const int i_param_count, const char** psz_param, const int* i_type )
{
const int MAXPARAM = 40;
- BOOL b_used[MAXPARAM];
+ bool b_used[MAXPARAM];
char* psz_parser;
char* psz_token;
char* psz_value;
return VLC_EGENERIC;
}
for( int i = 0; i < i_param_count; i++ )
- b_used[i] = FALSE;
+ b_used[i] = false;
psz_parser = p_access->psz_path;
if( strlen( psz_parser ) <= 0 )
return VLC_SUCCESS;
{
msg_Warn( p_access, "ParsePath: Unspecified parameter %s",
psz_token );
- if( psz_token )
- free( psz_token );
+ free( psz_token );
return VLC_EGENERIC;
}
i_this_param = -1;
if( i_this_param < 0 )
{
msg_Warn( p_access, "ParsePath: Unknown parameter %s", psz_token );
- if( psz_token )
- free( psz_token );
+ free( psz_token );
return VLC_EGENERIC;
}
if( b_used[i_this_param] )
{
msg_Warn( p_access, "ParsePath: Duplicate parameter %s",
psz_token );
- if( psz_token )
- free( psz_token );
+ free( psz_token );
return VLC_EGENERIC;
}
- b_used[i_this_param] = TRUE;
+ b_used[i_this_param] = true;
/* if "=" was found in token then value starts at
* psz_token + i_paramlen + 1
psz_param[i_this_param] );
var_Set( p_access, psz_full_name, v_value );
- if( psz_token )
- free( psz_token );
+ free( psz_token );
if( i_token_len >= strlen( psz_parser ) )
break;
psz_parser += i_token_len + 1;
i_token_len = strcspn( psz_parser, ":" );
}
- while( TRUE );
+ while( true );
return VLC_SUCCESS;
}
} ComponentStatus;
typedef enum DVBSystemType
-{\r
- DVB_Cable,\r
- DVB_Terrestrial,\r
- DVB_Satellite,\r
+{
+ DVB_Cable,
+ DVB_Terrestrial,
+ DVB_Satellite,
} DVBSystemType;
typedef enum FECMethod
} Polarisation;
typedef enum SpectralInversion
-{\r
- BDA_SPECTRAL_INVERSION_NOT_SET = -1,\r
- BDA_SPECTRAL_INVERSION_NOT_DEFINED = 0,\r
- BDA_SPECTRAL_INVERSION_AUTOMATIC = 1,\r
- BDA_SPECTRAL_INVERSION_NORMAL,\r
- BDA_SPECTRAL_INVERSION_INVERTED,\r
- BDA_SPECTRAL_INVERSION_MAX\r
+{
+ BDA_SPECTRAL_INVERSION_NOT_SET = -1,
+ BDA_SPECTRAL_INVERSION_NOT_DEFINED = 0,
+ BDA_SPECTRAL_INVERSION_AUTOMATIC = 1,
+ BDA_SPECTRAL_INVERSION_NORMAL,
+ BDA_SPECTRAL_INVERSION_INVERTED,
+ BDA_SPECTRAL_INVERSION_MAX
} SpectralInversion;
typedef enum TransmissionMode
virtual HRESULT __stdcall Clone( ITuningSpace** p_p_tuning_space )=0;
};
-class IDVBTuningSpace : public ITuningSpace\r
-{\r
-public:\r
- virtual HRESULT __stdcall get_SystemType( DVBSystemType* p_sys_type )=0;\r
- virtual HRESULT __stdcall put_SystemType( DVBSystemType sys_type )=0;\r
-};\r
-
-class IDVBTuningSpace2 : public IDVBTuningSpace\r
-{\r
-public:\r
- virtual HRESULT __stdcall get_NetworkID( long* p_l_network_id )=0;\r
- virtual HRESULT __stdcall put_NetworkID( long l_network_id )=0;\r
+class IDVBTuningSpace : public ITuningSpace
+{
+public:
+ virtual HRESULT __stdcall get_SystemType( DVBSystemType* p_sys_type )=0;
+ virtual HRESULT __stdcall put_SystemType( DVBSystemType sys_type )=0;
};
-\r
-class IDVBSTuningSpace : public IDVBTuningSpace2\r
-{\r
-public:\r
- virtual HRESULT __stdcall get_LowOscillator( long* p_l_low_osc )=0;\r
- virtual HRESULT __stdcall put_LowOscillator( long l_low_osc )=0;\r
- virtual HRESULT __stdcall get_HighOscillator( long* p_l_high_osc )=0;\r
- virtual HRESULT __stdcall put_HighOscillator( long l_high_osc )=0;\r
- virtual HRESULT __stdcall get_LNBSwitch( long* p_l_lnb_switch )=0;\r
- virtual HRESULT __stdcall put_LNBSwitch( long l_lnb_switch )=0;\r
- virtual HRESULT __stdcall get_InputRange( BSTR* p_bstr_input_range )=0;\r
- virtual HRESULT __stdcall put_InputRange( BSTR bstr_input_range )=0;\r
+
+class IDVBTuningSpace2 : public IDVBTuningSpace
+{
+public:
+ virtual HRESULT __stdcall get_NetworkID( long* p_l_network_id )=0;
+ virtual HRESULT __stdcall put_NetworkID( long l_network_id )=0;
+};
+
+class IDVBSTuningSpace : public IDVBTuningSpace2
+{
+public:
+ virtual HRESULT __stdcall get_LowOscillator( long* p_l_low_osc )=0;
+ virtual HRESULT __stdcall put_LowOscillator( long l_low_osc )=0;
+ virtual HRESULT __stdcall get_HighOscillator( long* p_l_high_osc )=0;
+ virtual HRESULT __stdcall put_HighOscillator( long l_high_osc )=0;
+ virtual HRESULT __stdcall get_LNBSwitch( long* p_l_lnb_switch )=0;
+ virtual HRESULT __stdcall put_LNBSwitch( long l_lnb_switch )=0;
+ virtual HRESULT __stdcall get_InputRange( BSTR* p_bstr_input_range )=0;
+ virtual HRESULT __stdcall put_InputRange( BSTR bstr_input_range )=0;
virtual HRESULT __stdcall get_SpectralInversion(
- SpectralInversion* p_spectral_inv )=0;\r
+ SpectralInversion* p_spectral_inv )=0;
virtual HRESULT __stdcall put_SpectralInversion(
- SpectralInversion spectral_inv )=0;\r
+ SpectralInversion spectral_inv )=0;
};
class ITuningSpaceContainer : public IDispatch
extern const GUID MEDIASUBTYPE_None;
extern const GUID FORMAT_None;
-const GUID KSCATEGORY_BDA_TRANSPORT_INFORMATION =\r
- {0xa2e3074f,0x6c3d,0x11d3,{0xb6,0x53,0x00,0xc0,0x4f,0x79,0x49,0x8e}};\r
-const GUID KSCATEGORY_BDA_RECEIVER_COMPONENT =\r
- {0xFD0A5AF4,0xB41D,0x11d2,{0x9c,0x95,0x00,0xc0,0x4f,0x79,0x71,0xe0}};\r
-const GUID KSCATEGORY_BDA_NETWORK_TUNER =\r
+const GUID KSCATEGORY_BDA_TRANSPORT_INFORMATION =
+ {0xa2e3074f,0x6c3d,0x11d3,{0xb6,0x53,0x00,0xc0,0x4f,0x79,0x49,0x8e}};
+const GUID KSCATEGORY_BDA_RECEIVER_COMPONENT =
+ {0xFD0A5AF4,0xB41D,0x11d2,{0x9c,0x95,0x00,0xc0,0x4f,0x79,0x71,0xe0}};
+const GUID KSCATEGORY_BDA_NETWORK_TUNER =
{0x71985f48,0x1ca1,0x11d3,{0x9c,0xc8,0x00,0xc0,0x4f,0x79,0x71,0xe0}};
};