\code\r
+ chan_t chan_list[] = {\r
+ { 1, 99, RIG_MTYPE_MEM },\r
+ { 100, 103, RIG_MTYPE_EDGE },\r
+ { 104, 105, RIG_MTYPE_CALL },\r
+ RIG_CHAN_END\r
+ }\r
+\endcode\r
+ */\r
+struct chan_list {\r
+ int start; /*!< Starting memory channel \b number */\r
+ int end; /*!< Ending memory channel \b number */\r
+ chan_type_t type; /*!< Memory type. see chan_type_t */\r
+ channel_cap_t mem_caps; /*!< Definition of attributes that can be stored/retrieved */\r
+};\r
+\r
+#define RIG_CHAN_END {0,0,RIG_MTYPE_NONE}\r
+#define RIG_IS_CHAN_END(c) ((c).type == RIG_MTYPE_NONE)\r
+/** \brief Special memory channel value to tell rig_lookup_mem_caps() to retrieve all the ranges */\r
+#define RIG_MEM_CAPS_ALL -1\r
+\r
+/** \brief chan_t type */\r
+typedef struct chan_list chan_t;\r
+\r
+/**\r
+ * \brief level/parm granularity definition\r
+ *\r
+ * The granularity is undefined if min=0, max=0, and step=0.\r
+ *\r
+ * For float settings, if min.f=0 and max.f=0 (and step.f!=0),\r
+ * max.f is assumed to be actually equal to 1.0.\r
+ *\r
+ * If step=0 (and min and/or max are not null), then this means step\r
+ * can have maximum resolution, depending on type (int or float).\r
+ */\r
+struct gran {\r
+ value_t min; /*!< Minimum value */\r
+ value_t max; /*!< Maximum value */\r
+ value_t step; /*!< Step */\r
+};\r
+\r
+/** \brief gran_t type */\r
+typedef struct gran gran_t;\r
+\r
+\r
+/** \brief Calibration table struct */\r
+struct cal_table {\r
+ int size; /*!< number of plots in the table */\r
+ struct {\r
+ int raw; /*!< raw (A/D) value, as returned by \a RIG_LEVEL_RAWSTR */\r
+ int val; /*!< associated value, basically the measured dB value */\r
+ } table[MAX_CAL_LENGTH]; /*!< table of plots */\r
+};\r
+\r
+/**\r
+ * \brief calibration table type\r
+ *\r
+ * cal_table_t is a data type suited to hold linear calibration.\r
+ * cal_table_t.size tells the number of plots cal_table_t.table contains.\r
+ *\r
+ * If a value is below or equal to cal_table_t.table[0].raw,\r
+ * rig_raw2val() will return cal_table_t.table[0].val.\r
+ *\r
+ * If a value is greater or equal to cal_table_t.table[cal_table_t.size-1].raw,\r
+ * rig_raw2val() will return cal_table_t.table[cal_table_t.size-1].val.\r
+ */\r
+typedef struct cal_table cal_table_t;\r
+\r
+#define EMPTY_STR_CAL { 0, { { 0, 0 }, } }\r
+\r
+\r
+typedef int (*chan_cb_t) (RIG *, channel_t**, int, const chan_t*, rig_ptr_t);\r
+typedef int (*confval_cb_t) (RIG *, const struct confparams *, value_t *, rig_ptr_t);\r
+\r
+/**\r
+ * \brief Rig data structure.\r
+ *\r
+ * Basic rig type, can store some useful info about different radios.\r
+ * Each lib must be able to populate this structure, so we can make\r
+ * useful inquiries about capabilities.\r
+ *\r
+ * The main idea of this struct is that it will be defined by the backend\r
+ * rig driver, and will remain readonly for the application.\r
+ * Fields that need to be modifiable by the application are\r
+ * copied into the struct rig_state, which is a kind of private\r
+ * of the RIG instance.\r
+ * This way, you can have several rigs running within the same application,\r
+ * sharing the struct rig_caps of the backend, while keeping their own\r
+ * customized data.\r
+ * NB: don't move fields around, as backend depends on it when initializing\r
+ * their caps.\r
+ */\r
+struct rig_caps {\r
+ rig_model_t rig_model; /*!< Rig model. */\r
+ const char *model_name; /*!< Model name. */\r
+ const char *mfg_name; /*!< Manufacturer. */\r
+ const char *version; /*!< Driver version. */\r
+ const char *copyright; /*!< Copyright info. */\r
+ enum rig_status_e status; /*!< Driver status. */\r
+\r
+ int rig_type; /*!< Rig type. */\r
+ ptt_type_t ptt_type; /*!< Type of the PTT port. */\r
+ dcd_type_t dcd_type; /*!< Type of the DCD port. */\r
+ rig_port_t port_type; /*!< Type of communication port. */\r
+\r
+ int serial_rate_min; /*!< Minimum serial speed. */\r
+ int serial_rate_max; /*!< Maximum serial speed. */\r
+ int serial_data_bits; /*!< Number of data bits. */\r
+ int serial_stop_bits; /*!< Number of stop bits. */\r
+ enum serial_parity_e serial_parity; /*!< Parity. */\r
+ enum serial_handshake_e serial_handshake; /*!< Handshake. */\r
+\r
+ int write_delay; /*!< Delay between each byte sent out, in mS */\r
+ int post_write_delay; /*!< Delay between each commands send out, in mS */\r
+ int timeout; /*!< Timeout, in mS */\r
+ int retry; /*!< Maximum number of retries if command fails, 0 to disable */\r
+\r
+ setting_t has_get_func; /*!< List of get functions */\r
+ setting_t has_set_func; /*!< List of set functions */\r
+ setting_t has_get_level; /*!< List of get level */\r
+ setting_t has_set_level; /*!< List of set level */\r
+ setting_t has_get_parm; /*!< List of get parm */\r
+ setting_t has_set_parm; /*!< List of set parm */\r
+\r
+ gran_t level_gran[RIG_SETTING_MAX]; /*!< level granularity (i.e. steps) */\r
+ gran_t parm_gran[RIG_SETTING_MAX]; /*!< parm granularity (i.e. steps) */\r
+\r
+ const struct confparams *extparms; /*!< Extension parm list, \sa ext.c */\r
+ const struct confparams *extlevels; /*!< Extension level list, \sa ext.c */\r
+\r
+ const tone_t *ctcss_list; /*!< CTCSS tones list, zero ended */\r
+ const tone_t *dcs_list; /*!< DCS code list, zero ended */\r
+\r
+ int preamp[MAXDBLSTSIZ]; /*!< Preamp list in dB, 0 terminated */\r
+ int attenuator[MAXDBLSTSIZ]; /*!< Preamp list in dB, 0 terminated */\r
+ shortfreq_t max_rit; /*!< max absolute RIT */\r
+ shortfreq_t max_xit; /*!< max absolute XIT */\r
+ shortfreq_t max_ifshift; /*!< max absolute IF-SHIFT */\r
+\r
+ ann_t announces; /*!< Announces bit field list */\r
+\r
+ vfo_op_t vfo_ops; /*!< VFO op bit field list */\r
+ scan_t scan_ops; /*!< Scan bit field list */\r
+ int targetable_vfo; /*!< Bit field list of direct VFO access commands */\r
+ int transceive; /*!< Supported transceive mode */\r
+\r
+ int bank_qty; /*!< Number of banks */\r
+ int chan_desc_sz; /*!< Max length of memory channel name */\r
+\r
+ chan_t chan_list[CHANLSTSIZ]; /*!< Channel list, zero ended */\r
+\r
+ freq_range_t rx_range_list1[FRQRANGESIZ]; /*!< Receive frequency range list for ITU region 1 */\r
+ freq_range_t tx_range_list1[FRQRANGESIZ]; /*!< Transmit frequency range list for ITU region 1 */\r
+ freq_range_t rx_range_list2[FRQRANGESIZ]; /*!< Receive frequency range list for ITU region 2 */\r
+ freq_range_t tx_range_list2[FRQRANGESIZ]; /*!< Transmit frequency range list for ITU region 2 */\r
+\r
+ struct tuning_step_list tuning_steps[TSLSTSIZ]; /*!< Tuning step list */\r
+ struct filter_list filters[FLTLSTSIZ]; /*!< mode/filter table, at -6dB */\r
+\r
+ cal_table_t str_cal; /*!< S-meter calibration table */\r
+\r
+ const struct confparams *cfgparams; /*!< Configuration parametres. */\r
+ const rig_ptr_t priv; /*!< Private data. */\r
+\r
+ /*\r
+ * Rig API\r
+ *\r
+ */\r
+\r
+ int (*rig_init) (RIG * rig);\r
+ int (*rig_cleanup) (RIG * rig);\r
+ int (*rig_open) (RIG * rig);\r
+ int (*rig_close) (RIG * rig);\r
+\r
+ /*\r
+ * General API commands, from most primitive to least.. :()\r
+ * List Set/Get functions pairs\r
+ */\r
+\r
+ int (*set_freq) (RIG * rig, vfo_t vfo, freq_t freq);\r
+ int (*get_freq) (RIG * rig, vfo_t vfo, freq_t * freq);\r
+\r
+ int (*set_mode) (RIG * rig, vfo_t vfo, rmode_t mode,\r
+ pbwidth_t width);\r
+ int (*get_mode) (RIG * rig, vfo_t vfo, rmode_t * mode,\r
+ pbwidth_t * width);\r
+\r
+ int (*set_vfo) (RIG * rig, vfo_t vfo);\r
+ int (*get_vfo) (RIG * rig, vfo_t * vfo);\r
+\r
+ int (*set_ptt) (RIG * rig, vfo_t vfo, ptt_t ptt);\r
+ int (*get_ptt) (RIG * rig, vfo_t vfo, ptt_t * ptt);\r
+ int (*get_dcd) (RIG * rig, vfo_t vfo, dcd_t * dcd);\r
+\r
+ int (*set_rptr_shift) (RIG * rig, vfo_t vfo,\r
+ rptr_shift_t rptr_shift);\r
+ int (*get_rptr_shift) (RIG * rig, vfo_t vfo,\r
+ rptr_shift_t * rptr_shift);\r
+\r
+ int (*set_rptr_offs) (RIG * rig, vfo_t vfo, shortfreq_t offs);\r
+ int (*get_rptr_offs) (RIG * rig, vfo_t vfo, shortfreq_t * offs);\r
+\r
+ int (*set_split_freq) (RIG * rig, vfo_t vfo, freq_t tx_freq);\r
+ int (*get_split_freq) (RIG * rig, vfo_t vfo, freq_t * tx_freq);\r
+ int (*set_split_mode) (RIG * rig, vfo_t vfo, rmode_t tx_mode,\r
+ pbwidth_t tx_width);\r
+ int (*get_split_mode) (RIG * rig, vfo_t vfo, rmode_t * tx_mode,\r
+ pbwidth_t * tx_width);\r
+\r
+ int (*set_split_vfo) (RIG * rig, vfo_t vfo, split_t split, vfo_t tx_vfo);\r
+ int (*get_split_vfo) (RIG * rig, vfo_t vfo, split_t * split, vfo_t *tx_vfo);\r
+\r
+ int (*set_rit) (RIG * rig, vfo_t vfo, shortfreq_t rit);\r
+ int (*get_rit) (RIG * rig, vfo_t vfo, shortfreq_t * rit);\r
+ int (*set_xit) (RIG * rig, vfo_t vfo, shortfreq_t xit);\r
+ int (*get_xit) (RIG * rig, vfo_t vfo, shortfreq_t * xit);\r
+\r
+ int (*set_ts) (RIG * rig, vfo_t vfo, shortfreq_t ts);\r
+ int (*get_ts) (RIG * rig, vfo_t vfo, shortfreq_t * ts);\r
+\r
+ int (*set_dcs_code) (RIG * rig, vfo_t vfo, tone_t code);\r
+ int (*get_dcs_code) (RIG * rig, vfo_t vfo, tone_t * code);\r
+ int (*set_tone) (RIG * rig, vfo_t vfo, tone_t tone);\r
+ int (*get_tone) (RIG * rig, vfo_t vfo, tone_t * tone);\r
+ int (*set_ctcss_tone) (RIG * rig, vfo_t vfo, tone_t tone);\r
+ int (*get_ctcss_tone) (RIG * rig, vfo_t vfo, tone_t * tone);\r
+\r
+ int (*set_dcs_sql) (RIG * rig, vfo_t vfo, tone_t code);\r
+ int (*get_dcs_sql) (RIG * rig, vfo_t vfo, tone_t * code);\r
+ int (*set_tone_sql) (RIG * rig, vfo_t vfo, tone_t tone);\r
+ int (*get_tone_sql) (RIG * rig, vfo_t vfo, tone_t * tone);\r
+ int (*set_ctcss_sql) (RIG * rig, vfo_t vfo, tone_t tone);\r
+ int (*get_ctcss_sql) (RIG * rig, vfo_t vfo, tone_t * tone);\r
+\r
+ int (*power2mW) (RIG * rig, unsigned int *mwpower, float power,\r
+ freq_t freq, rmode_t mode);\r
+ int (*mW2power) (RIG * rig, float *power, unsigned int mwpower,\r
+ freq_t freq, rmode_t mode);\r
+\r
+ int (*set_powerstat) (RIG * rig, powerstat_t status);\r
+ int (*get_powerstat) (RIG * rig, powerstat_t * status);\r
+ int (*reset) (RIG * rig, reset_t reset);\r
+\r
+ int (*set_ant) (RIG * rig, vfo_t vfo, ant_t ant);\r
+ int (*get_ant) (RIG * rig, vfo_t vfo, ant_t * ant);\r
+\r
+ int (*set_level) (RIG * rig, vfo_t vfo, setting_t level,\r
+ value_t val);\r
+ int (*get_level) (RIG * rig, vfo_t vfo, setting_t level,\r
+ value_t * val);\r
+\r
+ int (*set_func) (RIG * rig, vfo_t vfo, setting_t func, int status);\r
+ int (*get_func) (RIG * rig, vfo_t vfo, setting_t func,\r
+ int *status);\r
+\r
+ int (*set_parm) (RIG * rig, setting_t parm, value_t val);\r
+ int (*get_parm) (RIG * rig, setting_t parm, value_t * val);\r
+\r
+ int (*set_ext_level)(RIG *rig, vfo_t vfo, token_t token, value_t val);\r
+ int (*get_ext_level)(RIG *rig, vfo_t vfo, token_t token, value_t *val);\r
+\r
+ int (*set_ext_parm)(RIG *rig, token_t token, value_t val);\r
+ int (*get_ext_parm)(RIG *rig, token_t token, value_t *val);\r
+\r
+ int (*set_conf) (RIG * rig, token_t token, const char *val);\r
+ int (*get_conf) (RIG * rig, token_t token, char *val);\r
+\r
+ int (*send_dtmf) (RIG * rig, vfo_t vfo, const char *digits);\r
+ int (*recv_dtmf) (RIG * rig, vfo_t vfo, char *digits, int *length);\r
+ int (*send_morse) (RIG * rig, vfo_t vfo, const char *msg);\r
+\r
+ int (*set_bank) (RIG * rig, vfo_t vfo, int bank);\r
+ int (*set_mem) (RIG * rig, vfo_t vfo, int ch);\r
+ int (*get_mem) (RIG * rig, vfo_t vfo, int *ch);\r
+ int (*vfo_op) (RIG * rig, vfo_t vfo, vfo_op_t op);\r
+ int (*scan) (RIG * rig, vfo_t vfo, scan_t scan, int ch);\r
+\r
+ int (*set_trn) (RIG * rig, int trn);\r
+ int (*get_trn) (RIG * rig, int *trn);\r
+\r
+ int (*decode_event) (RIG * rig);\r
+\r
+ int (*set_channel) (RIG * rig, const channel_t * chan);\r
+ int (*get_channel) (RIG * rig, channel_t * chan);\r
+\r
+ const char *(*get_info) (RIG * rig);\r
+\r
+ int (*set_chan_all_cb) (RIG * rig, chan_cb_t chan_cb, rig_ptr_t);\r
+ int (*get_chan_all_cb) (RIG * rig, chan_cb_t chan_cb, rig_ptr_t);\r
+\r
+ int (*set_mem_all_cb) (RIG * rig, chan_cb_t chan_cb, confval_cb_t parm_cb, rig_ptr_t);\r
+ int (*get_mem_all_cb) (RIG * rig, chan_cb_t chan_cb, confval_cb_t parm_cb, rig_ptr_t);\r
+\r
+ const char *clone_combo_set; /*!< String describing key combination to enter load cloning mode */\r
+ const char *clone_combo_get; /*!< String describing key combination to enter save cloning mode */\r
+};\r
+\r
+/**\r
+ * \brief Port definition\r
+ *\r
+ * Of course, looks like OO painstakingly programmed in C, sigh.\r
+ */\r
+typedef struct {\r
+ union {\r
+ rig_port_t rig; /*!< Communication port type */\r
+ ptt_type_t ptt; /*!< PTT port type */\r
+ dcd_type_t dcd; /*!< DCD port type */\r
+ } type;\r
+ int fd; /*!< File descriptor */\r
+ void* handle; /*!< handle for USB */\r
+\r
+ int write_delay; /*!< Delay between each byte sent out, in mS */\r
+ int post_write_delay; /*!< Delay between each commands send out, in mS */\r
+ struct { int tv_sec,tv_usec; } post_write_date; /*!< hamlib internal use */\r
+ int timeout; /*!< Timeout, in mS */\r
+ int retry; /*!< Maximum number of retries, 0 to disable */\r
+\r
+ char pathname[FILPATHLEN]; /*!< Port pathname */\r
+ union {\r
+ struct {\r
+ int rate; /*!< Serial baud rate */\r
+ int data_bits; /*!< Number of data bits */\r
+ int stop_bits; /*!< Number of stop bits */\r
+ enum serial_parity_e parity; /*!< Serial parity */\r
+ enum serial_handshake_e handshake; /*!< Serial handshake */\r
+ enum serial_control_state_e rts_state; /*!< RTS set state */\r
+ enum serial_control_state_e dtr_state; /*!< DTR set state */\r
+ } serial; /*!< serial attributes */\r
+ struct {\r
+ int pin; /*!< Parallel port pin number */\r
+ } parallel; /*!< parallel attributes */\r
+ struct {\r
+ int ptt_bitnum; /*< Bit number for CM108 GPIO PTT */\r
+ } cm108; /*!< CM108 attributes */\r
+ struct {\r
+ int vid; /*!< Vendor ID */\r
+ int pid; /*!< Product ID */\r
+ int conf; /*!< Configuration */\r
+ int iface; /*!< interface */\r
+ int alt; /*!< alternate */\r
+ char *vendor_name; /*!< Vendor name (opt.) */\r
+ char *product; /*!< Product (opt.) */\r
+ } usb; /*!< USB attributes */\r
+ } parm; /*!< Port parameter union */\r
+} hamlib_port_t;\r
+\r
+#if !defined(__APPLE__) || !defined(__cplusplus)\r
+typedef hamlib_port_t port_t;\r
+#endif\r
+\r
+\r
+/**\r
+ * \brief Rig state containing live data and customized fields.\r
+ *\r
+ * This struct contains live data, as well as a copy of capability fields\r
+ * that may be updated (ie. customized)\r
+ *\r
+ * It is fine to move fields around, as this kind of struct should\r
+ * not be initialized like caps are.\r
+ */\r
+struct rig_state {\r
+ /*\r
+ * overridable fields\r
+ */\r
+ hamlib_port_t rigport; /*!< Rig port (internal use). */\r
+ hamlib_port_t pttport; /*!< PTT port (internal use). */\r
+ hamlib_port_t dcdport; /*!< DCD port (internal use). */\r
+\r
+ double vfo_comp; /*!< VFO compensation in PPM, 0.0 to disable */\r
+\r
+ int itu_region; /*!< ITU region to select among freq_range_t */\r
+ freq_range_t rx_range_list[FRQRANGESIZ]; /*!< Receive frequency range list */\r
+ freq_range_t tx_range_list[FRQRANGESIZ]; /*!< Transmit frequency range list */\r
+\r
+ struct tuning_step_list tuning_steps[TSLSTSIZ]; /*!< Tuning step list */\r
+\r
+ struct filter_list filters[FLTLSTSIZ]; /*!< Mode/filter table, at -6dB */\r
+\r
+ cal_table_t str_cal; /*!< S-meter calibration table */\r
+\r
+ chan_t chan_list[CHANLSTSIZ]; /*!< Channel list, zero ended */\r
+\r
+ shortfreq_t max_rit; /*!< max absolute RIT */\r
+ shortfreq_t max_xit; /*!< max absolute XIT */\r
+ shortfreq_t max_ifshift; /*!< max absolute IF-SHIFT */\r
+\r
+ ann_t announces; /*!< Announces bit field list */\r
+\r
+ int preamp[MAXDBLSTSIZ]; /*!< Preamp list in dB, 0 terminated */\r
+ int attenuator[MAXDBLSTSIZ]; /*!< Preamp list in dB, 0 terminated */\r
+\r
+ setting_t has_get_func; /*!< List of get functions */\r
+ setting_t has_set_func; /*!< List of set functions */\r
+ setting_t has_get_level; /*!< List of get level */\r
+ setting_t has_set_level; /*!< List of set level */\r
+ setting_t has_get_parm; /*!< List of get parm */\r
+ setting_t has_set_parm; /*!< List of set parm */\r
+\r
+ gran_t level_gran[RIG_SETTING_MAX]; /*!< level granularity */\r
+ gran_t parm_gran[RIG_SETTING_MAX]; /*!< parm granularity */\r
+\r
+\r
+ /*\r
+ * non overridable fields, internal use\r
+ */\r
+\r
+ int hold_decode; /*!< set to 1 to hold the event decoder (async) otherwise 0 */\r
+ vfo_t current_vfo; /*!< VFO currently set */\r
+ int vfo_list; /*!< Complete list of VFO for this rig */\r
+ int comm_state; /*!< Comm port state, opened/closed. */\r
+ rig_ptr_t priv; /*!< Pointer to private rig state data. */\r
+ rig_ptr_t obj; /*!< Internal use by hamlib++ for event handling. */\r
+\r
+ int transceive; /*!< Whether the transceive mode is on */\r
+ int poll_interval; /*!< Event notification polling period in milliseconds */\r
+ freq_t current_freq; /*!< Frequency currently set */\r
+ rmode_t current_mode; /*!< Mode currently set */\r
+ pbwidth_t current_width; /*!< Passband width currently set */\r
+ vfo_t tx_vfo; /*!< Tx VFO currently set */\r
+ int mode_list; /*!< Complete list of modes for this rig */\r
+\r
+};\r
+\r
+\r
+typedef int (*vprintf_cb_t) (enum rig_debug_level_e, rig_ptr_t, const char *, va_list);\r
+\r
+typedef int (*freq_cb_t) (RIG *, vfo_t, freq_t, rig_ptr_t);\r
+typedef int (*mode_cb_t) (RIG *, vfo_t, rmode_t, pbwidth_t, rig_ptr_t);\r
+typedef int (*vfo_cb_t) (RIG *, vfo_t, rig_ptr_t);\r
+typedef int (*ptt_cb_t) (RIG *, vfo_t, ptt_t, rig_ptr_t);\r
+typedef int (*dcd_cb_t) (RIG *, vfo_t, dcd_t, rig_ptr_t);\r
+typedef int (*pltune_cb_t) (RIG *, vfo_t, freq_t *, rmode_t *, pbwidth_t *, rig_ptr_t);\r
+\r
+/**\r
+ * \brief Callback functions and args for rig event.\r
+ *\r
+ * Some rigs are able to notify the host computer the operator changed\r
+ * the freq/mode from the front panel, depressed a button, etc.\r
+ *\r
+ * Events from the rig are received through async io,\r
+ * so callback functions will be called from the SIGIO sighandler context.\r
+ *\r
+ * Don't set these fields directly, use rig_set_freq_callback et. al. instead.\r
+ *\r
+ * Callbacks suit event based programming very well,\r
+ * really appropriate in a GUI.\r
+ *\r
+ * \sa rig_set_freq_callback, rig_set_mode_callback, rig_set_vfo_callback,\r
+ * rig_set_ptt_callback, rig_set_dcd_callback\r
+ */\r
+struct rig_callbacks {\r
+ freq_cb_t freq_event; /*!< Frequency change event */\r
+ rig_ptr_t freq_arg; /*!< Frequency change argument */\r
+ mode_cb_t mode_event; /*!< Mode change event */\r
+ rig_ptr_t mode_arg; /*!< Mode change argument */\r
+ vfo_cb_t vfo_event; /*!< VFO change event */\r
+ rig_ptr_t vfo_arg; /*!< VFO change argument */\r
+ ptt_cb_t ptt_event; /*!< PTT change event */\r
+ rig_ptr_t ptt_arg; /*!< PTT change argument */\r
+ dcd_cb_t dcd_event; /*!< DCD change event */\r
+ rig_ptr_t dcd_arg; /*!< DCD change argument */\r
+ pltune_cb_t pltune; /*!< Pipeline tuning module freq/mode/width callback */\r
+ rig_ptr_t pltune_arg; /*!< Pipeline tuning argument */\r
+ /* etc.. */\r
+};\r
+\r
+/**\r
+ * \brief The Rig structure\r
+ *\r
+ * This is the master data structure, acting as a handle for the controlled\r
+ * rig. A pointer to this structure is returned by the rig_init() API\r
+ * function and is passed as a parameter to every rig specific API call.\r
+ *\r
+ * \sa rig_init(), rig_caps, rig_state\r
+ */\r
+struct rig {\r
+ struct rig_caps *caps; /*!< Pointer to rig capabilities (read only) */\r
+ struct rig_state state; /*!< Rig state */\r
+ struct rig_callbacks callbacks; /*!< registered event callbacks */\r
+};\r
+\r
+\r
+\r
+/* --------------- API function prototypes -----------------*/\r
+\r
+extern HAMLIB_EXPORT(RIG *) rig_init HAMLIB_PARAMS((rig_model_t rig_model));\r
+extern HAMLIB_EXPORT(int) rig_open HAMLIB_PARAMS((RIG *rig));\r
+\r
+ /*\r
+ * General API commands, from most primitive to least.. :()\r
+ * List Set/Get functions pairs\r
+ */\r
+\r
+extern HAMLIB_EXPORT(int) rig_set_freq HAMLIB_PARAMS((RIG *rig, vfo_t vfo, freq_t freq));\r
+extern HAMLIB_EXPORT(int) rig_get_freq HAMLIB_PARAMS((RIG *rig, vfo_t vfo, freq_t *freq));\r
+\r
+extern HAMLIB_EXPORT(int) rig_set_mode HAMLIB_PARAMS((RIG *rig, vfo_t vfo, rmode_t mode, pbwidth_t width));\r
+extern HAMLIB_EXPORT(int) rig_get_mode HAMLIB_PARAMS((RIG *rig, vfo_t vfo, rmode_t *mode, pbwidth_t *width));\r
+\r
+extern HAMLIB_EXPORT(int) rig_set_vfo HAMLIB_PARAMS((RIG *rig, vfo_t vfo));\r
+extern HAMLIB_EXPORT(int) rig_get_vfo HAMLIB_PARAMS((RIG *rig, vfo_t *vfo));\r
+\r
+extern HAMLIB_EXPORT(int) rig_set_ptt HAMLIB_PARAMS((RIG *rig, vfo_t vfo, ptt_t ptt));\r
+extern HAMLIB_EXPORT(int) rig_get_ptt HAMLIB_PARAMS((RIG *rig, vfo_t vfo, ptt_t *ptt));\r
+\r
+extern HAMLIB_EXPORT(int) rig_get_dcd HAMLIB_PARAMS((RIG *rig, vfo_t vfo, dcd_t *dcd));\r
+\r
+extern HAMLIB_EXPORT(int) rig_set_rptr_shift HAMLIB_PARAMS((RIG *rig, vfo_t vfo, rptr_shift_t rptr_shift));\r
+extern HAMLIB_EXPORT(int) rig_get_rptr_shift HAMLIB_PARAMS((RIG *rig, vfo_t vfo, rptr_shift_t *rptr_shift));\r
+extern HAMLIB_EXPORT(int) rig_set_rptr_offs HAMLIB_PARAMS((RIG *rig, vfo_t vfo, shortfreq_t rptr_offs));\r
+extern HAMLIB_EXPORT(int) rig_get_rptr_offs HAMLIB_PARAMS((RIG *rig, vfo_t vfo, shortfreq_t *rptr_offs));\r
+\r
+extern HAMLIB_EXPORT(int) rig_set_ctcss_tone HAMLIB_PARAMS((RIG *rig, vfo_t vfo, tone_t tone));\r
+extern HAMLIB_EXPORT(int) rig_get_ctcss_tone HAMLIB_PARAMS((RIG *rig, vfo_t vfo, tone_t *tone));\r
+extern HAMLIB_EXPORT(int) rig_set_dcs_code HAMLIB_PARAMS((RIG *rig, vfo_t vfo, tone_t code));\r
+extern HAMLIB_EXPORT(int) rig_get_dcs_code HAMLIB_PARAMS((RIG *rig, vfo_t vfo, tone_t *code));\r
+\r
+extern HAMLIB_EXPORT(int) rig_set_ctcss_sql HAMLIB_PARAMS((RIG *rig, vfo_t vfo, tone_t tone));\r
+extern HAMLIB_EXPORT(int) rig_get_ctcss_sql HAMLIB_PARAMS((RIG *rig, vfo_t vfo, tone_t *tone));\r
+extern HAMLIB_EXPORT(int) rig_set_dcs_sql HAMLIB_PARAMS((RIG *rig, vfo_t vfo, tone_t code));\r
+extern HAMLIB_EXPORT(int) rig_get_dcs_sql HAMLIB_PARAMS((RIG *rig, vfo_t vfo, tone_t *code));\r
+\r
+extern HAMLIB_EXPORT(int) rig_set_split_freq HAMLIB_PARAMS((RIG *rig, vfo_t vfo, freq_t tx_freq));\r
+extern HAMLIB_EXPORT(int) rig_get_split_freq HAMLIB_PARAMS((RIG *rig, vfo_t vfo, freq_t *tx_freq));\r
+extern HAMLIB_EXPORT(int) rig_set_split_mode HAMLIB_PARAMS((RIG *rig, vfo_t vfo, rmode_t tx_mode, pbwidth_t tx_width));\r
+extern HAMLIB_EXPORT(int) rig_get_split_mode HAMLIB_PARAMS((RIG *rig, vfo_t vfo, rmode_t *tx_mode, pbwidth_t *tx_width));\r
+extern HAMLIB_EXPORT(int) rig_set_split_vfo HAMLIB_PARAMS((RIG*, vfo_t rx_vfo, split_t split, vfo_t tx_vfo));\r
+extern HAMLIB_EXPORT(int) rig_get_split_vfo HAMLIB_PARAMS((RIG*, vfo_t rx_vfo, split_t *split, vfo_t *tx_vfo));\r
+#define rig_set_split(r,v,s) rig_set_split_vfo((r),(v),(s),RIG_VFO_CURR)\r
+#define rig_get_split(r,v,s) ({ vfo_t _tx_vfo; rig_get_split_vfo((r),(v),(s),&_tx_vfo); })\r
+\r
+extern HAMLIB_EXPORT(int) rig_set_rit HAMLIB_PARAMS((RIG *rig, vfo_t vfo, shortfreq_t rit));\r
+extern HAMLIB_EXPORT(int) rig_get_rit HAMLIB_PARAMS((RIG *rig, vfo_t vfo, shortfreq_t *rit));\r
+extern HAMLIB_EXPORT(int) rig_set_xit HAMLIB_PARAMS((RIG *rig, vfo_t vfo, shortfreq_t xit));\r
+extern HAMLIB_EXPORT(int) rig_get_xit HAMLIB_PARAMS((RIG *rig, vfo_t vfo, shortfreq_t *xit));\r
+\r
+extern HAMLIB_EXPORT(int) rig_set_ts HAMLIB_PARAMS((RIG *rig, vfo_t vfo, shortfreq_t ts));\r
+extern HAMLIB_EXPORT(int) rig_get_ts HAMLIB_PARAMS((RIG *rig, vfo_t vfo, shortfreq_t *ts));\r
+\r
+extern HAMLIB_EXPORT(int) rig_power2mW HAMLIB_PARAMS((RIG *rig, unsigned int *mwpower, float power, freq_t freq, rmode_t mode));\r
+extern HAMLIB_EXPORT(int) rig_mW2power HAMLIB_PARAMS((RIG *rig, float *power, unsigned int mwpower, freq_t freq, rmode_t mode));\r
+\r
+extern HAMLIB_EXPORT(shortfreq_t) rig_get_resolution HAMLIB_PARAMS((RIG *rig, rmode_t mode));\r
+\r
+extern HAMLIB_EXPORT(int) rig_set_level HAMLIB_PARAMS((RIG *rig, vfo_t vfo, setting_t level, value_t val));\r
+extern HAMLIB_EXPORT(int) rig_get_level HAMLIB_PARAMS((RIG *rig, vfo_t vfo, setting_t level, value_t *val));\r
+\r
+#define rig_get_strength(r,v,s) rig_get_level((r),(v),RIG_LEVEL_STRENGTH, (value_t*)(s))\r
+\r
+extern HAMLIB_EXPORT(int) rig_set_parm HAMLIB_PARAMS((RIG *rig, setting_t parm, value_t val));\r
+extern HAMLIB_EXPORT(int) rig_get_parm HAMLIB_PARAMS((RIG *rig, setting_t parm, value_t *val));\r
+\r
+extern HAMLIB_EXPORT(int) rig_set_conf HAMLIB_PARAMS((RIG *rig, token_t token, const char *val));\r
+extern HAMLIB_EXPORT(int) rig_get_conf HAMLIB_PARAMS((RIG *rig, token_t token, char *val));\r
+\r
+extern HAMLIB_EXPORT(int) rig_set_powerstat HAMLIB_PARAMS((RIG *rig, powerstat_t status));\r
+extern HAMLIB_EXPORT(int) rig_get_powerstat HAMLIB_PARAMS((RIG *rig, powerstat_t *status));\r
+\r
+extern HAMLIB_EXPORT(int) rig_reset HAMLIB_PARAMS((RIG *rig, reset_t reset)); /* dangerous! */\r
+\r
+extern HAMLIB_EXPORT(int) rig_set_ext_level HAMLIB_PARAMS((RIG *rig, vfo_t vfo,\r
+ token_t token, value_t val));\r
+extern HAMLIB_EXPORT(int) rig_get_ext_level HAMLIB_PARAMS((RIG *rig, vfo_t vfo,\r
+ token_t token, value_t *val));\r
+\r
+extern HAMLIB_EXPORT(int) rig_set_ext_parm HAMLIB_PARAMS((RIG *rig, token_t token, value_t val));\r
+extern HAMLIB_EXPORT(int) rig_get_ext_parm HAMLIB_PARAMS((RIG *rig, token_t token, value_t *val));\r
+\r
+extern HAMLIB_EXPORT(int) rig_ext_level_foreach HAMLIB_PARAMS((RIG *rig, int (*cfunc)(RIG*, const struct confparams *, rig_ptr_t), rig_ptr_t data));\r
+extern HAMLIB_EXPORT(int) rig_ext_parm_foreach HAMLIB_PARAMS((RIG *rig, int (*cfunc)(RIG*, const struct confparams *, rig_ptr_t), rig_ptr_t data));\r
+extern HAMLIB_EXPORT(const struct confparams*) rig_ext_lookup HAMLIB_PARAMS((RIG *rig, const char *name));\r
+extern HAMLIB_EXPORT(const struct confparams *) rig_ext_lookup_tok HAMLIB_PARAMS((RIG *rig, token_t token));\r
+extern HAMLIB_EXPORT(token_t) rig_ext_token_lookup HAMLIB_PARAMS((RIG *rig, const char *name));\r
+\r
+\r
+extern HAMLIB_EXPORT(int) rig_token_foreach HAMLIB_PARAMS((RIG *rig, int (*cfunc)(const struct confparams *, rig_ptr_t), rig_ptr_t data));\r
+extern HAMLIB_EXPORT(const struct confparams*) rig_confparam_lookup HAMLIB_PARAMS((RIG *rig, const char *name));\r
+extern HAMLIB_EXPORT(token_t) rig_token_lookup HAMLIB_PARAMS((RIG *rig, const char *name));\r
+\r
+extern HAMLIB_EXPORT(int) rig_close HAMLIB_PARAMS((RIG *rig));\r
+extern HAMLIB_EXPORT(int) rig_cleanup HAMLIB_PARAMS((RIG *rig));\r
+\r
+extern HAMLIB_EXPORT(int) rig_set_ant HAMLIB_PARAMS((RIG *rig, vfo_t vfo, ant_t ant)); /* antenna */\r
+extern HAMLIB_EXPORT(int) rig_get_ant HAMLIB_PARAMS((RIG *rig, vfo_t vfo, ant_t *ant));\r
+\r
+extern HAMLIB_EXPORT(setting_t) rig_has_get_level HAMLIB_PARAMS((RIG *rig, setting_t level));\r
+extern HAMLIB_EXPORT(setting_t) rig_has_set_level HAMLIB_PARAMS((RIG *rig, setting_t level));\r
+\r
+extern HAMLIB_EXPORT(setting_t) rig_has_get_parm HAMLIB_PARAMS((RIG *rig, setting_t parm));\r
+extern HAMLIB_EXPORT(setting_t) rig_has_set_parm HAMLIB_PARAMS((RIG *rig, setting_t parm));\r
+\r
+extern HAMLIB_EXPORT(setting_t) rig_has_get_func HAMLIB_PARAMS((RIG *rig, setting_t func));\r
+extern HAMLIB_EXPORT(setting_t) rig_has_set_func HAMLIB_PARAMS((RIG *rig, setting_t func));\r
+\r
+extern HAMLIB_EXPORT(int) rig_set_func HAMLIB_PARAMS((RIG *rig, vfo_t vfo, setting_t func, int status));\r
+extern HAMLIB_EXPORT(int) rig_get_func HAMLIB_PARAMS((RIG *rig, vfo_t vfo, setting_t func, int *status));\r
+\r
+extern HAMLIB_EXPORT(int) rig_send_dtmf HAMLIB_PARAMS((RIG *rig, vfo_t vfo, const char *digits));\r
+extern HAMLIB_EXPORT(int) rig_recv_dtmf HAMLIB_PARAMS((RIG *rig, vfo_t vfo, char *digits, int *length));\r
+extern HAMLIB_EXPORT(int) rig_send_morse HAMLIB_PARAMS((RIG *rig, vfo_t vfo, const char *msg));\r
+\r
+extern HAMLIB_EXPORT(int) rig_set_bank HAMLIB_PARAMS((RIG *rig, vfo_t vfo, int bank));\r
+extern HAMLIB_EXPORT(int) rig_set_mem HAMLIB_PARAMS((RIG *rig, vfo_t vfo, int ch));\r
+extern HAMLIB_EXPORT(int) rig_get_mem HAMLIB_PARAMS((RIG *rig, vfo_t vfo, int *ch));\r
+extern HAMLIB_EXPORT(int) rig_vfo_op HAMLIB_PARAMS((RIG *rig, vfo_t vfo, vfo_op_t op));\r
+extern HAMLIB_EXPORT(vfo_op_t) rig_has_vfo_op HAMLIB_PARAMS((RIG *rig, vfo_op_t op));\r
+extern HAMLIB_EXPORT(int) rig_scan HAMLIB_PARAMS((RIG *rig, vfo_t vfo, scan_t scan, int ch));\r
+extern HAMLIB_EXPORT(scan_t) rig_has_scan HAMLIB_PARAMS((RIG *rig, scan_t scan));\r
+\r
+extern HAMLIB_EXPORT(int) rig_set_channel HAMLIB_PARAMS((RIG *rig, const channel_t *chan)); /* mem */\r
+extern HAMLIB_EXPORT(int) rig_get_channel HAMLIB_PARAMS((RIG *rig, channel_t *chan));\r
+\r
+extern HAMLIB_EXPORT(int) rig_set_chan_all HAMLIB_PARAMS((RIG *rig, const channel_t chans[]));\r
+extern HAMLIB_EXPORT(int) rig_get_chan_all HAMLIB_PARAMS((RIG *rig, channel_t chans[]));\r
+extern HAMLIB_EXPORT(int) rig_set_chan_all_cb HAMLIB_PARAMS((RIG *rig, chan_cb_t chan_cb, rig_ptr_t));\r
+extern HAMLIB_EXPORT(int) rig_get_chan_all_cb HAMLIB_PARAMS((RIG *rig, chan_cb_t chan_cb, rig_ptr_t));\r
+\r
+extern HAMLIB_EXPORT(int) rig_set_mem_all_cb HAMLIB_PARAMS((RIG *rig, chan_cb_t chan_cb, confval_cb_t parm_cb, rig_ptr_t));\r
+extern HAMLIB_EXPORT(int) rig_get_mem_all_cb HAMLIB_PARAMS((RIG *rig, chan_cb_t chan_cb, confval_cb_t parm_cb, rig_ptr_t));\r
+extern HAMLIB_EXPORT(int) rig_set_mem_all HAMLIB_PARAMS((RIG *rig, const channel_t *chan, const struct confparams *, const value_t *));\r
+extern HAMLIB_EXPORT(int) rig_get_mem_all HAMLIB_PARAMS((RIG *rig, channel_t *chan, const struct confparams *, value_t *));\r
+extern HAMLIB_EXPORT(const chan_t *) rig_lookup_mem_caps HAMLIB_PARAMS((RIG *rig, int ch));\r
+extern HAMLIB_EXPORT(int) rig_mem_count HAMLIB_PARAMS((RIG *rig));\r
+\r
+\r
+extern HAMLIB_EXPORT(int) rig_set_trn HAMLIB_PARAMS((RIG *rig, int trn));\r
+extern HAMLIB_EXPORT(int) rig_get_trn HAMLIB_PARAMS((RIG *rig, int *trn));\r
+extern HAMLIB_EXPORT(int) rig_set_freq_callback HAMLIB_PARAMS((RIG *, freq_cb_t, rig_ptr_t));\r
+extern HAMLIB_EXPORT(int) rig_set_mode_callback HAMLIB_PARAMS((RIG *, mode_cb_t, rig_ptr_t));\r
+extern HAMLIB_EXPORT(int) rig_set_vfo_callback HAMLIB_PARAMS((RIG *, vfo_cb_t, rig_ptr_t));\r
+extern HAMLIB_EXPORT(int) rig_set_ptt_callback HAMLIB_PARAMS((RIG *, ptt_cb_t, rig_ptr_t));\r
+extern HAMLIB_EXPORT(int) rig_set_dcd_callback HAMLIB_PARAMS((RIG *, dcd_cb_t, rig_ptr_t));\r
+extern HAMLIB_EXPORT(int) rig_set_pltune_callback HAMLIB_PARAMS((RIG *, pltune_cb_t, rig_ptr_t));\r
+\r
+extern HAMLIB_EXPORT(const char *) rig_get_info HAMLIB_PARAMS((RIG *rig));\r
+\r
+extern HAMLIB_EXPORT(const struct rig_caps *) rig_get_caps HAMLIB_PARAMS((rig_model_t rig_model));\r
+extern HAMLIB_EXPORT(const freq_range_t *) rig_get_range HAMLIB_PARAMS((const freq_range_t range_list[], freq_t freq, rmode_t mode));\r
+\r
+extern HAMLIB_EXPORT(pbwidth_t) rig_passband_normal HAMLIB_PARAMS((RIG *rig, rmode_t mode));\r
+extern HAMLIB_EXPORT(pbwidth_t) rig_passband_narrow HAMLIB_PARAMS((RIG *rig, rmode_t mode));\r
+extern HAMLIB_EXPORT(pbwidth_t) rig_passband_wide HAMLIB_PARAMS((RIG *rig, rmode_t mode));\r
+\r
+extern HAMLIB_EXPORT(const char *) rigerror HAMLIB_PARAMS((int errnum));\r
+\r
+extern HAMLIB_EXPORT(int) rig_setting2idx HAMLIB_PARAMS((setting_t s));\r
+#define rig_idx2setting(i) (1UL<<(i))\r
+\r
+/*\r
+ * Even if these functions are prefixed with "rig_", they are not rig specific\r
+ * Maybe "hamlib_" would have been better. Let me know. --SF\r
+ */\r
+extern HAMLIB_EXPORT(void) rig_set_debug HAMLIB_PARAMS((enum rig_debug_level_e debug_level));\r
+#define rig_set_debug_level(level) rig_set_debug(level)\r
+extern HAMLIB_EXPORT(int) rig_need_debug HAMLIB_PARAMS((enum rig_debug_level_e debug_level));\r
+extern HAMLIB_EXPORT(void) rig_debug HAMLIB_PARAMS((enum rig_debug_level_e debug_level, const char *fmt, ...));\r
+extern HAMLIB_EXPORT(vprintf_cb_t) rig_set_debug_callback HAMLIB_PARAMS((vprintf_cb_t cb, rig_ptr_t arg));\r
+extern HAMLIB_EXPORT(FILE*) rig_set_debug_file HAMLIB_PARAMS((FILE *stream));\r
+\r
+extern HAMLIB_EXPORT(int) rig_register HAMLIB_PARAMS((const struct rig_caps *caps));\r
+extern HAMLIB_EXPORT(int) rig_unregister HAMLIB_PARAMS((rig_model_t rig_model));\r
+extern HAMLIB_EXPORT(int) rig_list_foreach HAMLIB_PARAMS((int (*cfunc)(const struct rig_caps*, rig_ptr_t), rig_ptr_t data));\r
+extern HAMLIB_EXPORT(int) rig_load_backend HAMLIB_PARAMS((const char *be_name));\r
+extern HAMLIB_EXPORT(int) rig_check_backend HAMLIB_PARAMS((rig_model_t rig_model));\r
+extern HAMLIB_EXPORT(int) rig_load_all_backends HAMLIB_PARAMS((void));\r
+\r
+typedef int (*rig_probe_func_t)(const hamlib_port_t *, rig_model_t, rig_ptr_t);\r
+extern HAMLIB_EXPORT(int) rig_probe_all HAMLIB_PARAMS((hamlib_port_t *p, rig_probe_func_t, rig_ptr_t));\r
+extern HAMLIB_EXPORT(rig_model_t) rig_probe HAMLIB_PARAMS((hamlib_port_t *p));\r
+\r
+\r
+/* Misc calls */\r
+extern HAMLIB_EXPORT(const char *) rig_strrmode(rmode_t mode);\r
+extern HAMLIB_EXPORT(const char *) rig_strvfo(vfo_t vfo);\r
+extern HAMLIB_EXPORT(const char *) rig_strfunc(setting_t);\r
+extern HAMLIB_EXPORT(const char *) rig_strlevel(setting_t);\r
+extern HAMLIB_EXPORT(const char *) rig_strparm(setting_t);\r
+extern HAMLIB_EXPORT(const char *) rig_strptrshift(rptr_shift_t);\r
+extern HAMLIB_EXPORT(const char *) rig_strvfop(vfo_op_t op);\r
+extern HAMLIB_EXPORT(const char *) rig_strscan(scan_t scan);\r
+extern HAMLIB_EXPORT(const char *) rig_strstatus(enum rig_status_e status);\r
+extern HAMLIB_EXPORT(const char *) rig_strmtype(chan_type_t mtype);\r
+\r
+extern HAMLIB_EXPORT(rmode_t) rig_parse_mode(const char *s);\r
+extern HAMLIB_EXPORT(vfo_t) rig_parse_vfo(const char *s);\r
+extern HAMLIB_EXPORT(setting_t) rig_parse_func(const char *s);\r
+extern HAMLIB_EXPORT(setting_t) rig_parse_level(const char *s);\r
+extern HAMLIB_EXPORT(setting_t) rig_parse_parm(const char *s);\r
+extern HAMLIB_EXPORT(vfo_op_t) rig_parse_vfo_op(const char *s);\r
+extern HAMLIB_EXPORT(scan_t) rig_parse_scan(const char *s);\r
+extern HAMLIB_EXPORT(rptr_shift_t) rig_parse_rptr_shift(const char *s);\r
+extern HAMLIB_EXPORT(chan_type_t) rig_parse_mtype(const char *s);\r
+\r
+\r
+__END_DECLS\r
+\r
+#endif /* _RIG_H */\r
+\r
+/*! @} */\r
--- /dev/null
+/*\r
+ * Hamlib Win32 DLL build definitions\r
+ * Copyright (c) 2001-2009 by Stephane Fillod\r
+ *\r
+ *\r
+ * This library is free software; you can redistribute it and/or\r
+ * modify it under the terms of the GNU Lesser General Public\r
+ * License as published by the Free Software Foundation; either\r
+ * version 2.1 of the License, or (at your option) any later version.\r
+ *\r
+ * This library is distributed in the hope that it will be useful,\r
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of\r
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU\r
+ * Lesser General Public License for more details.\r
+ *\r
+ * You should have received a copy of the GNU Lesser General Public\r
+ * License along with this library; if not, write to the Free Software\r
+ * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA\r
+ *\r
+ */\r
+\r
+/*\r
+ * Provide definitions to compile in Windows\r
+ * using C-friendly options, e.g.\r
+ *\r
+ * HAMLIB_API -> __cdecl\r
+ * HAMLIB_EXPORT, HAMLIB_EXPORT_VAR -> __declspec(dllexport)\r
+ * BACKEND_EXPORT, BACKEND_EXPORT_VAR -> __declspec(dllexport)\r
+ *\r
+ * No effect in non-Windows environments.\r
+ */\r
+\r
+#if defined(_WIN32) && !defined(__CYGWIN__)\r
+# undef HAMLIB_IMPEXP\r
+# undef BACKEND_IMPEXP\r
+# undef HAMLIB_API\r
+# undef HAMLIB_EXPORT\r
+# undef HAMLIB_EXPORT_VAR\r
+# undef BACKEND_EXPORT\r
+# undef BACKEND_EXPORT_VAR\r
+# undef HAMLIB_DLL_IMPORT\r
+# undef HAMLIB_DLL_EXPORT\r
+\r
+# if defined (__BORLANDC__)\r
+# define HAMLIB_DLL_IMPORT __import\r
+# define HAMLIB_DLL_EXPORT __export\r
+# else\r
+# define HAMLIB_DLL_IMPORT __declspec(dllimport)\r
+# define HAMLIB_DLL_EXPORT __declspec(dllexport)\r
+# endif\r
+\r
+# ifdef DLL_EXPORT\r
+ /* HAMLIB_API may be set to __stdcall for VB, .. */\r
+# define HAMLIB_API __cdecl\r
+# ifdef IN_HAMLIB\r
+# define BACKEND_IMPEXP HAMLIB_DLL_EXPORT\r
+# define HAMLIB_IMPEXP HAMLIB_DLL_EXPORT\r
+# else\r
+# define BACKEND_IMPEXP HAMLIB_DLL_EXPORT\r
+# define HAMLIB_IMPEXP HAMLIB_DLL_IMPORT\r
+# endif\r
+# else\r
+ /* static build, only export the backend entry points for lt_dlsym */\r
+# define BACKEND_IMPEXP HAMLIB_DLL_EXPORT\r
+# endif\r
+#endif\r
+\r
+\r
+/* Take care of non-cygwin platforms */\r
+#if !defined(HAMLIB_IMPEXP)\r
+# define HAMLIB_IMPEXP\r
+#endif\r
+#if !defined(BACKEND_IMPEXP)\r
+# define BACKEND_IMPEXP\r
+#endif\r
+#if !defined(HAMLIB_API)\r
+# define HAMLIB_API\r
+#endif\r
+#if !defined(HAMLIB_EXPORT)\r
+# define HAMLIB_EXPORT(type) HAMLIB_IMPEXP type HAMLIB_API\r
+#endif\r
+#if !defined(HAMLIB_EXPORT_VAR)\r
+# define HAMLIB_EXPORT_VAR(type) HAMLIB_IMPEXP type\r
+#endif\r
+#if !defined(BACKEND_EXPORT)\r
+# define BACKEND_EXPORT(type) BACKEND_IMPEXP type HAMLIB_API\r
+#endif\r
+#if !defined(BACKEND_EXPORT_VAR)\r
+# define BACKEND_EXPORT_VAR(type) BACKEND_IMPEXP type\r
+#endif\r
+\r
+\r
--- /dev/null
+/*\r
+ * Hamlib Interface - list of known rigs\r
+ * Copyright (c) 2000-2003 by Frank Singleton\r
+ * Copyright (c) 2000-2012 by Stephane Fillod\r
+ *\r
+ *\r
+ * This library is free software; you can redistribute it and/or\r
+ * modify it under the terms of the GNU Lesser General Public\r
+ * License as published by the Free Software Foundation; either\r
+ * version 2.1 of the License, or (at your option) any later version.\r
+ *\r
+ * This library is distributed in the hope that it will be useful,\r
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of\r
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU\r
+ * Lesser General Public License for more details.\r
+ *\r
+ * You should have received a copy of the GNU Lesser General Public\r
+ * License along with this library; if not, write to the Free Software\r
+ * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA\r
+ *\r
+ */\r
+\r
+#ifndef _RIGLIST_H\r
+#define _RIGLIST_H 1\r
+\r
+#define RIG_MAKE_MODEL(a,b) ((a)*100+(b))\r
+#define RIG_BACKEND_NUM(a) ((a)/100)\r
+\r
+/*! \file riglist.h\r
+ * \brief Hamlib rig(radio) model definitions.\r
+ *\r
+ * This file contains rig model definitions for the Hamlib rig API.\r
+ * Each distinct rig type has a unique model number (ID) and is used\r
+ * by hamlib to identify and distinguish between the different hardware drivers.\r
+ * The exact model numbers can be acquired using the macros in this\r
+ * file. To obtain a list of supported rig branches, one can use the statically\r
+ * defined RIG_BACKEND_LIST macro. To obtain a full list of supported rig (including\r
+ * each model in every branch), the foreach_opened_rig() API function can be used.\r
+ *\r
+ * The model number, or ID, is used to tell hamlib, which rig the client whishes to\r
+ * use. It is done with the rig_init() API call.\r
+ */\r
+\r
+#define RIG_MODEL_NONE 0\r
+\r
+/*! \def RIG_MODEL_DUMMY\r
+ * \brief A macro that returns the model number for the dummy backend.\r
+ *\r
+ * The dummy backend, as the name suggests, is a backend which performs\r
+ * no hardware operations and always behaves as one would expect. It can\r
+ * be thought of as a hardware simulator and is very usefull for testing\r
+ * client applications.\r
+ */\r
+#define RIG_DUMMY 0\r
+#define RIG_BACKEND_DUMMY "dummy"\r
+#define RIG_MODEL_DUMMY RIG_MAKE_MODEL(RIG_DUMMY, 1)\r
+#define RIG_MODEL_NETRIGCTL RIG_MAKE_MODEL(RIG_DUMMY, 2)\r
+#define RIG_MODEL_ARMSTRONG RIG_MAKE_MODEL(RIG_DUMMY, 3)\r
+\r
+ /*\r
+ * Yaesu\r
+ */\r
+#define RIG_YAESU 1\r
+#define RIG_BACKEND_YAESU "yaesu"\r
+#define RIG_MODEL_FT847 RIG_MAKE_MODEL(RIG_YAESU, 1)\r
+#define RIG_MODEL_FT1000 RIG_MAKE_MODEL(RIG_YAESU, 2)\r
+#define RIG_MODEL_FT1000D RIG_MAKE_MODEL(RIG_YAESU, 3)\r
+#define RIG_MODEL_FT1000MPMKV RIG_MAKE_MODEL(RIG_YAESU, 4)\r
+#define RIG_MODEL_FT747 RIG_MAKE_MODEL(RIG_YAESU, 5)\r
+#define RIG_MODEL_FT757 RIG_MAKE_MODEL(RIG_YAESU, 6)\r
+#define RIG_MODEL_FT757GXII RIG_MAKE_MODEL(RIG_YAESU, 7)\r
+#define RIG_MODEL_FT575 RIG_MAKE_MODEL(RIG_YAESU, 8)\r
+#define RIG_MODEL_FT767 RIG_MAKE_MODEL(RIG_YAESU, 9)\r
+#define RIG_MODEL_FT736R RIG_MAKE_MODEL(RIG_YAESU, 10)\r
+#define RIG_MODEL_FT840 RIG_MAKE_MODEL(RIG_YAESU, 11)\r
+#define RIG_MODEL_FT820 RIG_MAKE_MODEL(RIG_YAESU, 12)\r
+#define RIG_MODEL_FT900 RIG_MAKE_MODEL(RIG_YAESU, 13)\r
+#define RIG_MODEL_FT920 RIG_MAKE_MODEL(RIG_YAESU, 14)\r
+#define RIG_MODEL_FT890 RIG_MAKE_MODEL(RIG_YAESU, 15)\r
+#define RIG_MODEL_FT990 RIG_MAKE_MODEL(RIG_YAESU, 16)\r
+#define RIG_MODEL_FRG100 RIG_MAKE_MODEL(RIG_YAESU, 17)\r
+#define RIG_MODEL_FRG9600 RIG_MAKE_MODEL(RIG_YAESU, 18)\r
+#define RIG_MODEL_FRG8800 RIG_MAKE_MODEL(RIG_YAESU, 19)\r
+#define RIG_MODEL_FT817 RIG_MAKE_MODEL(RIG_YAESU, 20)\r
+#define RIG_MODEL_FT100 RIG_MAKE_MODEL(RIG_YAESU, 21)\r
+#define RIG_MODEL_FT857 RIG_MAKE_MODEL(RIG_YAESU, 22)\r
+#define RIG_MODEL_FT897 RIG_MAKE_MODEL(RIG_YAESU, 23)\r
+#define RIG_MODEL_FT1000MP RIG_MAKE_MODEL(RIG_YAESU, 24)\r
+#define RIG_MODEL_FT1000MPMKVFLD RIG_MAKE_MODEL(RIG_YAESU, 25)\r
+#define RIG_MODEL_VR5000 RIG_MAKE_MODEL(RIG_YAESU, 26)\r
+#define RIG_MODEL_FT450 RIG_MAKE_MODEL(RIG_YAESU, 27)\r
+#define RIG_MODEL_FT950 RIG_MAKE_MODEL(RIG_YAESU, 28)\r
+#define RIG_MODEL_FT2000 RIG_MAKE_MODEL(RIG_YAESU, 29)\r
+#define RIG_MODEL_FT9000 RIG_MAKE_MODEL(RIG_YAESU, 30)\r
+#define RIG_MODEL_FT980 RIG_MAKE_MODEL(RIG_YAESU, 31)\r
+#define RIG_MODEL_FTDX5000 RIG_MAKE_MODEL(RIG_YAESU, 32)\r
+#define RIG_MODEL_VX1700 RIG_MAKE_MODEL(RIG_YAESU, 33)\r
+\r
+ /*\r
+ * Kenwood\r
+ */\r
+#define RIG_KENWOOD 2\r
+#define RIG_BACKEND_KENWOOD "kenwood"\r
+#define RIG_MODEL_TS50 RIG_MAKE_MODEL(RIG_KENWOOD, 1)\r
+#define RIG_MODEL_TS440 RIG_MAKE_MODEL(RIG_KENWOOD, 2)\r
+#define RIG_MODEL_TS450S RIG_MAKE_MODEL(RIG_KENWOOD, 3)\r
+#define RIG_MODEL_TS570D RIG_MAKE_MODEL(RIG_KENWOOD, 4)\r
+#define RIG_MODEL_TS690S RIG_MAKE_MODEL(RIG_KENWOOD, 5)\r
+#define RIG_MODEL_TS711 RIG_MAKE_MODEL(RIG_KENWOOD, 6)\r
+#define RIG_MODEL_TS790 RIG_MAKE_MODEL(RIG_KENWOOD, 7)\r
+#define RIG_MODEL_TS811 RIG_MAKE_MODEL(RIG_KENWOOD, 8)\r
+#define RIG_MODEL_TS850 RIG_MAKE_MODEL(RIG_KENWOOD, 9)\r
+#define RIG_MODEL_TS870S RIG_MAKE_MODEL(RIG_KENWOOD, 10)\r
+#define RIG_MODEL_TS940 RIG_MAKE_MODEL(RIG_KENWOOD, 11)\r
+#define RIG_MODEL_TS950 RIG_MAKE_MODEL(RIG_KENWOOD, 12)\r
+#define RIG_MODEL_TS950SDX RIG_MAKE_MODEL(RIG_KENWOOD, 13)\r
+#define RIG_MODEL_TS2000 RIG_MAKE_MODEL(RIG_KENWOOD, 14)\r
+#define RIG_MODEL_R5000 RIG_MAKE_MODEL(RIG_KENWOOD, 15)\r
+#define RIG_MODEL_TS570S RIG_MAKE_MODEL(RIG_KENWOOD, 16)\r
+#define RIG_MODEL_THD7A RIG_MAKE_MODEL(RIG_KENWOOD, 17)\r
+#define RIG_MODEL_THD7AG RIG_MAKE_MODEL(RIG_KENWOOD, 18)\r
+#define RIG_MODEL_THF6A RIG_MAKE_MODEL(RIG_KENWOOD, 19)\r
+#define RIG_MODEL_THF7E RIG_MAKE_MODEL(RIG_KENWOOD, 20)\r
+#define RIG_MODEL_K2 RIG_MAKE_MODEL(RIG_KENWOOD, 21)\r
+#define RIG_MODEL_TS930 RIG_MAKE_MODEL(RIG_KENWOOD, 22)\r
+#define RIG_MODEL_THG71 RIG_MAKE_MODEL(RIG_KENWOOD, 23)\r
+#define RIG_MODEL_TS680S RIG_MAKE_MODEL(RIG_KENWOOD, 24)\r
+#define RIG_MODEL_TS140S RIG_MAKE_MODEL(RIG_KENWOOD, 25)\r
+#define RIG_MODEL_TMD700 RIG_MAKE_MODEL(RIG_KENWOOD, 26)\r
+#define RIG_MODEL_TMV7 RIG_MAKE_MODEL(RIG_KENWOOD, 27)\r
+#define RIG_MODEL_TS480 RIG_MAKE_MODEL(RIG_KENWOOD, 28)\r
+#define RIG_MODEL_K3 RIG_MAKE_MODEL(RIG_KENWOOD, 29)\r
+#define RIG_MODEL_TRC80 RIG_MAKE_MODEL(RIG_KENWOOD, 30)\r
+#define RIG_MODEL_TS590S RIG_MAKE_MODEL(RIG_KENWOOD, 31)\r
+#define RIG_MODEL_TRANSFOX RIG_MAKE_MODEL(RIG_KENWOOD, 32) /* SigFox Transfox */\r
+#define RIG_MODEL_THD72A RIG_MAKE_MODEL(RIG_KENWOOD, 33)\r
+#define RIG_MODEL_TMD710 RIG_MAKE_MODEL(RIG_KENWOOD, 34)\r
+#define RIG_MODEL_TMV71 RIG_MAKE_MODEL(RIG_KENWOOD, 35)\r
+\r
+ /*\r
+ * Icom\r
+ */\r
+#define RIG_ICOM 3\r
+#define RIG_BACKEND_ICOM "icom"\r
+#define RIG_MODEL_IC1271 RIG_MAKE_MODEL(RIG_ICOM, 1)\r
+#define RIG_MODEL_IC1275 RIG_MAKE_MODEL(RIG_ICOM, 2)\r
+#define RIG_MODEL_IC271 RIG_MAKE_MODEL(RIG_ICOM, 3)\r
+#define RIG_MODEL_IC275 RIG_MAKE_MODEL(RIG_ICOM, 4)\r
+#define RIG_MODEL_IC375 RIG_MAKE_MODEL(RIG_ICOM, 5)\r
+#define RIG_MODEL_IC471 RIG_MAKE_MODEL(RIG_ICOM, 6)\r
+#define RIG_MODEL_IC475 RIG_MAKE_MODEL(RIG_ICOM, 7)\r
+#define RIG_MODEL_IC575 RIG_MAKE_MODEL(RIG_ICOM, 8)\r
+#define RIG_MODEL_IC706 RIG_MAKE_MODEL(RIG_ICOM, 9)\r
+#define RIG_MODEL_IC706MKII RIG_MAKE_MODEL(RIG_ICOM, 10)\r
+#define RIG_MODEL_IC706MKIIG RIG_MAKE_MODEL(RIG_ICOM, 11)\r
+#define RIG_MODEL_IC707 RIG_MAKE_MODEL(RIG_ICOM, 12)\r
+#define RIG_MODEL_IC718 RIG_MAKE_MODEL(RIG_ICOM, 13)\r
+#define RIG_MODEL_IC725 RIG_MAKE_MODEL(RIG_ICOM, 14)\r
+#define RIG_MODEL_IC726 RIG_MAKE_MODEL(RIG_ICOM, 15)\r
+#define RIG_MODEL_IC728 RIG_MAKE_MODEL(RIG_ICOM, 16)\r
+#define RIG_MODEL_IC729 RIG_MAKE_MODEL(RIG_ICOM, 17)\r
+#define RIG_MODEL_IC731 RIG_MAKE_MODEL(RIG_ICOM, 18)\r
+#define RIG_MODEL_IC735 RIG_MAKE_MODEL(RIG_ICOM, 19)\r
+#define RIG_MODEL_IC736 RIG_MAKE_MODEL(RIG_ICOM, 20)\r
+#define RIG_MODEL_IC737 RIG_MAKE_MODEL(RIG_ICOM, 21)\r
+#define RIG_MODEL_IC738 RIG_MAKE_MODEL(RIG_ICOM, 22)\r
+#define RIG_MODEL_IC746 RIG_MAKE_MODEL(RIG_ICOM, 23)\r
+#define RIG_MODEL_IC751 RIG_MAKE_MODEL(RIG_ICOM, 24)\r
+#define RIG_MODEL_IC751A RIG_MAKE_MODEL(RIG_ICOM, 25)\r
+#define RIG_MODEL_IC756 RIG_MAKE_MODEL(RIG_ICOM, 26)\r
+#define RIG_MODEL_IC756PRO RIG_MAKE_MODEL(RIG_ICOM, 27)\r
+#define RIG_MODEL_IC761 RIG_MAKE_MODEL(RIG_ICOM, 28)\r
+#define RIG_MODEL_IC765 RIG_MAKE_MODEL(RIG_ICOM, 29)\r
+#define RIG_MODEL_IC775 RIG_MAKE_MODEL(RIG_ICOM, 30)\r
+#define RIG_MODEL_IC781 RIG_MAKE_MODEL(RIG_ICOM, 31)\r
+#define RIG_MODEL_IC820 RIG_MAKE_MODEL(RIG_ICOM, 32)\r
+#define RIG_MODEL_IC821 RIG_MAKE_MODEL(RIG_ICOM, 33)\r
+#define RIG_MODEL_IC821H RIG_MAKE_MODEL(RIG_ICOM, 34)\r
+#define RIG_MODEL_IC970 RIG_MAKE_MODEL(RIG_ICOM, 35)\r
+#define RIG_MODEL_ICR10 RIG_MAKE_MODEL(RIG_ICOM, 36)\r
+#define RIG_MODEL_ICR71 RIG_MAKE_MODEL(RIG_ICOM, 37)\r
+#define RIG_MODEL_ICR72 RIG_MAKE_MODEL(RIG_ICOM, 38)\r
+#define RIG_MODEL_ICR75 RIG_MAKE_MODEL(RIG_ICOM, 39)\r
+#define RIG_MODEL_ICR7000 RIG_MAKE_MODEL(RIG_ICOM, 40)\r
+#define RIG_MODEL_ICR7100 RIG_MAKE_MODEL(RIG_ICOM, 41)\r
+#define RIG_MODEL_ICR8500 RIG_MAKE_MODEL(RIG_ICOM, 42)\r
+#define RIG_MODEL_ICR9000 RIG_MAKE_MODEL(RIG_ICOM, 43)\r
+#define RIG_MODEL_IC910 RIG_MAKE_MODEL(RIG_ICOM, 44)\r
+#define RIG_MODEL_IC78 RIG_MAKE_MODEL(RIG_ICOM, 45)\r
+#define RIG_MODEL_IC746PRO RIG_MAKE_MODEL(RIG_ICOM, 46)\r
+#define RIG_MODEL_IC756PROII RIG_MAKE_MODEL(RIG_ICOM, 47)\r
+#define RIG_MODEL_ICID1 RIG_MAKE_MODEL(RIG_ICOM, 54)\r
+#define RIG_MODEL_IC703 RIG_MAKE_MODEL(RIG_ICOM, 55)\r
+#define RIG_MODEL_IC7800 RIG_MAKE_MODEL(RIG_ICOM, 56)\r
+#define RIG_MODEL_IC756PROIII RIG_MAKE_MODEL(RIG_ICOM, 57)\r
+#define RIG_MODEL_ICR20 RIG_MAKE_MODEL(RIG_ICOM, 58)\r
+#define RIG_MODEL_IC7000 RIG_MAKE_MODEL(RIG_ICOM, 60)\r
+#define RIG_MODEL_IC7200 RIG_MAKE_MODEL(RIG_ICOM, 61)\r
+#define RIG_MODEL_IC7700 RIG_MAKE_MODEL(RIG_ICOM, 62)\r
+#define RIG_MODEL_IC7600 RIG_MAKE_MODEL(RIG_ICOM, 63)\r
+#define RIG_MODEL_IC92D RIG_MAKE_MODEL(RIG_ICOM, 65)\r
+#define RIG_MODEL_ICR9500 RIG_MAKE_MODEL(RIG_ICOM, 66)\r
+#define RIG_MODEL_IC7410 RIG_MAKE_MODEL(RIG_ICOM, 67)\r
+#define RIG_MODEL_IC9100 RIG_MAKE_MODEL(RIG_ICOM, 68)\r
+#define RIG_MODEL_ICRX7 RIG_MAKE_MODEL(RIG_ICOM, 69)\r
+/* next one is 70 */\r
+\r
+ /*\r
+ * Optoelectronics (CI-V)\r
+ */\r
+#define RIG_MODEL_MINISCOUT RIG_MAKE_MODEL(RIG_ICOM, 48)\r
+#define RIG_MODEL_XPLORER RIG_MAKE_MODEL(RIG_ICOM, 49)\r
+#define RIG_MODEL_OS535 RIG_MAKE_MODEL(RIG_ICOM, 52)\r
+#define RIG_MODEL_OS456 RIG_MAKE_MODEL(RIG_ICOM, 53)\r
+\r
+ /*\r
+ * TenTec (CI-V)\r
+ */\r
+#define RIG_MODEL_OMNIVI RIG_MAKE_MODEL(RIG_ICOM, 50)\r
+#define RIG_MODEL_OMNIVIP RIG_MAKE_MODEL(RIG_ICOM, 51) /* OMNI-VI+ */\r
+#define RIG_MODEL_PARAGON2 RIG_MAKE_MODEL(RIG_ICOM, 59)\r
+#define RIG_MODEL_DELTAII RIG_MAKE_MODEL(RIG_ICOM, 64)\r
+\r
+ /*\r
+ * Icom PCR\r
+ */\r
+#define RIG_PCR 4\r
+#define RIG_BACKEND_PCR "pcr"\r
+#define RIG_MODEL_PCR1000 RIG_MAKE_MODEL(RIG_PCR, 1)\r
+#define RIG_MODEL_PCR100 RIG_MAKE_MODEL(RIG_PCR, 2)\r
+#define RIG_MODEL_PCR1500 RIG_MAKE_MODEL(RIG_PCR, 3)\r
+#define RIG_MODEL_PCR2500 RIG_MAKE_MODEL(RIG_PCR, 4)\r
+\r
+ /*\r
+ * AOR\r
+ */\r
+#define RIG_AOR 5\r
+#define RIG_BACKEND_AOR "aor"\r
+#define RIG_MODEL_AR8200 RIG_MAKE_MODEL(RIG_AOR, 1)\r
+#define RIG_MODEL_AR8000 RIG_MAKE_MODEL(RIG_AOR, 2)\r
+#define RIG_MODEL_AR7030 RIG_MAKE_MODEL(RIG_AOR, 3)\r
+#define RIG_MODEL_AR5000 RIG_MAKE_MODEL(RIG_AOR, 4)\r
+#define RIG_MODEL_AR3030 RIG_MAKE_MODEL(RIG_AOR, 5)\r
+#define RIG_MODEL_AR3000A RIG_MAKE_MODEL(RIG_AOR, 6)\r
+#define RIG_MODEL_AR3000 RIG_MAKE_MODEL(RIG_AOR, 7)\r
+#define RIG_MODEL_AR2700 RIG_MAKE_MODEL(RIG_AOR, 8)\r
+#define RIG_MODEL_AR2500 RIG_MAKE_MODEL(RIG_AOR, 9)\r
+#define RIG_MODEL_AR16 RIG_MAKE_MODEL(RIG_AOR, 10)\r
+#define RIG_MODEL_SDU5500 RIG_MAKE_MODEL(RIG_AOR, 11)\r
+#define RIG_MODEL_SDU5000 RIG_MAKE_MODEL(RIG_AOR, 12)\r
+#define RIG_MODEL_AR8600 RIG_MAKE_MODEL(RIG_AOR, 13)\r
+#define RIG_MODEL_AR5000A RIG_MAKE_MODEL(RIG_AOR, 14)\r
+#define RIG_MODEL_AR7030P RIG_MAKE_MODEL(RIG_AOR, 15)\r
+#define RIG_MODEL_SR2200 RIG_MAKE_MODEL(RIG_AOR, 16)\r
+\r
+ /*\r
+ * JRC\r
+ */\r
+#define RIG_JRC 6\r
+#define RIG_BACKEND_JRC "jrc"\r
+#define RIG_MODEL_JST145 RIG_MAKE_MODEL(RIG_JRC, 1)\r
+#define RIG_MODEL_JST245 RIG_MAKE_MODEL(RIG_JRC, 2)\r
+#define RIG_MODEL_CMH530 RIG_MAKE_MODEL(RIG_JRC, 3)\r
+#define RIG_MODEL_NRD345 RIG_MAKE_MODEL(RIG_JRC, 4)\r
+#define RIG_MODEL_NRD525 RIG_MAKE_MODEL(RIG_JRC, 5)\r
+#define RIG_MODEL_NRD535 RIG_MAKE_MODEL(RIG_JRC, 6)\r
+#define RIG_MODEL_NRD545 RIG_MAKE_MODEL(RIG_JRC, 7)\r
+\r
+ /*\r
+ * Radio Shack\r
+ * Actualy, they might be either Icom or Uniden. TBC --SF\r
+ */\r
+#define RIG_RADIOSHACK 7\r
+#define RIG_BACKEND_RADIOSHACK "radioshack"\r
+#define RIG_MODEL_RS64 RIG_MAKE_MODEL(RIG_RADIOSHACK, 1) /* PRO-64 */\r
+#define RIG_MODEL_RS2005 RIG_MAKE_MODEL(RIG_RADIOSHACK, 2) /* w/ OptoElectronics OS456 Board */\r
+#define RIG_MODEL_RS2006 RIG_MAKE_MODEL(RIG_RADIOSHACK, 3) /* w/ OptoElectronics OS456 Board */\r
+#define RIG_MODEL_RS2035 RIG_MAKE_MODEL(RIG_RADIOSHACK, 4) /* w/ OptoElectronics OS435 Board */\r
+#define RIG_MODEL_RS2042 RIG_MAKE_MODEL(RIG_RADIOSHACK, 5) /* w/ OptoElectronics OS435 Board */\r
+#define RIG_MODEL_RS2041 RIG_MAKE_MODEL(RIG_RADIOSHACK, 6) /* PRO-2041 */\r
+\r
+ /*\r
+ * Uniden\r
+ */\r
+#define RIG_UNIDEN 8\r
+#define RIG_BACKEND_UNIDEN "uniden"\r
+#define RIG_MODEL_BC780 RIG_MAKE_MODEL(RIG_UNIDEN, 1) /* Uniden BC780 - Trunk Tracker "Desktop Radio" */\r
+#define RIG_MODEL_BC245 RIG_MAKE_MODEL(RIG_UNIDEN, 2)\r
+#define RIG_MODEL_BC895 RIG_MAKE_MODEL(RIG_UNIDEN, 3)\r
+#define RIG_MODEL_PRO2052 RIG_MAKE_MODEL(RIG_UNIDEN, 4) /* Radio Shack PRO-2052 */\r
+#define RIG_MODEL_BC235 RIG_MAKE_MODEL(RIG_UNIDEN, 5)\r
+#define RIG_MODEL_BC250 RIG_MAKE_MODEL(RIG_UNIDEN, 6)\r
+#define RIG_MODEL_BC785 RIG_MAKE_MODEL(RIG_UNIDEN, 7)\r
+#define RIG_MODEL_BC786 RIG_MAKE_MODEL(RIG_UNIDEN, 8)\r
+#define RIG_MODEL_BCT8 RIG_MAKE_MODEL(RIG_UNIDEN, 9)\r
+#define RIG_MODEL_BCD396T RIG_MAKE_MODEL(RIG_UNIDEN, 10)\r
+#define RIG_MODEL_BCD996T RIG_MAKE_MODEL(RIG_UNIDEN, 11)\r
+#define RIG_MODEL_BC898 RIG_MAKE_MODEL(RIG_UNIDEN, 12)\r
+\r
+ /*\r
+ * Drake\r
+ */\r
+#define RIG_DRAKE 9\r
+#define RIG_BACKEND_DRAKE "drake"\r
+#define RIG_MODEL_DKR8 RIG_MAKE_MODEL(RIG_DRAKE, 1)\r
+#define RIG_MODEL_DKR8A RIG_MAKE_MODEL(RIG_DRAKE, 2)\r
+#define RIG_MODEL_DKR8B RIG_MAKE_MODEL(RIG_DRAKE, 3)\r
+\r
+ /*\r
+ * Lowe\r
+ */\r
+#define RIG_LOWE 10\r
+#define RIG_BACKEND_LOWE "lowe"\r
+#define RIG_MODEL_HF150 RIG_MAKE_MODEL(RIG_LOWE, 1)\r
+#define RIG_MODEL_HF225 RIG_MAKE_MODEL(RIG_LOWE, 2)\r
+#define RIG_MODEL_HF250 RIG_MAKE_MODEL(RIG_LOWE, 3)\r
+#define RIG_MODEL_HF235 RIG_MAKE_MODEL(RIG_LOWE, 4)\r
+\r
+ /*\r
+ * Racal\r
+ */\r
+#define RIG_RACAL 11\r
+#define RIG_BACKEND_RACAL "racal"\r
+#define RIG_MODEL_RA3790 RIG_MAKE_MODEL(RIG_RACAL, 1)\r
+#define RIG_MODEL_RA3720 RIG_MAKE_MODEL(RIG_RACAL, 2)\r
+#define RIG_MODEL_RA6790 RIG_MAKE_MODEL(RIG_RACAL, 3)\r
+#define RIG_MODEL_RA3710 RIG_MAKE_MODEL(RIG_RACAL, 4)\r
+#define RIG_MODEL_RA3702 RIG_MAKE_MODEL(RIG_RACAL, 5)\r
+\r
+ /*\r
+ * Watkins-Johnson\r
+ */\r
+#define RIG_WJ 12\r
+#define RIG_BACKEND_WJ "wj"\r
+#define RIG_MODEL_HF1000 RIG_MAKE_MODEL(RIG_WJ, 1)\r
+#define RIG_MODEL_HF1000A RIG_MAKE_MODEL(RIG_WJ, 2)\r
+#define RIG_MODEL_WJ8711 RIG_MAKE_MODEL(RIG_WJ, 3)\r
+#define RIG_MODEL_WJ8888 RIG_MAKE_MODEL(RIG_WJ, 4)\r
+\r
+ /*\r
+ * Rohde & Schwarz\r
+ */\r
+#define RIG_EK 13\r
+#define RIG_BACKEND_EK "ek"\r
+#define RIG_MODEL_ESM500 RIG_MAKE_MODEL(RIG_EK, 1)\r
+#define RIG_MODEL_EK890 RIG_MAKE_MODEL(RIG_EK, 2)\r
+#define RIG_MODEL_EK891 RIG_MAKE_MODEL(RIG_EK, 3)\r
+#define RIG_MODEL_EK895 RIG_MAKE_MODEL(RIG_EK, 4)\r
+#define RIG_MODEL_EK070 RIG_MAKE_MODEL(RIG_EK, 5)\r
+\r
+ /*\r
+ * Skanti\r
+ */\r
+#define RIG_SKANTI 14\r
+#define RIG_BACKEND_SKANTI "skanti"\r
+#define RIG_MODEL_TRP7000 RIG_MAKE_MODEL(RIG_SKANTI, 1)\r
+#define RIG_MODEL_TRP8000 RIG_MAKE_MODEL(RIG_SKANTI, 2)\r
+#define RIG_MODEL_TRP9000 RIG_MAKE_MODEL(RIG_SKANTI, 3)\r
+#define RIG_MODEL_TRP8255 RIG_MAKE_MODEL(RIG_SKANTI, 4)\r
+\r
+ /*\r
+ * WiNRADiO/LinRADiO\r
+ */\r
+#define RIG_WINRADIO 15\r
+#define RIG_BACKEND_WINRADIO "winradio"\r
+#define RIG_MODEL_WR1000 RIG_MAKE_MODEL(RIG_WINRADIO, 1)\r
+#define RIG_MODEL_WR1500 RIG_MAKE_MODEL(RIG_WINRADIO, 2)\r
+#define RIG_MODEL_WR1550 RIG_MAKE_MODEL(RIG_WINRADIO, 3)\r
+#define RIG_MODEL_WR3100 RIG_MAKE_MODEL(RIG_WINRADIO, 4)\r
+#define RIG_MODEL_WR3150 RIG_MAKE_MODEL(RIG_WINRADIO, 5)\r
+#define RIG_MODEL_WR3500 RIG_MAKE_MODEL(RIG_WINRADIO, 6)\r
+#define RIG_MODEL_WR3700 RIG_MAKE_MODEL(RIG_WINRADIO, 7)\r
+#define RIG_MODEL_G303 RIG_MAKE_MODEL(RIG_WINRADIO, 8)\r
+#define RIG_MODEL_G313 RIG_MAKE_MODEL(RIG_WINRADIO, 9)\r
+#define RIG_MODEL_G305 RIG_MAKE_MODEL(RIG_WINRADIO, 10)\r
+#define RIG_MODEL_G315 RIG_MAKE_MODEL(RIG_WINRADIO, 11)\r
+\r
+ /*\r
+ * Ten Tec\r
+ */\r
+#define RIG_TENTEC 16\r
+#define RIG_BACKEND_TENTEC "tentec"\r
+#define RIG_MODEL_TT550 RIG_MAKE_MODEL(RIG_TENTEC, 1) /* Pegasus */\r
+#define RIG_MODEL_TT538 RIG_MAKE_MODEL(RIG_TENTEC, 2) /* Jupiter */\r
+#define RIG_MODEL_RX320 RIG_MAKE_MODEL(RIG_TENTEC, 3)\r
+#define RIG_MODEL_RX340 RIG_MAKE_MODEL(RIG_TENTEC, 4)\r
+#define RIG_MODEL_RX350 RIG_MAKE_MODEL(RIG_TENTEC, 5)\r
+#define RIG_MODEL_TT526 RIG_MAKE_MODEL(RIG_TENTEC, 6) /* 6N2 */\r
+#define RIG_MODEL_TT516 RIG_MAKE_MODEL(RIG_TENTEC, 7) /* Argonaut V */\r
+#define RIG_MODEL_TT565 RIG_MAKE_MODEL(RIG_TENTEC, 8) /* Orion */\r
+#define RIG_MODEL_TT585 RIG_MAKE_MODEL(RIG_TENTEC, 9) /* Paragon */\r
+#define RIG_MODEL_TT588 RIG_MAKE_MODEL(RIG_TENTEC, 11) /* Omni-VII */\r
+#define RIG_MODEL_RX331 RIG_MAKE_MODEL(RIG_TENTEC, 12)\r
+#define RIG_MODEL_TT599 RIG_MAKE_MODEL(RIG_TENTEC, 13) /* Eagle */\r
+\r
+ /*\r
+ * Alinco\r
+ */\r
+#define RIG_ALINCO 17\r
+#define RIG_BACKEND_ALINCO "alinco"\r
+#define RIG_MODEL_DX77 RIG_MAKE_MODEL(RIG_ALINCO, 1)\r
+\r
+ /*\r
+ * Kachina\r
+ */\r
+#define RIG_KACHINA 18\r
+#define RIG_BACKEND_KACHINA "kachina"\r
+#define RIG_MODEL_505DSP RIG_MAKE_MODEL(RIG_KACHINA, 1)\r
+\r
+\r
+ /*\r
+ * Gnuradio backend\r
+ */\r
+#define RIG_GNURADIO 20\r
+#define RIG_BACKEND_GNURADIO "gnuradio"\r
+#define RIG_MODEL_GNURADIO RIG_MAKE_MODEL(RIG_GNURADIO, 1) /* dev model, Chirp source */\r
+#define RIG_MODEL_MC4020 RIG_MAKE_MODEL(RIG_GNURADIO, 2) /* MC4020 */\r
+#define RIG_MODEL_GRAUDIO RIG_MAKE_MODEL(RIG_GNURADIO, 3) /* Sound card source */\r
+#define RIG_MODEL_GRAUDIOIQ RIG_MAKE_MODEL(RIG_GNURADIO, 4) /* I&Q stereo sound card source */\r
+#define RIG_MODEL_USRP_G RIG_MAKE_MODEL(RIG_GNURADIO, 5) /* Universal Software Radio Peripheral */\r
+\r
+ /*\r
+ * Microtune tuners\r
+ */\r
+#define RIG_MICROTUNE 21\r
+#define RIG_BACKEND_MICROTUNE "microtune"\r
+#define RIG_MODEL_MICROTUNE_4937 RIG_MAKE_MODEL(RIG_MICROTUNE, 1) /* eval board */\r
+#define RIG_MODEL_MICROTUNE_4702 RIG_MAKE_MODEL(RIG_MICROTUNE, 2) /* Alan's */\r
+#define RIG_MODEL_MICROTUNE_4707 RIG_MAKE_MODEL(RIG_MICROTUNE, 3)\r
+\r
+ /*\r
+ * TAPR\r
+ */\r
+#define RIG_TAPR 22\r
+#define RIG_BACKEND_TAPR "tapr"\r
+#define RIG_MODEL_DSP10 RIG_MAKE_MODEL(RIG_TAPR, 1)\r
+\r
+ /*\r
+ * Flex-radio\r
+ */\r
+#define RIG_FLEXRADIO 23\r
+#define RIG_BACKEND_FLEXRADIO "flexradio"\r
+#define RIG_MODEL_SDR1000 RIG_MAKE_MODEL(RIG_FLEXRADIO, 1)\r
+#define RIG_MODEL_SDR1000RFE RIG_MAKE_MODEL(RIG_FLEXRADIO, 2)\r
+#define RIG_MODEL_DTTSP RIG_MAKE_MODEL(RIG_FLEXRADIO, 3)\r
+#define RIG_MODEL_DTTSP_UDP RIG_MAKE_MODEL(RIG_FLEXRADIO, 4)\r
+\r
+\r
+ /*\r
+ * VEB Funkwerk Köpenick RFT\r
+ */\r
+#define RIG_RFT 24\r
+#define RIG_BACKEND_RFT "rft"\r
+#define RIG_MODEL_EKD500 RIG_MAKE_MODEL(RIG_RFT, 1)\r
+\r
+ /*\r
+ * Various kits\r
+ */\r
+#define RIG_KIT 25\r
+#define RIG_BACKEND_KIT "kit"\r
+#define RIG_MODEL_ELEKTOR304 RIG_MAKE_MODEL(RIG_KIT, 1)\r
+#define RIG_MODEL_DRT1 RIG_MAKE_MODEL(RIG_KIT, 2)\r
+#define RIG_MODEL_DWT RIG_MAKE_MODEL(RIG_KIT, 3)\r
+#define RIG_MODEL_USRP0 RIG_MAKE_MODEL(RIG_KIT, 4) /* prototype */\r
+#define RIG_MODEL_USRP RIG_MAKE_MODEL(RIG_KIT, 5)\r
+#define RIG_MODEL_DDS60 RIG_MAKE_MODEL(RIG_KIT, 6)\r
+#define RIG_MODEL_ELEKTOR507 RIG_MAKE_MODEL(RIG_KIT, 7) /* Elektor SDR USB */\r
+#define RIG_MODEL_MINIVNA RIG_MAKE_MODEL(RIG_KIT, 8)\r
+#define RIG_MODEL_SI570AVRUSB RIG_MAKE_MODEL(RIG_KIT, 9) /* SoftRock Si570 AVR */\r
+#define RIG_MODEL_PMSDR RIG_MAKE_MODEL(RIG_KIT, 10)\r
+#define RIG_MODEL_SI570PICUSB RIG_MAKE_MODEL(RIG_KIT, 11) /* SoftRock Si570 PIC */\r
+#define RIG_MODEL_FIFISDR RIG_MAKE_MODEL(RIG_KIT, 12) /* FiFi-SDR USB */\r
+#define RIG_MODEL_FUNCUBEDONGLE RIG_MAKE_MODEL(RIG_KIT, 13) /* FunCUBE Dongle */\r
+#define RIG_MODEL_HIQSDR RIG_MAKE_MODEL(RIG_KIT, 14) /* HiQSDR */\r
+\r
+ /*\r
+ * SW/FM/TV tuner cards supported by Video4Linux,*BSD, ..\r
+ */\r
+#define RIG_TUNER 26\r
+#define RIG_BACKEND_TUNER "tuner"\r
+#define RIG_MODEL_V4L RIG_MAKE_MODEL(RIG_TUNER, 1)\r
+#define RIG_MODEL_V4L2 RIG_MAKE_MODEL(RIG_TUNER, 2)\r
+\r
+ /*\r
+ * Rohde&Schwarz\r
+ */\r
+#define RIG_RS 27\r
+#define RIG_BACKEND_RS "rs"\r
+#define RIG_MODEL_ESMC RIG_MAKE_MODEL(RIG_RS, 1)\r
+#define RIG_MODEL_EB200 RIG_MAKE_MODEL(RIG_RS, 2)\r
+\r
+ /*\r
+ * Phillips/Simoco PRM80\r
+ */\r
+#define RIG_PRM80 28\r
+#define RIG_BACKEND_PRM80 "prm80"\r
+#define RIG_MODEL_PRM8060 RIG_MAKE_MODEL(RIG_PRM80, 1)\r
+#define RIG_MODEL_PRM8070 RIG_MAKE_MODEL(RIG_PRM80, 2)\r
+\r
+ /*\r
+ * ADAT by HB9CBU\r
+ *\r
+ * ADDED: frgo (DG1SBG), 2012-01-01\r
+ */\r
+#define RIG_ADAT 29\r
+#define RIG_BACKEND_ADAT "adat"\r
+#define RIG_MODEL_ADT_200A RIG_MAKE_MODEL(RIG_ADAT, 1)\r
+\r
+ /*\r
+ * TODO:\r
+ RIG_MODEL_KWZ30, KNEISNER +DOERING\r
+ RIG_MODEL_E1800, DASA-Telefunken\r
+ etc.\r
+ */\r
+\r
+/*! \typedef typedef int rig_model_t\r
+ \brief Convenience type definition for rig model.\r
+*/\r
+typedef int rig_model_t;\r
+\r
+\r
+/*! \def RIG_BACKEND_LIST\r
+ * \brief Static list of rig models.\r
+ *\r
+ * This is a NULL terminated list of available rig backends. Each entry\r
+ * in the list consists of two fields: The branch number, which is an integer,\r
+ * and the branch name, which is a character string.\r
+ */\r
+#define RIG_BACKEND_LIST { \\r
+ { RIG_DUMMY, RIG_BACKEND_DUMMY }, \\r
+ { RIG_YAESU, RIG_BACKEND_YAESU }, \\r
+ { RIG_KENWOOD, RIG_BACKEND_KENWOOD }, \\r
+ { RIG_ICOM, RIG_BACKEND_ICOM }, \\r
+ { RIG_PCR, RIG_BACKEND_PCR }, \\r
+ { RIG_AOR, RIG_BACKEND_AOR }, \\r
+ { RIG_JRC, RIG_BACKEND_JRC }, \\r
+ { RIG_UNIDEN, RIG_BACKEND_UNIDEN }, \\r
+ { RIG_DRAKE, RIG_BACKEND_DRAKE }, \\r
+ { RIG_LOWE, RIG_BACKEND_LOWE }, \\r
+ { RIG_RACAL, RIG_BACKEND_RACAL }, \\r
+ { RIG_WJ, RIG_BACKEND_WJ }, \\r
+ { RIG_SKANTI, RIG_BACKEND_SKANTI }, \\r
+ { RIG_WINRADIO, RIG_BACKEND_WINRADIO }, \\r
+ { RIG_TENTEC, RIG_BACKEND_TENTEC }, \\r
+ { RIG_ALINCO, RIG_BACKEND_ALINCO }, \\r
+ { RIG_KACHINA, RIG_BACKEND_KACHINA }, \\r
+ /* { RIG_RPC, RIG_BACKEND_RPC }, */ \\r
+ { RIG_TAPR, RIG_BACKEND_TAPR }, \\r
+ { RIG_FLEXRADIO, RIG_BACKEND_FLEXRADIO }, \\r
+ { RIG_RFT, RIG_BACKEND_RFT }, \\r
+ { RIG_KIT, RIG_BACKEND_KIT }, \\r
+ { RIG_TUNER, RIG_BACKEND_TUNER }, \\r
+ { RIG_RS, RIG_BACKEND_RS }, \\r
+ { RIG_PRM80, RIG_BACKEND_PRM80 }, \\r
+ { RIG_ADAT, RIG_BACKEND_ADAT }, \\r
+ { 0, NULL }, /* end */ \\r
+}\r
+\r
+/*\r
+ * struct rig_backend_list {\r
+ * rig_model_t model;\r
+ * const char *backend;\r
+ * } rig_backend_list[] = RIG_LIST;\r
+ *\r
+ * TODO:\r
+ *\r
+ { RIG_RADIOSHACK, RIG_BACKEND_RADIOSHACK }, \\r
+ */\r
+\r
+#endif /* _RIGLIST_H */\r
--- /dev/null
+/*\r
+ * Hamlib Interface - Rotator API header\r
+ * Copyright (c) 2000-2005 by Stephane Fillod\r
+ *\r
+ *\r
+ * This library is free software; you can redistribute it and/or\r
+ * modify it under the terms of the GNU Lesser General Public\r
+ * License as published by the Free Software Foundation; either\r
+ * version 2.1 of the License, or (at your option) any later version.\r
+ *\r
+ * This library is distributed in the hope that it will be useful,\r
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of\r
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU\r
+ * Lesser General Public License for more details.\r
+ *\r
+ * You should have received a copy of the GNU Lesser General Public\r
+ * License along with this library; if not, write to the Free Software\r
+ * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA\r
+ *\r
+ */\r
+\r
+#ifndef _ROTATOR_H\r
+#define _ROTATOR_H 1\r
+\r
+#include <hamlib/rig.h>\r
+#include <hamlib/rotlist.h>\r
+\r
+/**\r
+ * \addtogroup rotator\r
+ * @{\r
+ */\r
+\r
+/*! \file rotator.h\r
+ * \brief Hamlib rotator data structures.\r
+ *\r
+ * This file contains the data structures and definitions for the Hamlib rotator API.\r
+ * see the rotator.c file for more details on the rotator API.\r
+ */\r
+\r
+\r
+\r
+__BEGIN_DECLS\r
+\r
+/* Forward struct references */\r
+\r
+struct rot;\r
+struct rot_state;\r
+\r
+/*! \typedef typedef struct rot ROT\r
+ * \brief Rotator structure definition (see rot for details).\r
+ */\r
+typedef struct rot ROT;\r
+\r
+\r
+/*! \typedef typedef float elevation_t\r
+ * \brief Type definition for elevation.\r
+ *\r
+ * The elevation_t type is used as parameter for the\r
+ * rot_set_position() and rot_get_position() functions.\r
+ *\r
+ * Unless specified otherwise, the unit of elevation_t is decimal degrees.\r
+ */\r
+/*! \typedef typedef float azimuth_t\r
+ * \brief Type definition for azimuth.\r
+ *\r
+ * The azimuth_t type is used as parameter for the\r
+ * rot_set_position() and rot_get_position() functions.\r
+ *\r
+ * Unless specified otherwise, the unit of azimuth_t is decimal degrees.\r
+ */\r
+typedef float elevation_t;\r
+typedef float azimuth_t;\r
+\r
+/** \brief Token in the netrotctl protocol for returning error code */\r
+#define NETROTCTL_RET "RPRT "\r
+\r
+/*! \def ROT_RESET_ALL\r
+ * \brief A macro that returns the flag for the \b reset operation.\r
+ * \sa rot_reset(), rot_reset_t\r
+ */\r
+#define ROT_RESET_ALL 1\r
+\r
+/*! \typedef typedef int rot_reset_t\r
+ * \brief Type definition for rotator reset.\r
+ *\r
+ * The rot_reset_t type is used as parameter for\r
+ * the rot_reset() API function.\r
+ */\r
+typedef int rot_reset_t;\r
+\r
+\r
+/** \brief Rotator type flags */\r
+typedef enum {\r
+ ROT_FLAG_AZIMUTH = (1<<1), /*!< Azimuth */\r
+ ROT_FLAG_ELEVATION = (1<<2) /*!< Elevation */\r
+} rot_type_t;\r
+\r
+#define ROT_TYPE_MASK (ROT_FLAG_AZIMUTH|ROT_FLAG_ELEVATION)\r
+\r
+#define ROT_TYPE_OTHER 0\r
+#define ROT_TYPE_AZIMUTH ROT_FLAG_AZIMUTH\r
+#define ROT_TYPE_ELEVATION ROT_FLAG_ELEVATION\r
+#define ROT_TYPE_AZEL (ROT_FLAG_AZIMUTH|ROT_FLAG_ELEVATION)\r
+\r
+\r
+/*! \def ROT_MOVE_UP\r
+ * \brief A macro that returns the flag for the \b UP direction.\r
+ *\r
+ * This macro defines the value of the \b UP direction which can be\r
+ * used with the rot_move() function.\r
+ *\r
+ * \sa rot_move(), ROT_MOVE_DOWN, ROT_MOVE_LEFT, ROT_MOVE_CCW, ROT_MOVE_RIGHT, ROT_MOVE_CW\r
+ */\r
+/*! \def ROT_MOVE_DOWN\r
+ * \brief A macro that returns the flag for the \b DOWN direction.\r
+ *\r
+ * This macro defines the value of the \b DOWN direction which can be\r
+ * used with the rot_move() function.\r
+ *\r
+ * \sa rot_move(), ROT_MOVE_UP, ROT_MOVE_LEFT, ROT_MOVE_CCW, ROT_MOVE_RIGHT, ROT_MOVE_CW\r
+*/\r
+/*! \def ROT_MOVE_LEFT\r
+ * \brief A macro that returns the flag for the \b LEFT direction.\r
+ *\r
+ * This macro defines the value of the \b LEFT direction which can be\r
+ * used with the rot_move function.\r
+ *\r
+ * \sa rot_move(), ROT_MOVE_UP, ROT_MOVE_DOWN, ROT_MOVE_CCW, ROT_MOVE_RIGHT, ROT_MOVE_CW\r
+ */\r
+/*! \def ROT_MOVE_CCW\r
+ * \brief A macro that returns the flag for the \b counterclockwise direction.\r
+ *\r
+ * This macro defines the value of the \b counterclockwise direction which\r
+ * can be used with the rot_move() function. This value is equivalent to\r
+ * ROT_MOVE_LEFT .\r
+ *\r
+ * \sa rot_move(), ROT_MOVE_UP, ROT_MOVE_DOWN, ROT_MOVE_LEFT, ROT_MOVE_RIGHT, ROT_MOVE_CW\r
+ */\r
+/*! \def ROT_MOVE_RIGHT\r
+ * \brief A macro that returns the flag for the \b RIGHT direction.\r
+ *\r
+ * This macro defines the value of the \b RIGHT direction which can be used\r
+ * with the rot_move() function.\r
+ *\r
+ * \sa rot_move(), ROT_MOVE_UP, ROT_MOVE_DOWN, ROT_MOVE_LEFT, ROT_MOVE_CCW, ROT_MOVE_CW\r
+ */\r
+/*! \def ROT_MOVE_CW\r
+ * \brief A macro that returns the flag for the \b clockwise direction.\r
+ *\r
+ * This macro defines the value of the \b clockwise direction wich can be\r
+ * used with the rot_move() function. This value is equivalent to\r
+ * ROT_MOVE_RIGHT .\r
+ *\r
+ * \sa rot_move(), ROT_MOVE_UP, ROT_MOVE_DOWN, ROT_MOVE_LEFT, ROT_MOVE_CCW, ROT_MOVE_RIGHT\r
+ */\r
+#define ROT_MOVE_UP (1<<1)\r
+#define ROT_MOVE_DOWN (1<<2)\r
+#define ROT_MOVE_LEFT (1<<3)\r
+#define ROT_MOVE_CCW ROT_MOVE_LEFT\r
+#define ROT_MOVE_RIGHT (1<<4)\r
+#define ROT_MOVE_CW ROT_MOVE_RIGHT\r
+\r
+/* Basic rot type, can store some useful\r
+ * info about different rotators. Each lib must\r
+ * be able to populate this structure, so we can make\r
+ * useful enquiries about capablilities.\r
+ */\r
+\r
+/*!\r
+ * Rotator Caps\r
+ * \struct rot_caps\r
+ * \brief Rotator data structure.\r
+ *\r
+ * The main idea of this struct is that it will be defined by the backend\r
+ * rotator driver, and will remain readonly for the application.\r
+ * Fields that need to be modifiable by the application are\r
+ * copied into the struct rot_state, which is a kind of private\r
+ * of the ROT instance.\r
+ * This way, you can have several rigs running within the same application,\r
+ * sharing the struct rot_caps of the backend, while keeping their own\r
+ * customized data.\r
+ * NB: don't move fields around, as backend depends on it when initializing\r
+ * their caps.\r
+ */\r
+struct rot_caps {\r
+ rot_model_t rot_model; /*!< Rotator model. */\r
+ const char *model_name; /*!< Model name. */\r
+ const char *mfg_name; /*!< Manufacturer. */\r
+ const char *version; /*!< Driver version. */\r
+ const char *copyright; /*!< Copyright info. */\r
+ enum rig_status_e status; /*!< Driver status. */\r
+\r
+ int rot_type; /*!< Rotator type. */\r
+ enum rig_port_e port_type; /*!< Type of communication port. */\r
+\r
+ int serial_rate_min; /*!< Minimal serial speed. */\r
+ int serial_rate_max; /*!< Maximal serial speed. */\r
+ int serial_data_bits; /*!< Number of data bits. */\r
+ int serial_stop_bits; /*!< Number of stop bits. */\r
+ enum serial_parity_e serial_parity; /*!< Parity. */\r
+ enum serial_handshake_e serial_handshake; /*!< Handshake. */\r
+\r
+ int write_delay; /*!< Write delay. */\r
+ int post_write_delay; /*!< Post-write delay. */\r
+ int timeout; /*!< Timeout. */\r
+ int retry; /*!< Number of retry if command fails. */\r
+\r
+ /*\r
+ * Movement range, az is relative to North\r
+ * negative values allowed for overlap\r
+ */\r
+ azimuth_t min_az; /*!< Lower limit for azimuth (relative to North). */\r
+ azimuth_t max_az; /*!< Upper limit for azimuth (relative to North). */\r
+ elevation_t min_el; /*!< Lower limit for elevation. */\r
+ elevation_t max_el; /*!< Upper limit for elevation. */\r
+\r
+\r
+ const struct confparams *cfgparams; /*!< Configuration parametres. */\r
+ const rig_ptr_t priv; /*!< Private data. */\r
+\r
+ /*\r
+ * Rot Admin API\r
+ *\r
+ */\r
+\r
+ int (*rot_init)(ROT *rot);\r
+ int (*rot_cleanup)(ROT *rot);\r
+ int (*rot_open)(ROT *rot);\r
+ int (*rot_close)(ROT *rot);\r
+\r
+ int (*set_conf)(ROT *rot, token_t token, const char *val);\r
+ int (*get_conf)(ROT *rot, token_t token, char *val);\r
+\r
+ /*\r
+ * General API commands, from most primitive to least.. :()\r
+ * List Set/Get functions pairs\r
+ */\r
+\r
+ int (*set_position)(ROT *rot, azimuth_t azimuth, elevation_t elevation);\r
+ int (*get_position)(ROT *rot, azimuth_t *azimuth, elevation_t *elevation);\r
+\r
+ int (*stop)(ROT *rot);\r
+ int (*park)(ROT *rot);\r
+ int (*reset)(ROT *rot, rot_reset_t reset);\r
+ int (*move)(ROT *rot, int direction, int speed);\r
+\r
+ /* get firmware info, etc. */\r
+ const char* (*get_info)(ROT *rot);\r
+\r
+ /* more to come... */\r
+};\r
+\r
+\r
+/*!\r
+ * Rotator state\r
+ * \struct rot_state\r
+ * \brief Live data and customized fields.\r
+ *\r
+ * This struct contains live data, as well as a copy of capability fields\r
+ * that may be updated (ie. customized)\r
+ *\r
+ * It is fine to move fields around, as this kind of struct should\r
+ * not be initialized like caps are.\r
+ */\r
+struct rot_state {\r
+ /*\r
+ * overridable fields\r
+ */\r
+ azimuth_t min_az; /*!< Lower limit for azimuth (overridable). */\r
+ azimuth_t max_az; /*!< Upper limit for azimuth (overridable). */\r
+ elevation_t min_el; /*!< Lower limit for elevation (overridable). */\r
+ elevation_t max_el; /*!< Upper limit for elevation (overridable). */\r
+\r
+ /*\r
+ * non overridable fields, internal use\r
+ */\r
+ hamlib_port_t rotport; /*!< Rotator port (internal use). */\r
+\r
+ int comm_state; /*!< Comm port state, opened/closed. */\r
+ rig_ptr_t priv; /*!< Pointer to private rotator state data. */\r
+ rig_ptr_t obj; /*!< Internal use by hamlib++ for event handling. */\r
+\r
+ /* etc... */\r
+};\r
+\r
+/**\r
+ * Rotator structure\r
+ * \struct rot\r
+ * \brief This is the master data structure,\r
+ * acting as a handle for the controlled rotator.\r
+ *\r
+ * This is the master data structure, acting as a handle for the controlled\r
+ * rotator. A pointer to this structure is returned by the rot_init() API\r
+ * function and is passed as a parameter to every rotator specific API call.\r
+ *\r
+ * \sa rot_init(), rot_caps, rot_state\r
+ */\r
+struct rot {\r
+ struct rot_caps *caps; /*!< Rotator caps. */\r
+ struct rot_state state; /*!< Rotator state. */\r
+};\r
+\r
+/* --------------- API function prototypes -----------------*/\r
+\r
+extern HAMLIB_EXPORT(ROT *) rot_init HAMLIB_PARAMS((rot_model_t rot_model));\r
+extern HAMLIB_EXPORT(int) rot_open HAMLIB_PARAMS((ROT *rot));\r
+extern HAMLIB_EXPORT(int) rot_close HAMLIB_PARAMS((ROT *rot));\r
+extern HAMLIB_EXPORT(int) rot_cleanup HAMLIB_PARAMS((ROT *rot));\r
+\r
+extern HAMLIB_EXPORT(int) rot_set_conf HAMLIB_PARAMS((ROT *rot, token_t token, const char *val));\r
+extern HAMLIB_EXPORT(int) rot_get_conf HAMLIB_PARAMS((ROT *rot, token_t token, char *val));\r
+ /*\r
+ * General API commands, from most primitive to least.. )\r
+ * List Set/Get functions pairs\r
+ */\r
+extern HAMLIB_EXPORT(int) rot_set_position HAMLIB_PARAMS((ROT *rot, azimuth_t azimuth, elevation_t elevation));\r
+extern HAMLIB_EXPORT(int) rot_get_position HAMLIB_PARAMS((ROT *rot, azimuth_t *azimuth, elevation_t *elevation));\r
+extern HAMLIB_EXPORT(int) rot_stop HAMLIB_PARAMS((ROT *rot));\r
+extern HAMLIB_EXPORT(int) rot_park HAMLIB_PARAMS((ROT *rot));\r
+extern HAMLIB_EXPORT(int) rot_reset HAMLIB_PARAMS((ROT *rot, rot_reset_t reset));\r
+extern HAMLIB_EXPORT(int) rot_move HAMLIB_PARAMS((ROT *rot, int direction, int speed));\r
+extern HAMLIB_EXPORT(const char*) rot_get_info HAMLIB_PARAMS((ROT *rot));\r
+\r
+extern HAMLIB_EXPORT(int) rot_register HAMLIB_PARAMS((const struct rot_caps *caps));\r
+extern HAMLIB_EXPORT(int) rot_unregister HAMLIB_PARAMS((rot_model_t rot_model));\r
+extern HAMLIB_EXPORT(int) rot_list_foreach HAMLIB_PARAMS((int (*cfunc)(const struct rot_caps*, rig_ptr_t), rig_ptr_t data));\r
+extern HAMLIB_EXPORT(int) rot_load_backend HAMLIB_PARAMS((const char *be_name));\r
+extern HAMLIB_EXPORT(int) rot_check_backend HAMLIB_PARAMS((rot_model_t rot_model));\r
+extern HAMLIB_EXPORT(int) rot_load_all_backends HAMLIB_PARAMS((void));\r
+extern HAMLIB_EXPORT(rot_model_t) rot_probe_all HAMLIB_PARAMS((hamlib_port_t *p));\r
+\r
+extern HAMLIB_EXPORT(int) rot_token_foreach HAMLIB_PARAMS((ROT *rot, int (*cfunc)(const struct confparams *, rig_ptr_t), rig_ptr_t data));\r
+extern HAMLIB_EXPORT(const struct confparams*) rot_confparam_lookup HAMLIB_PARAMS((ROT *rot, const char *name));\r
+extern HAMLIB_EXPORT(token_t) rot_token_lookup HAMLIB_PARAMS((ROT *rot, const char *name));\r
+\r
+extern HAMLIB_EXPORT(const struct rot_caps *) rot_get_caps HAMLIB_PARAMS((rot_model_t rot_model));\r
+\r
+extern HAMLIB_EXPORT(int) qrb HAMLIB_PARAMS((double lon1, double lat1,\r
+ double lon2, double lat2,\r
+ double *distance, double *azimuth));\r
+extern HAMLIB_EXPORT(double) distance_long_path HAMLIB_PARAMS((double distance));\r
+extern HAMLIB_EXPORT(double) azimuth_long_path HAMLIB_PARAMS((double azimuth));\r
+\r
+extern HAMLIB_EXPORT(int) longlat2locator HAMLIB_PARAMS((double longitude,\r
+ double latitude, char *locator_res, int pair_count));\r
+extern HAMLIB_EXPORT(int) locator2longlat HAMLIB_PARAMS((double *longitude,\r
+ double *latitude, const char *locator));\r
+\r
+extern HAMLIB_EXPORT(double) dms2dec HAMLIB_PARAMS((int degrees, int minutes,\r
+ double seconds, int sw));\r
+extern HAMLIB_EXPORT(int) dec2dms HAMLIB_PARAMS((double dec, int *degrees,\r
+ int *minutes, double *seconds, int *sw));\r
+\r
+extern HAMLIB_EXPORT(int) dec2dmmm HAMLIB_PARAMS((double dec, int *degrees,\r
+ double *minutes, int *sw));\r
+extern HAMLIB_EXPORT(double) dmmm2dec HAMLIB_PARAMS((int degrees,\r
+ double minutes, int sw));\r
+\r
+/*! \def rot_debug\r
+ * \brief Convenience definition for debug level.\r
+ *\r
+ * This is just as convenience definition of the rotator debug level,\r
+ * and is the same as for the rig debug level.\r
+ *\r
+ * \sa rig_debug\r
+ */\r
+#define rot_debug rig_debug\r
+\r
+__END_DECLS\r
+\r
+#endif /* _ROTATOR_H */\r
+\r
+/** @} */\r
--- /dev/null
+/*\r
+ * Hamlib Interface - list of known rotators\r
+ * Copyright (c) 2000-2011 by Stephane Fillod\r
+ * Copyright (c) 2000-2002 by Frank Singleton\r
+ *\r
+ *\r
+ * This library is free software; you can redistribute it and/or\r
+ * modify it under the terms of the GNU Lesser General Public\r
+ * License as published by the Free Software Foundation; either\r
+ * version 2.1 of the License, or (at your option) any later version.\r
+ *\r
+ * This library is distributed in the hope that it will be useful,\r
+ * but WITHOUT ANY WARRANTY; without even the implied warranty of\r
+ * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU\r
+ * Lesser General Public License for more details.\r
+ *\r
+ * You should have received a copy of the GNU Lesser General Public\r
+ * License along with this library; if not, write to the Free Software\r
+ * Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301 USA\r
+ *\r
+ */\r
+\r
+#ifndef _ROTLIST_H\r
+#define _ROTLIST_H 1\r
+\r
+#define ROT_MAKE_MODEL(a,b) ((a)*100+(b))\r
+#define ROT_BACKEND_NUM(a) ((a)/100)\r
+\r
+/**\r
+ * \addtogroup rotator\r
+ * @{\r
+ */\r
+\r
+/*! \file rotlist.h\r
+ * \brief Hamlib rotator model definitions.\r
+ *\r
+ * This file contains rotator model definitions for the Hamlib rotator API.\r
+ * Each distinct rotator type has a unique model number (ID) and is used\r
+ * by hamlib to identify and distinguish between the different hardware drivers.\r
+ * The exact model numbers can be acquired using the macros in this\r
+ * file. To obtain a list of supported rotator branches, one can use the statically\r
+ * defined ROT_BACKEND_LIST macro. To obtain a full list of supported rotators (including\r
+ * each model in every branch), the foreach_opened_rot() API function can be used.\r
+ *\r
+ * The model number, or ID, is used to tell hamlib, which rotator the client whishes to\r
+ * use. It is done with the rot_init() API call.\r
+ */\r
+\r
+#define ROT_MODEL_NONE 0\r
+\r
+/*! \def ROT_MODEL_DUMMY\r
+ * \brief A macro that returns the model number for the dummy backend.\r
+ *\r
+ * The dummy backend, as the name suggests, is a backend which performs\r
+ * no hardware operations and always behaves as one would expect. It can\r
+ * be thought of as a hardware simulator and is very usefull for testing\r
+ * client applications.\r
+ */\r
+/*! \def ROT_MODEL_NETROTCTL\r
+ * \brief A macro that returns the model number for the Network backend.\r
+ *\r
+ * This backend allows use of the rotctld daemon through the normal\r
+ * Hamlib API.\r
+ */\r
+#define ROT_DUMMY 0\r
+#define ROT_BACKEND_DUMMY "dummy"\r
+#define ROT_MODEL_DUMMY ROT_MAKE_MODEL(ROT_DUMMY, 1)\r
+#define ROT_MODEL_NETROTCTL ROT_MAKE_MODEL(ROT_DUMMY, 2)\r
+\r
+ /*\r
+ * Easycomm\r
+ */\r
+/*! \def ROT_MODEL_EASYCOMM1\r
+ * \brief A macro that returns the model number of the EasyComm 1 backend.\r
+ *\r
+ * The EasyComm 1 backend can be used with rotators that support the\r
+ * EASYCOMM I Standard.\r
+ */\r
+/*! \def ROT_MODEL_EASYCOMM2\r
+ * \brief A macro that returns the model number of the EasyComm 2 backend.\r
+ *\r
+ * The EasyComm 2 backend can be used with rotators that support the\r
+ * EASYCOMM II Standard.\r
+ */\r
+#define ROT_EASYCOMM 2\r
+#define ROT_BACKEND_EASYCOMM "easycomm"\r
+#define ROT_MODEL_EASYCOMM1 ROT_MAKE_MODEL(ROT_EASYCOMM, 1)\r
+#define ROT_MODEL_EASYCOMM2 ROT_MAKE_MODEL(ROT_EASYCOMM, 2)\r
+#define ROT_MODEL_TRAKBOX ROT_MAKE_MODEL(ROT_EASYCOMM, 3)\r
+\r
+/*! \def ROT_MODEL_FODTRACK\r
+ * \brief A macro that returns the model number of the Fodtrack backend.\r
+ *\r
+ * The Fodtrack backend can be used with rotators that support the\r
+ * FODTRACK Standard.\r
+ */\r
+#define ROT_FODTRACK 3\r
+#define ROT_BACKEND_FODTRACK "fodtrack"\r
+#define ROT_MODEL_FODTRACK ROT_MAKE_MODEL(ROT_FODTRACK, 1)\r
+\r
+/*! \def ROT_MODEL_ROTOREZ\r
+ * \brief A macro that returns the model number of the Rotor-EZ backend.\r
+ *\r
+ * The Rotor-EZ backend can be used with Hy-Gain rotators that support\r
+ * the extended DCU command set by Idiom Press Rotor-EZ board.\r
+ */\r
+/*! \def ROT_MODEL_ROTORCARD\r
+ * \brief A macro that returns the model number of the Rotor Card backend.\r
+ *\r
+ * The Rotor-EZ backend can be used with Yaesu rotators that support the\r
+ * extended DCU command set by Idiom Press Rotor Card board.\r
+ */\r
+/*! \def ROT_MODEL_DCU\r
+ * \brief A macro that returns the model number of the DCU backend.\r
+ *\r
+ * The Rotor-EZ backend can be used with rotators that support the\r
+ * DCU command set by Hy-Gain (currently the DCU-1).\r
+ */\r
+/*! \def ROT_MODEL_ERC\r
+ * \brief A macro that returns the model number of the ERC backend.\r
+ *\r
+ * The Rotor-EZ backend can be used with rotators that support the\r
+ * DCU command set by DF9GR (currently the ERC).\r
+ */\r
+#define ROT_ROTOREZ 4\r
+#define ROT_BACKEND_ROTOREZ "rotorez"\r
+#define ROT_MODEL_ROTOREZ ROT_MAKE_MODEL(ROT_ROTOREZ, 1)\r
+#define ROT_MODEL_ROTORCARD ROT_MAKE_MODEL(ROT_ROTOREZ, 2)\r
+#define ROT_MODEL_DCU ROT_MAKE_MODEL(ROT_ROTOREZ, 3)\r
+#define ROT_MODEL_ERC ROT_MAKE_MODEL(ROT_ROTOREZ, 4)\r
+\r
+/*! \def ROT_MODEL_SARTEK1\r
+ * \brief A macro that returns the model number of the SARtek-1 backend.\r
+ *\r
+ * The sartek backend can be used with rotators that support the\r
+ * SARtek protocol.\r
+ */\r
+#define ROT_SARTEK 5\r
+#define ROT_BACKEND_SARTEK "sartek"\r
+#define ROT_MODEL_SARTEK1 ROT_MAKE_MODEL(ROT_SARTEK, 1)\r
+\r
+/*! \def ROT_MODEL_GS232A\r
+ * \brief A macro that returns the model number of the GS-232A backend.\r
+ *\r
+ * The GS-232A backend can be used with rotators that support the\r
+ * GS-232A protocol.\r
+ */\r
+/*! \def ROT_MODEL_GS232\r
+ * \brief A macro that returns the model number of the GS-232 backend.\r
+ *\r
+ * The GS-232 backend can be used with rotators that support the\r
+ * GS-232 protocol.\r
+ */\r
+/*! \def ROT_MODEL_GS232B\r
+ * \brief A macro that returns the model number of the GS-232B backend.\r
+ *\r
+ * The GS-232B backend can be used with rotators that support the\r
+ * GS-232B protocol.\r
+ */\r
+/*! \def ROT_MODEL_F1TETRACKER\r
+ * \brief A macro that returns the model number of the F1TETRACKER backend.\r
+ *\r
+ * The F1TETRACKER backend can be used with rotators that support the\r
+ * F1TETRACKER protocol.\r
+ */\r
+#define ROT_GS232A 6\r
+#define ROT_BACKEND_GS232A "gs232a"\r
+#define ROT_MODEL_GS232A ROT_MAKE_MODEL(ROT_GS232A, 1)\r
+#define ROT_MODEL_GS232 ROT_MAKE_MODEL(ROT_GS232A, 2) /* Not A or B */\r
+#define ROT_MODEL_GS232B ROT_MAKE_MODEL(ROT_GS232A, 3)\r
+#define ROT_MODEL_F1TETRACKER ROT_MAKE_MODEL(ROT_GS232A, 4)\r
+\r
+/*! \def ROT_MODEL_PCROTOR\r
+ * \brief A macro that returns the model number of the PcRotor/WA6UFQ backend.\r
+ *\r
+ * The kit backend can be used with home brewed rotators.\r
+ */\r
+#define ROT_KIT 7\r
+#define ROT_BACKEND_KIT "kit"\r
+#define ROT_MODEL_PCROTOR ROT_MAKE_MODEL(ROT_KIT, 1)\r
+\r
+/*! \def ROT_MODEL_HD1780\r
+ * \brief A macro that returns the model number of the HD 1780 backend.\r
+ */\r
+#define ROT_HEATHKIT 8\r
+#define ROT_BACKEND_HEATHKIT "heathkit"\r
+#define ROT_MODEL_HD1780 ROT_MAKE_MODEL(ROT_HEATHKIT, 1)\r
+\r
+/*! \def ROT_MODEL_SPID_ROT2PROG\r
+ * \brief A macro that returns the model number of the ROT2PROG backend.\r
+ *\r
+ * The SPID backend can be used with rotators that support the SPID\r
+ * protocol.\r
+ */\r
+/*! \def ROT_MODEL_SPID_ROT1PROG\r
+ * \brief A macro that returns the model number of the ROT1PROG backend.\r
+ *\r
+ * The SPID backend can be used with rotators that support the SPID\r
+ * protocol.\r
+ */\r
+#define ROT_SPID 9\r
+#define ROT_BACKEND_SPID "spid"\r
+#define ROT_MODEL_SPID_ROT2PROG ROT_MAKE_MODEL(ROT_SPID, 1)\r
+#define ROT_MODEL_SPID_ROT1PROG ROT_MAKE_MODEL(ROT_SPID, 2)\r
+\r
+/*! \def ROT_MODEL_RC2800\r
+ * \brief A macro that returns the model number of the RC2800 backend.\r
+ *\r
+ * The M2 backend can be used with rotators that support the RC2800\r
+ * protocol and alike.\r
+ */\r
+#define ROT_M2 10\r
+#define ROT_BACKEND_M2 "m2"\r
+#define ROT_MODEL_RC2800 ROT_MAKE_MODEL(ROT_M2, 1)\r
+\r
+/*! \def ROT_MODEL_RCI_AZEL\r
+ * \brief A macro that returns the model number of the RCI_AZEL backend.\r
+ *\r
+ * The ARS backend can be used with rotators that support the ARS\r
+ * protocol.\r
+ */\r
+/*! \def ROT_MODEL_RCI_AZ\r
+ * \brief A macro that returns the model number of the RCI_AZ backend.\r
+ *\r
+ * The ARS backend can be used with rotators that support the ARS\r
+ * protocol.\r
+ */\r
+#define ROT_ARS 11\r
+#define ROT_BACKEND_ARS "ars"\r
+#define ROT_MODEL_RCI_AZEL ROT_MAKE_MODEL(ROT_ARS, 1)\r
+#define ROT_MODEL_RCI_AZ ROT_MAKE_MODEL(ROT_ARS, 2)\r
+\r
+/*! \def ROT_MODEL_IF100\r
+ * \brief A macro that returns the model number of the IF-100 backend.\r
+ *\r
+ * The AMSAT backend can be used with rotators that support,\r
+ * among other, the IF-100 interface.\r
+ */\r
+#define ROT_AMSAT 12\r
+#define ROT_BACKEND_AMSAT "amsat"\r
+#define ROT_MODEL_IF100 ROT_MAKE_MODEL(ROT_AMSAT, 1)\r
+\r
+\r
+/*! \def ROT_MODEL_TS7400\r
+ * \brief A macro that returns the model number of the TS7400 backend.\r
+ *\r
+ * The TS-7400 backend supports and embedded ARM board using the TS-7400\r
+ * Linux board. More information is at http://www.embeddedarm.com\r
+ */\r
+#define ROT_TS7400 13\r
+#define ROT_BACKEND_TS7400 "ts7400"\r
+#define ROT_MODEL_TS7400 ROT_MAKE_MODEL(ROT_TS7400, 1)\r
+\r
+/*! \def ROT_MODEL_NEXSTAR\r
+ * \brief A macro that returns the model number of the NEXSTAR backend.\r
+ *\r
+ * The CELESTRON backend can be used with rotators that support the Celestron\r
+ * protocol and alike.\r
+ */\r
+#define ROT_CELESTRON 14\r
+#define ROT_BACKEND_CELESTRON "celestron"\r
+#define ROT_MODEL_NEXSTAR ROT_MAKE_MODEL(ROT_CELESTRON, 1)\r
+\r
+\r
+/*! \typedef typedef int rot_model_t\r
+ \brief Convenience type definition for rotator model.\r
+*/\r
+typedef int rot_model_t;\r
+\r
+/*! \def ROT_BACKEND_LIST\r
+ * \brief Static list of rotator models.\r
+ *\r
+ * This is a NULL terminated list of available rotator backends. Each entry\r
+ * in the list consists of two fields: The branch number, which is an integer,\r
+ * and the branch name, which is a character string.\r
+ */\r
+#define ROT_BACKEND_LIST { \\r
+ { ROT_DUMMY, ROT_BACKEND_DUMMY }, \\r
+ /* { ROT_RPC, ROT_BACKEND_RPC }, */ \\r
+ { ROT_EASYCOMM, ROT_BACKEND_EASYCOMM }, \\r
+ { ROT_FODTRACK, ROT_BACKEND_FODTRACK }, \\r
+ { ROT_ROTOREZ, ROT_BACKEND_ROTOREZ }, \\r
+ { ROT_SARTEK, ROT_BACKEND_SARTEK }, \\r
+ { ROT_GS232A, ROT_BACKEND_GS232A }, \\r
+ { ROT_KIT, ROT_BACKEND_KIT }, \\r
+ { ROT_HEATHKIT, ROT_BACKEND_HEATHKIT }, \\r
+ { ROT_SPID, ROT_BACKEND_SPID }, \\r
+ { ROT_M2, ROT_BACKEND_M2 }, \\r
+ { ROT_ARS, ROT_BACKEND_ARS }, \\r
+ { ROT_AMSAT, ROT_BACKEND_AMSAT }, \\r
+ { ROT_TS7400, ROT_BACKEND_TS7400 }, \\r
+ { ROT_CELESTRON, ROT_BACKEND_CELESTRON }, \\r
+ { 0, NULL }, /* end */ \\r
+}\r
+\r
+/*\r
+ * struct rot_backend_list {\r
+ * rot_model_t model;\r
+ * const char *backend;\r
+ * } rot_backend_list[] = ROT_LIST;\r
+ *\r
+ */\r
+\r
+#endif /* _ROTLIST_H */\r
+\r
+/** @} */\r
--- /dev/null
+EXPORTS
+Pa_AbortStream
+Pa_CloseStream
+Pa_GetDefaultHostApi
+Pa_GetDefaultInputDevice
+Pa_GetDefaultOutputDevice
+Pa_GetDeviceCount
+Pa_GetDeviceInfo
+Pa_GetErrorText
+Pa_GetHostApiCount
+Pa_GetHostApiInfo
+Pa_GetLastHostErrorInfo
+Pa_GetSampleSize
+Pa_GetStreamCpuLoad
+Pa_GetStreamInfo
+Pa_GetStreamReadAvailable
+Pa_GetStreamTime
+Pa_GetStreamWriteAvailable
+Pa_GetVersion
+Pa_GetVersionText
+Pa_HostApiDeviceIndexToDeviceIndex
+Pa_HostApiTypeIdToHostApiIndex
+Pa_Initialize
+Pa_IsFormatSupported
+Pa_IsStreamActive
+Pa_IsStreamStopped
+Pa_OpenDefaultStream
+Pa_OpenStream
+Pa_ReadStream
+Pa_SetStreamFinishedCallback
+Pa_Sleep
+Pa_StartStream
+Pa_StopStream
+Pa_Terminate
+Pa_WriteStream
--- /dev/null
+Pa_AbortStream
+Pa_CloseStream
+Pa_GetDefaultHostApi
+Pa_GetDefaultInputDevice
+Pa_GetDefaultOutputDevice
+Pa_GetDeviceCount
+Pa_GetDeviceInfo
+Pa_GetErrorText
+Pa_GetHostApiCount
+Pa_GetHostApiInfo
+Pa_GetLastHostErrorInfo
+Pa_GetSampleSize
+Pa_GetStreamCpuLoad
+Pa_GetStreamInfo
+Pa_GetStreamReadAvailable
+Pa_GetStreamTime
+Pa_GetStreamWriteAvailable
+Pa_GetVersion
+Pa_GetVersionText
+Pa_HostApiDeviceIndexToDeviceIndex
+Pa_HostApiTypeIdToHostApiIndex
+Pa_Initialize
+Pa_IsFormatSupported
+Pa_IsStreamActive
+Pa_IsStreamStopped
+Pa_OpenDefaultStream
+Pa_OpenStream
+Pa_ReadStream
+Pa_SetStreamFinishedCallback
+Pa_Sleep
+Pa_StartStream
+Pa_StopStream
+Pa_Terminate
+Pa_WriteStream
--- /dev/null
+# libportaudio.la - a libtool library file
+# Generated by libtool (GNU libtool) 2.4 Debian-2.4-2ubuntu1
+#
+# Please DO NOT delete this file!
+# It is necessary for linking the library.
+
+# The name that we can dlopen(3).
+dlname='../bin/libportaudio-2.dll'
+
+# Names of this library.
+library_names='libportaudio.dll.a'
+
+# The name of the static archive.
+old_library=''
+
+# Linker flags that can not go in dependency_libs.
+inherited_linker_flags=''
+
+# Libraries that this one depends upon.
+dependency_libs=' -lwinmm'
+
+# Names of additional weak libraries provided by this library
+weak_library_names=''
+
+# Version information for libportaudio.
+current=2
+age=0
+revision=0
+
+# Is this an already installed library?
+installed=yes
+
+# Should we warn about portability when linking against -modules?
+shouldnotlink=no
+
+# Files to dlopen/dlpreopen
+dlopen=''
+dlpreopen=''
+
+# Directory that this library needs to be installed in:
+libdir='/usr/local/lib'