kopia lustrzana https://github.com/Hamlib/Hamlib
433 wiersze
10 KiB
Plaintext
433 wiersze
10 KiB
Plaintext
unit HamlibComponents;
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interface
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uses
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SysUtils, Types, Classes, QGraphics, QControls, QForms, QDialogs,
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hamlib_rigapi, hamlib_rotapi;
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type
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TFrequencyEvent = procedure(Sender: TObject; vfo: vfo_t; Freq: freq_t) of object;
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TVfoEvent = procedure(Sender: TObject; vfo: vfo_t) of object;
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TModeEvent = procedure(Sender: TObject; vfo: vfo_t; mode: rmode_t) of object;
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TRigComponent = class(TComponent)
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private
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{ Private declarations }
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FRig: PRig;
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FOnFrequency: TFrequencyEvent;
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FOnVfo : TVfoEvent;
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FOnMode : TModeEvent;
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function GetModel: integer;
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function GetModelName: string;
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function GetMfgName: string;
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function GetTrn: integer;
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procedure SetTrn(Value: integer);
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protected
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{ Protected declarations }
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public
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{ Public declarations }
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constructor Create(AOwner: TComponent); override;
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constructor CreateRig(AOwner: TComponent; AModel: integer);
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destructor Destroy; override;
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procedure OpenRig;
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procedure CloseRig;
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procedure SetTransceive(trn: integer);
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function GetFreq(vfo: vfo_t): freq_t;
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procedure SetFreq(vfo: vfo_t; freq: freq_t);
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function checkMagic: boolean;
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published
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{ Published declarations }
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property Model: integer read GetModel;
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property ModelName: string read GetModelName;
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property MfgName: string read GetMfgName;
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property Transceive: integer read GetTrn write SetTrn default RIG_TRN_OFF;
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property OnFrequency: TFrequencyEvent read FOnFrequency write FOnFrequency;
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property OnVFO: TVfoEvent read FOnVfo write FOnVfo;
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property OnMode: TModeEvent read FOnMode write FOnMode;
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end;
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type
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TRotatorComponent = class(TComponent)
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private
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{ Private declarations }
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FRot: PRot;
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procedure SetMinAzim(const Value: float);
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procedure SetMaxAzim(const Value: float);
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procedure SetMinElev(const Value: float);
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procedure SetMaxElev(const Value: float);
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function GetMinAzim: float;
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function GetMaxAzim: float;
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function GetMinElev: float;
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function GetMaxElev: float;
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function GetModel: integer;
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protected
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{ Protected declarations }
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public
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{ Public declarations }
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constructor Create(AOwner : TComponent); override;
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constructor CreateRotator(AOwner : TComponent; AModel : Integer);
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destructor Destroy; override;
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procedure OpenRotator;
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procedure CloseRotator;
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procedure GetPosition(var Az: azimuth_t; var El: elevation_t);
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procedure SetPosition(var Az: azimuth_t; var El: elevation_t);
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procedure Stop;
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procedure Park;
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procedure Reset;
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published
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{ Published declarations }
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property Model: integer read GetModel;
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property MinAzimuth: float read GetMinAzim write SetMinAzim;
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property MaxAzimuth: float read GetMaxAzim write SetMaxAzim;
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property MinElevation: float read GetMinElev write SetMinElev;
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property MaxElevation: float read GetMaxElev write SetMaxElev;
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end;
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type
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ERigException = class(Exception);
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ERotatorException = class(Exception);
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procedure Register;
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implementation
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procedure Register;
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begin
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RegisterComponents('User', [TRigComponent, TRotatorComponent]);
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end;
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constructor TRotatorComponent.Create(AOwner: TComponent);
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begin
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CreateRotator(AOwner, 1);
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end;
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constructor TRotatorComponent.CreateRotator(AOwner: TComponent; AModel: rot_model_t);
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begin
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inherited Create(AOwner);
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{* Initialize the library for the specified model *}
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FRot := rot_init(AModel);
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if (FRot = nil)
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then raise ERotatorException.Create('Rig initialization error');
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with FRot^ do
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begin
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state.obj := Self; { Pointer back to TRotatorComponent }
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//callbacks.position_event := @position_callback; // TODO: have to implement this
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end;
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end;
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destructor TRotatorComponent.Destroy;
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begin
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rot_cleanup(FRot);
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FRot := nil;
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inherited Destroy;
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end;
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procedure TRotatorComponent.OpenRotator;
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var
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retval: integer;
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begin
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retval := rot_open(FRot);
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if (retval <> RIG_OK)
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then raise ERotatorException.Create('rot_open: ' + StrPas(rigerror(retval)));
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end;
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procedure TRotatorComponent.CloseRotator;
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var
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retval: integer;
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begin
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retval := rot_close(FRot);
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if (retval <> RIG_OK)
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then raise ERotatorException.Create('rot_close: ' + StrPas(rigerror(retval)));
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end;
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procedure TRotatorComponent.GetPosition;
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var
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retval: integer;
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begin
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retval := rot_get_position(FRot, az, el);
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if (retval <> RIG_OK)
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then raise ERotatorException.Create('rot_get_position: ' + StrPas(rigerror(retval)));
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end;
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procedure TRotatorComponent.SetPosition;
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var
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retval: integer;
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begin
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retval := rot_set_position(FRot, az, el);
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if (retval <> RIG_OK)
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then raise ERotatorException.Create('rot_set_position: ' + StrPas(rigerror(retval)));
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end;
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procedure TRotatorComponent.Stop;
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var
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retval: integer;
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begin
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retval := rot_stop(FRot);
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if (retval <> RIG_OK)
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then raise ERotatorException.Create('rot_stop: ' + StrPas(rigerror(retval)));
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end;
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procedure TRotatorComponent.Park;
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var
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retval: integer;
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begin
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retval := rot_park(FRot);
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if (retval <> RIG_OK)
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then raise ERotatorException.Create('rot_park: ' + StrPas(rigerror(retval)));
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end;
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procedure TRotatorComponent.Reset;
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var
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retval: integer;
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begin
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retval := rot_reset(FRot, 0);
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if (retval <> RIG_OK)
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then raise ERotatorException.Create('rot_reset: ' + StrPas(rigerror(retval)));
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end;
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function TRotatorComponent.GetModel: integer;
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begin
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with FRot^ do
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result := Caps^.rot_model;
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end;
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function TRotatorComponent.GetMinAzim: float;
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begin
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with FRot^ do
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result := State.min_az;
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end;
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function TRotatorComponent.GetMaxAzim: float;
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begin
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with FRot^ do
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result := State.max_az;
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end;
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function TRotatorComponent.GetMinElev: float;
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begin
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with FRot^ do
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result := State.min_el;
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end;
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function TRotatorComponent.GetMaxElev: float;
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begin
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with FRot^ do
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result := State.max_el;
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end;
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procedure TRotatorComponent.SetMinAzim(const Value: float);
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begin
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with FRot^ do
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State.min_az := Value;
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end;
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procedure TRotatorComponent.SetMaxAzim(const Value: float);
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begin
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with FRot^ do
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State.max_az := Value;
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end;
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procedure TRotatorComponent.SetMinElev(const Value: float);
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begin
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with FRot^ do
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State.min_el := Value;
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end;
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procedure TRotatorComponent.SetMaxElev(const Value: float);
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begin
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with FRot^ do
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State.max_el := Value;
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end;
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(*
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*
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*
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*
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*
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*
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*
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*
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*
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* TRigComponent
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*
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*)
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function freq_callback(rig: PRig; vfo: vfo_t; freq: freq_t): integer; cdecl;
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var
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component: TRigComponent;
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begin
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rig_debug(RIG_DEBUG_TRACE, 'Inside the callback: freq_callback...'+chr($a));
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component := rig^.state.obj;
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with component do
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begin
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if Assigned(FOnFrequency)
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then FOnFrequency(component, vfo, freq);
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end;
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result := 1;
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end;
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{* These callback still have to be implemented
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*
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function mode_callback(rig: PRig; vfo: vfo_t; mode: rmode; width: pbwidth_t): integer; cdecl;
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function vfo_callback(rig: PRig; vfo: vfo_t; freq_t: freq_t): integer; cdecl;
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function ptt_callback(rig: PRig; mode: ptt_t): integer; cdecl;
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function dcd_callback(rig: PRig; mode: dcd_t): integer; cdecl;
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*
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*}
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constructor TRigComponent.CreateRig(AOwner: TComponent; AModel: integer);
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begin
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inherited Create(AOwner);
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{* Initialize the library for the specified model *}
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FRig := rig_init(AModel);
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if (FRig = nil)
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then raise ERigException.Create('Rig initialization error');
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with FRig^ do
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begin
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state.obj := Self; { Pointer back to TRigComponent }
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callbacks.freq_event := @freq_callback;
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end;
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end;
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constructor TRigComponent.Create(AOwner: TComponent);
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begin
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CreateRig(AOwner, 1); { Use Dummy by default }
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end;
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destructor TRigComponent.Destroy;
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begin
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rig_cleanup(FRig);
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FRig := nil;
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inherited Destroy;
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end;
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{*
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* Because FRig is initialized with constructor and cleared with the
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* destructor, all methods will assume that FRig != NIL during the life
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* of the object.
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*}
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procedure TRigComponent.OpenRig;
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var
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retval: integer;
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begin
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retval := rig_open(FRig);
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if (retval <> RIG_OK)
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then raise ERigException.Create('rig_open: ' + StrPas(rigerror(retval)));
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end;
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procedure TRigComponent.CloseRig;
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var
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retval: integer;
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begin
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retval := rig_close(FRig);
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if (retval <> RIG_OK)
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then raise ERigException.Create('rig_close: ' + StrPas(rigerror(retval)));
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end;
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function TRigComponent.GetModel: integer;
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begin
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result := FRig^.caps^.rig_model;
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end;
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function TRigComponent.GetModelName: string;
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begin
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result := StrPas(FRig^.caps^.model_name);
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end;
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function TRigComponent.GetMfgName: string;
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begin
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result := StrPas(FRig^.caps^.mfg_name);
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end;
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function TRigComponent.GetTrn: integer;
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var
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retval : integer;
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trn : integer;
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begin
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retval := rig_get_trn(FRig, trn);
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if (retval <> RIG_OK)
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then raise ERigException.Create('rig_get_trn: ' + StrPas(rigerror(retval)));
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result := trn;
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end;
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procedure TRigComponent.SetTrn(Value: integer);
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var
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retval: integer;
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begin
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retval := rig_set_trn(FRig, Value);
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if (retval <> RIG_OK) and (retval <> -RIG_ENAVAIL)
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then raise ERigException.Create('rig_set_trn: ' + StrPas(rigerror(retval)));
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end;
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function TRigComponent.GetFreq(vfo: vfo_t): freq_t;
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var
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freq: freq_t;
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retval: integer;
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begin
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freq := 0;
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retval := rig_get_freq(FRig, vfo, freq);
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if (retval <> RIG_OK)
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then raise ERigException.Create('rig_get_freq: ' + StrPas(rigerror(retval)));
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result := freq;
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end;
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procedure TRigComponent.SetFreq(vfo: vfo_t; freq: freq_t);
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var
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retval: integer;
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begin
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vfo:=1;
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writeln('vfo=',vfo,' freq=',freq);
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retval := rig_set_freq(FRig, vfo, freq);
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if (retval <> RIG_OK)
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then
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begin
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writeln('Return=',retval);
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raise ERigException.Create('rig_set_freq: ' + StrPas(rigerror(retval)));
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end;
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end;
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procedure TRigComponent.SetTransceive(trn: integer);
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var
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retval: integer;
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begin
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retval := rig_set_trn(FRig, trn);
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if (retval <> RIG_OK)
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then raise ERigException.Create('rig_set_trn: ' + StrPas(rigerror(retval)));
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{ Note: This will cause a SIGIO interruption. The application will handle
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the SIGIO. Please disable SIGIO handling in the debugger, else the
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debugger will interrupt the program.
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Menu: Tools|Debugger Options|Signals
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}
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end;
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function TRigComponent.checkMagic: boolean;
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begin
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{$IFDEF HAVE_MAGIC_NUMBERS}
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result := rigapi_check_magic(FRig) = 0;
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{$ELSE}
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result := true;
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{$ENDIF}
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end;
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end.
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