204 lines
7.5 KiB
ObjectPascal
204 lines
7.5 KiB
ObjectPascal
{
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:: X2UtSettings provides a generic access mechanism for application settings.
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:: Include one of the extensions (X2UtSettingsINI, X2UtSettingsRegistry) for
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:: an implementation.
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::
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:: Last changed: $Date$
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:: Revision: $Rev$
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:: Author: $Author$
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}
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unit X2UtSettings;
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interface
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uses
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Classes,
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SysUtils,
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Variants;
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type
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//:$ Raised when an unregistered setting is requested without providing a
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//:$ default value.
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EX2SettingsUndefined = class(Exception);
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//:$ Raised when trying to read a registered setting as a different type than
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//:$ it was registered with.
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EX2SettingsType = class(Exception);
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//:$ Raised when the specified range is invalid.
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EX2SettingsRange = class(Exception);
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// Forward declaration
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TX2SettingsFactory = class;
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{
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:$ Abstract settings object.
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:: Provides access to the settings regardless of the storage backend.
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}
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TX2Settings = class(TObject)
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private
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FFactory: TX2SettingsFactory;
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FSection: String;
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protected
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function InternalReadBool(const AName: String; out AValue: Boolean): Boolean; virtual; abstract;
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function InternalReadFloat(const AName: String; out AValue: Double): Boolean; virtual; abstract;
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function InternalReadInteger(const AName: String; out AValue: Integer): Boolean; virtual; abstract;
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function InternalReadString(const AName: String; out AValue: String): Boolean; virtual; abstract;
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property Factory: TX2SettingsFactory read FFactory;
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property Section: String read FSection;
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public
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constructor Create(const AFactory: TX2SettingsFactory;
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const ASection: String); virtual;
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//:$ Reads a boolean value from the settings.
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//:: If the ADefault parameter is used, that value will be returned if the
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//:: setting could not be found. Otherwise the setting must have been
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//:: registered with the factory's Register() method.
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function ReadBool(const AName: String): Boolean; overload; virtual;
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function ReadBool(const AName: String; const ADefault: Boolean): Boolean; overload; virtual;
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//:$ Reads a floating point value from the settings.
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//:: If the ADefault parameter is used, that value will be returned if the
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//:: setting could not be found. Otherwise the setting must have been
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//:: registered with the factory's Register() method.
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function ReadFloat(const AName: String): Double; overload; virtual;
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function ReadFloat(const AName: String; const ADefault: Double): Double; overload; virtual;
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//:$ Reads an integer value from the settings.
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//:: If the ADefault parameter is used, that value will be returned if the
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//:: setting could not be found. Otherwise the setting must have been
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//:: registered with the factory's Register() method.
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function ReadInteger(const AName: String): Integer; overload; virtual;
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function ReadInteger(const AName: String; const ADefault: Integer): Integer; overload; virtual;
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//:$ Reads a string value from the settings.
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//:: If the ADefault parameter is used, that value will be returned if the
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//:: setting could not be found. Otherwise the setting must have been
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//:: registered with the factory's Register() method.
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function ReadString(const AName: String): String; overload; virtual;
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function ReadString(const AName, ADefault: String): String; overload; virtual;
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//:$ Writes a boolean value to the settings.
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procedure WriteBool(const AName: String; AValue: Boolean); virtual; abstract;
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//:$ Writes a floating point value to the settings.
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procedure WriteFloat(const AName: String; AValue: Double); virtual; abstract;
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//:$ Writes an integer value to the settings.
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procedure WriteInteger(const AName: String; AValue: Integer); virtual; abstract;
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//:$ Writes a string value to the settings.
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procedure WriteString(const AName, AValue: String); virtual; abstract;
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//:$ Checks if the specified setting exists.
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function ValueExists(const AName: String): Boolean; virtual; abstract;
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//:$ Retrieves the list of sub-sections for this section.
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procedure GetSectionNames(const ADest: TStrings); virtual; abstract;
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//:$ Retrieves the list of values for this section.
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procedure GetValueNames(const ADest: TStrings); virtual; abstract;
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//:$ Deletes this section.
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procedure DeleteSection(); virtual; abstract;
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//:$ Deletes the specified value.
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procedure DeleteValue(const AName: String); virtual; abstract;
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end;
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{
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:$ Settings factory.
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:: Extensions must implement a factory descendant which an application can
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:: create to provide application-wide access to the same settings.
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}
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TX2SettingsFactory = class(TObject)
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protected
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function GetSection(const ASection: String): TX2Settings; virtual; abstract;
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public
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//:$ Loads a section from the settings.
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//:: Sub-sections are indicated by seperating the sections with a dot ('.')
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//:: characters, ex: Sub.Section. The underlying extension will translate
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//:: this into a compatible section.
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//:! The application is responsible for freeing the returned class.
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property Sections[const ASection: String]: TX2Settings read GetSection; default;
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end;
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implementation
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resourcestring
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RSInvalidRange = 'Invalid range';
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RSInvalidType = 'Invalid type';
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RSUndefined = 'Undefined setting: %s';
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{============================ TX2Settings
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Initialization
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========================================}
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constructor TX2Settings.Create;
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begin
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inherited Create();
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FFactory := AFactory;
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FSection := ASection;
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end;
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{============================ TX2Settings
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Read
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========================================}
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function TX2Settings.ReadBool(const AName: String): Boolean;
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begin
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if not (ValueExists(AName) and InternalReadBool(AName, Result)) then
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raise EX2SettingsUndefined.CreateFmt(RSUndefined, [AName]);
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end;
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function TX2Settings.ReadBool(const AName: String;
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const ADefault: Boolean): Boolean;
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begin
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if not (ValueExists(AName) and InternalReadBool(AName, Result)) then
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Result := ADefault;
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end;
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function TX2Settings.ReadFloat(const AName: String): Double;
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begin
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if not (ValueExists(AName) and InternalReadFloat(AName, Result)) then
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raise EX2SettingsUndefined.CreateFmt(RSUndefined, [AName]);
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end;
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function TX2Settings.ReadFloat(const AName: String;
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const ADefault: Double): Double;
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begin
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if not (ValueExists(AName) and InternalReadFloat(AName, Result)) then
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Result := ADefault;
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end;
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function TX2Settings.ReadInteger(const AName: String): Integer;
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begin
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if not (ValueExists(AName) and InternalReadInteger(AName, Result)) then
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raise EX2SettingsUndefined.CreateFmt(RSUndefined, [AName]);
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end;
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function TX2Settings.ReadInteger(const AName: String;
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const ADefault: Integer): Integer;
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begin
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if not (ValueExists(AName) and InternalReadInteger(AName, Result)) then
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Result := ADefault;
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end;
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function TX2Settings.ReadString(const AName: String): String;
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begin
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if not (ValueExists(AName) and InternalReadString(AName, Result)) then
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raise EX2SettingsUndefined.CreateFmt(RSUndefined, [AName]);
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end;
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function TX2Settings.ReadString(const AName, ADefault: String): String;
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begin
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if not (ValueExists(AName) and InternalReadString(AName, Result)) then
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Result := ADefault;
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end;
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end.
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