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-rw-r--r--Game/Code/lib/SQLite/SQLiteTable3.pas1446
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diff --git a/Game/Code/lib/SQLite/SQLiteTable3.pas b/Game/Code/lib/SQLite/SQLiteTable3.pas
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-unit SQLiteTable3;
-
-{
- Simple classes for using SQLite's exec and get_table.
-
- TSQLiteDatabase wraps the calls to open and close an SQLite database.
- It also wraps SQLite_exec for queries that do not return a result set
-
- TSQLiteTable wraps execution of SQL query.
- It run query and read all returned rows to internal buffer.
- It allows accessing fields by name as well as index and can move through a
- result set forward and backwards, or randomly to any row.
-
- TSQLiteUniTable wraps execution of SQL query.
- It run query as TSQLiteTable, but reading just first row only!
- You can step to next row (until not EOF) by 'Next' method.
- You cannot step backwards! (So, it is called as UniDirectional result set.)
- It not using any internal buffering, this class is very close to Sqlite API.
- It allows accessing fields by name as well as index on actual row only.
- Very good and fast for sequentional scanning of large result sets with minimal
- memory footprint.
-
- Warning! Do not close TSQLiteDatabase before any TSQLiteUniTable,
- because query is closed on TSQLiteUniTable destructor and database connection
- is used during TSQLiteUniTable live!
-
- SQL parameter usage:
- You can add named parameter values by call set of AddParam* methods.
- Parameters will be used for first next SQL statement only.
- Parameter name must be prefixed by ':', '$' or '@' and same prefix must be
- used in SQL statement!
- Sample:
- table.AddParamText(':str', 'some value');
- s := table.GetTableString('SELECT value FROM sometable WHERE id=:str');
-
- Notes from Andrew Retmanski on prepared queries
- The changes are as follows:
-
- SQLiteTable3.pas
- - Added new boolean property Synchronised (this controls the SYNCHRONOUS pragma as I found that turning this OFF increased the write performance in my application)
- - Added new type TSQLiteQuery (this is just a simple record wrapper around the SQL string and a TSQLiteStmt pointer)
- - Added PrepareSQL method to prepare SQL query - returns TSQLiteQuery
- - Added ReleaseSQL method to release previously prepared query
- - Added overloaded BindSQL methods for Integer and String types - these set new values for the prepared query parameters
- - Added overloaded ExecSQL method to execute a prepared TSQLiteQuery
-
- Usage of the new methods should be self explanatory but the process is in essence:
-
- 1. Call PrepareSQL to return TSQLiteQuery 2. Call BindSQL for each parameter in the prepared query 3. Call ExecSQL to run the prepared query 4. Repeat steps 2 & 3 as required 5. Call ReleaseSQL to free SQLite resources
-
- One other point - the Synchronised property throws an error if used inside a transaction.
-
- Acknowledments
- Adapted by Tim Anderson (tim@itwriting.com)
- Originally created by Pablo Pissanetzky (pablo@myhtpc.net)
- Modified and enhanced by Lukas Gebauer
-}
-
-interface
-
-{$IFDEF FPC}
- {$MODE Delphi}{$H+}
-{$ENDIF}
-
-uses
- {$IFDEF WIN32}
- Windows,
- {$ENDIF}
- SQLite3, Classes, SysUtils;
-
-const
-
- dtInt = 1;
- dtNumeric = 2;
- dtStr = 3;
- dtBlob = 4;
- dtNull = 5;
-
-type
-
- ESQLiteException = class(Exception)
- end;
-
- TSQliteParam = class
- public
- name: string;
- valuetype: integer;
- valueinteger: int64;
- valuefloat: double;
- valuedata: string;
- end;
-
- TSQLiteQuery = record
- SQL: String;
- Statement: TSQLiteStmt;
- end;
-
-
- TSQLiteTable = class;
- TSQLiteUniTable = class;
-
- TSQLiteDatabase = class
- private
- fDB: TSQLiteDB;
- fInTrans: boolean;
- fSync: boolean;
- fParams: TList;
- procedure RaiseError(s: string; SQL: string);
- procedure SetParams(Stmt: TSQLiteStmt);
- procedure BindData(Stmt: TSQLiteStmt; const Bindings: array of const);
- function GetRowsChanged: integer;
- protected
- procedure SetSynchronised(Value: boolean);
- public
- constructor Create(const FileName: string);
- destructor Destroy; override;
- function GetTable(const SQL: string): TSQLiteTable; overload;
- function GetTable(const SQL: string; const Bindings: array of const): TSQLiteTable; overload;
- procedure ExecSQL(const SQL: string); overload;
- procedure ExecSQL(const SQL: string; const Bindings: array of const); overload;
- procedure ExecSQL(Query: TSQLiteQuery); overload;
- function PrepareSQL(const SQL: string): TSQLiteQuery;
- procedure BindSQL(Query: TSQLiteQuery; const Index: Integer; const Value: Integer); overload;
- procedure BindSQL(Query: TSQLiteQuery; const Index: Integer; const Value: String); overload;
- procedure ReleaseSQL(Query: TSQLiteQuery);
- function GetUniTable(const SQL: string): TSQLiteUniTable; overload;
- function GetUniTable(const SQL: string; const Bindings: array of const): TSQLiteUniTable; overload;
- function GetTableValue(const SQL: string): int64; overload;
- function GetTableValue(const SQL: string; const Bindings: array of const): int64; overload;
- function GetTableString(const SQL: string): string; overload;
- function GetTableString(const SQL: string; const Bindings: array of const): string; overload;
- procedure UpdateBlob(const SQL: string; BlobData: TStream);
- procedure BeginTransaction;
- procedure Commit;
- procedure Rollback;
- function TableExists(TableName: string): boolean;
- function GetLastInsertRowID: int64;
- function GetLastChangedRows: int64;
- procedure SetTimeout(Value: integer);
- function Version: string;
- procedure AddCustomCollate(name: string; xCompare: TCollateXCompare);
- //adds collate named SYSTEM for correct data sorting by user's locale
- Procedure AddSystemCollate;
- procedure ParamsClear;
- procedure AddParamInt(name: string; value: int64);
- procedure AddParamFloat(name: string; value: double);
- procedure AddParamText(name: string; value: string);
- procedure AddParamNull(name: string);
- property DB: TSQLiteDB read fDB;
- published
- property IsTransactionOpen: boolean read fInTrans;
- //database rows that were changed (or inserted or deleted) by the most recent SQL statement
- property RowsChanged : integer read getRowsChanged;
- property Synchronised: boolean read FSync write SetSynchronised;
-
- end;
-
- TSQLiteTable = class
- private
- fResults: TList;
- fRowCount: cardinal;
- fColCount: cardinal;
- fCols: TStringList;
- fColTypes: TList;
- fRow: cardinal;
- function GetFields(I: cardinal): string;
- function GetEOF: boolean;
- function GetBOF: boolean;
- function GetColumns(I: integer): string;
- function GetFieldByName(FieldName: string): string;
- function GetFieldIndex(FieldName: string): integer;
- function GetCount: integer;
- function GetCountResult: integer;
- public
- constructor Create(DB: TSQLiteDatabase; const SQL: string); overload;
- constructor Create(DB: TSQLiteDatabase; const SQL: string; const Bindings: array of const); overload;
- destructor Destroy; override;
- function FieldAsInteger(I: cardinal): int64;
- function FieldAsBlob(I: cardinal): TMemoryStream;
- function FieldAsBlobText(I: cardinal): string;
- function FieldIsNull(I: cardinal): boolean;
- function FieldAsString(I: cardinal): string;
- function FieldAsDouble(I: cardinal): double;
- function Next: boolean;
- function Previous: boolean;
- property EOF: boolean read GetEOF;
- property BOF: boolean read GetBOF;
- property Fields[I: cardinal]: string read GetFields;
- property FieldByName[FieldName: string]: string read GetFieldByName;
- property FieldIndex[FieldName: string]: integer read GetFieldIndex;
- property Columns[I: integer]: string read GetColumns;
- property ColCount: cardinal read fColCount;
- property RowCount: cardinal read fRowCount;
- property Row: cardinal read fRow;
- function MoveFirst: boolean;
- function MoveLast: boolean;
- function MoveTo(position:Integer): boolean;
- property Count: integer read GetCount;
- // The property CountResult is used when you execute count(*) queries.
- // It returns 0 if the result set is empty or the value of the
- // first field as an integer.
- property CountResult: integer read GetCountResult;
- end;
-
- TSQLiteUniTable = class
- private
- fColCount: cardinal;
- fCols: TStringList;
- fRow: cardinal;
- fEOF: boolean;
- fStmt: TSQLiteStmt;
- fDB: TSQLiteDatabase;
- fSQL: string;
- function GetFields(I: cardinal): string;
- function GetColumns(I: integer): string;
- function GetFieldByName(FieldName: string): string;
- function GetFieldIndex(FieldName: string): integer;
- public
- constructor Create(DB: TSQLiteDatabase; const SQL: string); overload;
- constructor Create(DB: TSQLiteDatabase; const SQL: string; const Bindings: array of const); overload;
- destructor Destroy; override;
- function FieldAsInteger(I: cardinal): int64;
- function FieldAsBlob(I: cardinal): TMemoryStream;
- function FieldAsBlobPtr(I: cardinal; out iNumBytes: integer): Pointer;
- function FieldAsBlobText(I: cardinal): string;
- function FieldIsNull(I: cardinal): boolean;
- function FieldAsString(I: cardinal): string;
- function FieldAsDouble(I: cardinal): double;
- function Next: boolean;
- property EOF: boolean read FEOF;
- property Fields[I: cardinal]: string read GetFields;
- property FieldByName[FieldName: string]: string read GetFieldByName;
- property FieldIndex[FieldName: string]: integer read GetFieldIndex;
- property Columns[I: integer]: string read GetColumns;
- property ColCount: cardinal read fColCount;
- property Row: cardinal read fRow;
- end;
-
-procedure DisposePointer(ptr: pointer); cdecl;
-
-{$IFDEF WIN32}
-function SystemCollate(Userdta: pointer; Buf1Len: integer; Buf1: pointer;
- Buf2Len: integer; Buf2: pointer): integer; cdecl;
-{$ENDIF}
-
-implementation
-
-procedure DisposePointer(ptr: pointer); cdecl;
-begin
- if assigned(ptr) then
- freemem(ptr);
-end;
-
-{$IFDEF WIN32}
-function SystemCollate(Userdta: pointer; Buf1Len: integer; Buf1: pointer;
- Buf2Len: integer; Buf2: pointer): integer; cdecl;
-begin
- Result := CompareStringW(LOCALE_USER_DEFAULT, 0, PWideChar(Buf1), Buf1Len,
- PWideChar(Buf2), Buf2Len) - 2;
-end;
-{$ENDIF}
-
-//------------------------------------------------------------------------------
-// TSQLiteDatabase
-//------------------------------------------------------------------------------
-
-constructor TSQLiteDatabase.Create(const FileName: string);
-var
- Msg: pchar;
- iResult: integer;
- utf8FileName: string;
-begin
- inherited Create;
- fParams := TList.Create;
-
- self.fInTrans := False;
-
- Msg := nil;
- try
- utf8FileName := AnsiToUtf8(FileName);
- iResult := SQLite3_Open(PChar(utf8FileName), Fdb);
-
- if iResult <> SQLITE_OK then
- if Assigned(Fdb) then
- begin
- Msg := Sqlite3_ErrMsg(Fdb);
- raise ESqliteException.CreateFmt('Failed to open database "%s" : %s',
- [FileName, Msg]);
- end
- else
- raise ESqliteException.CreateFmt('Failed to open database "%s" : unknown error',
- [FileName]);
-
-//set a few configs
-//L.G. Do not call it here. Because busy handler is not setted here,
-// any share violation causing exception!
-
-// self.ExecSQL('PRAGMA SYNCHRONOUS=NORMAL;');
-// self.ExecSQL('PRAGMA temp_store = MEMORY;');
-
- finally
- if Assigned(Msg) then
- SQLite3_Free(Msg);
- end;
-
-end;
-
-//..............................................................................
-
-destructor TSQLiteDatabase.Destroy;
-begin
- if self.fInTrans then
- self.Rollback; //assume rollback
- if Assigned(fDB) then
- SQLite3_Close(fDB);
- ParamsClear;
- fParams.Free;
- inherited;
-end;
-
-function TSQLiteDatabase.GetLastInsertRowID: int64;
-begin
- Result := Sqlite3_LastInsertRowID(self.fDB);
-end;
-
-function TSQLiteDatabase.GetLastChangedRows: int64;
-begin
- Result := SQLite3_TotalChanges(self.fDB);
-end;
-
-//..............................................................................
-
-procedure TSQLiteDatabase.RaiseError(s: string; SQL: string);
-//look up last error and raise an exception with an appropriate message
-var
- Msg: PChar;
- ret : integer;
-begin
-
- Msg := nil;
-
- ret := sqlite3_errcode(self.fDB);
- if ret <> SQLITE_OK then
- Msg := sqlite3_errmsg(self.fDB);
-
- if Msg <> nil then
- raise ESqliteException.CreateFmt(s +'.'#13'Error [%d]: %s.'#13'"%s": %s', [ret, SQLiteErrorStr(ret),SQL, Msg])
- else
- raise ESqliteException.CreateFmt(s, [SQL, 'No message']);
-
-end;
-
-procedure TSQLiteDatabase.SetSynchronised(Value: boolean);
-begin
- if Value <> fSync then
- begin
- if Value then
- ExecSQL('PRAGMA synchronous = ON;')
- else
- ExecSQL('PRAGMA synchronous = OFF;');
- fSync := Value;
- end;
-end;
-
-procedure TSQLiteDatabase.BindData(Stmt: TSQLiteStmt; const Bindings: array of const);
-var
- BlobMemStream: TCustomMemoryStream;
- BlobStdStream: TStream;
- DataPtr: Pointer;
- DataSize: integer;
- AnsiStr: AnsiString;
- AnsiStrPtr: PAnsiString;
- I: integer;
-begin
- for I := 0 to High(Bindings) do
- begin
- case Bindings[I].VType of
- vtString,
- vtAnsiString, vtPChar,
- vtWideString, vtPWideChar,
- vtChar, vtWideChar:
- begin
- case Bindings[I].VType of
- vtString: begin // ShortString
- AnsiStr := Bindings[I].VString^;
- DataPtr := PChar(AnsiStr);
- DataSize := Length(AnsiStr)+1;
- end;
- vtPChar: begin
- DataPtr := Bindings[I].VPChar;
- DataSize := -1;
- end;
- vtAnsiString: begin
- AnsiStrPtr := PString(@Bindings[I].VAnsiString);
- DataPtr := PChar(AnsiStrPtr^);
- DataSize := Length(AnsiStrPtr^)+1;
- end;
- vtPWideChar: begin
- DataPtr := PChar(UTF8Encode(WideString(Bindings[I].VPWideChar)));
- DataSize := -1;
- end;
- vtWideString: begin
- DataPtr := PChar(UTF8Encode(PWideString(@Bindings[I].VWideString)^));
- DataSize := -1;
- end;
- vtChar: begin
- DataPtr := PChar(String(Bindings[I].VChar));
- DataSize := 2;
- end;
- vtWideChar: begin
- DataPtr := PChar(UTF8Encode(WideString(Bindings[I].VWideChar)));
- DataSize := -1;
- end;
- else
- raise ESqliteException.Create('Unknown string-type');
- end;
- if (sqlite3_bind_text(Stmt, I+1, DataPtr, DataSize, SQLITE_STATIC) <> SQLITE_OK) then
- RaiseError('Could not bind text', 'BindData');
- end;
- vtInteger:
- if (sqlite3_bind_int(Stmt, I+1, Bindings[I].VInteger) <> SQLITE_OK) then
- RaiseError('Could not bind integer', 'BindData');
- vtInt64:
- if (sqlite3_bind_int64(Stmt, I+1, Bindings[I].VInt64^) <> SQLITE_OK) then
- RaiseError('Could not bind int64', 'BindData');
- vtExtended:
- if (sqlite3_bind_double(Stmt, I+1, Bindings[I].VExtended^) <> SQLITE_OK) then
- RaiseError('Could not bind extended', 'BindData');
- vtBoolean:
- if (sqlite3_bind_int(Stmt, I+1, Integer(Bindings[I].VBoolean)) <> SQLITE_OK) then
- RaiseError('Could not bind boolean', 'BindData');
- vtPointer:
- begin
- if (Bindings[I].VPointer = nil) then
- begin
- if (sqlite3_bind_null(Stmt, I+1) <> SQLITE_OK) then
- RaiseError('Could not bind null', 'BindData');
- end
- else
- raise ESqliteException.Create('Unhandled pointer (<> nil)');
- end;
- vtObject:
- begin
- if (Bindings[I].VObject is TCustomMemoryStream) then
- begin
- BlobMemStream := TCustomMemoryStream(Bindings[I].VObject);
- if (sqlite3_bind_blob(Stmt, I+1, @PChar(BlobMemStream.Memory)[BlobMemStream.Position],
- BlobMemStream.Size-BlobMemStream.Position, SQLITE_STATIC) <> SQLITE_OK) then
- begin
- RaiseError('Could not bind BLOB', 'BindData');
- end;
- end
- else if (Bindings[I].VObject is TStream) then
- begin
- BlobStdStream := TStream(Bindings[I].VObject);
- DataSize := BlobStdStream.Size;
-
- GetMem(DataPtr, DataSize);
- if (DataPtr = nil) then
- raise ESqliteException.Create('Error getting memory to save blob');
-
- BlobStdStream.Position := 0;
- BlobStdStream.Read(DataPtr^, DataSize);
-
- if (sqlite3_bind_blob(stmt, I+1, DataPtr, DataSize, @DisposePointer) <> SQLITE_OK) then
- RaiseError('Could not bind BLOB', 'BindData');
- end
- else
- raise ESqliteException.Create('Unhandled object-type in binding');
- end
- else
- begin
- raise ESqliteException.Create('Unhandled binding');
- end;
- end;
- end;
-end;
-
-procedure TSQLiteDatabase.ExecSQL(const SQL: string);
-begin
- ExecSQL(SQL, []);
-end;
-
-procedure TSQLiteDatabase.ExecSQL(const SQL: string; const Bindings: array of const);
-var
- Stmt: TSQLiteStmt;
- NextSQLStatement: Pchar;
- iStepResult: integer;
-begin
- try
- if Sqlite3_Prepare_v2(self.fDB, PChar(SQL), -1, Stmt, NextSQLStatement) <>
- SQLITE_OK then
- RaiseError('Error executing SQL', SQL);
- if (Stmt = nil) then
- RaiseError('Could not prepare SQL statement', SQL);
-
- SetParams(Stmt);
- BindData(Stmt, Bindings);
-
- iStepResult := Sqlite3_step(Stmt);
- if (iStepResult <> SQLITE_DONE) then
- begin
- SQLite3_reset(stmt);
- RaiseError('Error executing SQL statement', SQL);
- end;
- finally
- if Assigned(Stmt) then
- Sqlite3_Finalize(stmt);
- end;
-end;
-
-{$WARNINGS OFF}
-procedure TSQLiteDatabase.ExecSQL(Query: TSQLiteQuery);
-var
- iStepResult: integer;
-begin
- if Assigned(Query.Statement) then
- begin
- iStepResult := Sqlite3_step(Query.Statement);
-
- if (iStepResult <> SQLITE_DONE) then
- begin
- SQLite3_reset(Query.Statement);
- RaiseError('Error executing prepared SQL statement', Query.SQL);
- end;
- Sqlite3_Reset(Query.Statement);
- end;
-end;
-{$WARNINGS ON}
-
-{$WARNINGS OFF}
-function TSQLiteDatabase.PrepareSQL(const SQL: string): TSQLiteQuery;
-var
- Stmt: TSQLiteStmt;
- NextSQLStatement: Pchar;
-begin
- Result.SQL := SQL;
- Result.Statement := nil;
-
- if Sqlite3_Prepare(self.fDB, PChar(SQL), -1, Stmt, NextSQLStatement) <>
- SQLITE_OK then
- RaiseError('Error executing SQL', SQL)
- else
- Result.Statement := Stmt;
-
- if (Result.Statement = nil) then
- RaiseError('Could not prepare SQL statement', SQL);
-end;
-{$WARNINGS ON}
-
-{$WARNINGS OFF}
-procedure TSQLiteDatabase.BindSQL(Query: TSQLiteQuery; const Index: Integer; const Value: Integer);
-begin
- if Assigned(Query.Statement) then
- sqlite3_Bind_Int(Query.Statement, Index, Value)
- else
- RaiseError('Could not bind integer to prepared SQL statement', Query.SQL);
-end;
-{$WARNINGS ON}
-
-{$WARNINGS OFF}
-procedure TSQLiteDatabase.BindSQL(Query: TSQLiteQuery; const Index: Integer; const Value: String);
-begin
- if Assigned(Query.Statement) then
- Sqlite3_Bind_Text(Query.Statement, Index, PChar(Value), Length(Value), Pointer(SQLITE_STATIC))
- else
- RaiseError('Could not bind string to prepared SQL statement', Query.SQL);
-end;
-{$WARNINGS ON}
-
-{$WARNINGS OFF}
-procedure TSQLiteDatabase.ReleaseSQL(Query: TSQLiteQuery);
-begin
- if Assigned(Query.Statement) then
- begin
- Sqlite3_Finalize(Query.Statement);
- Query.Statement := nil;
- end
- else
- RaiseError('Could not release prepared SQL statement', Query.SQL);
-end;
-{$WARNINGS ON}
-
-procedure TSQLiteDatabase.UpdateBlob(const SQL: string; BlobData: TStream);
-var
- iSize: integer;
- ptr: pointer;
- Stmt: TSQLiteStmt;
- Msg: Pchar;
- NextSQLStatement: Pchar;
- iStepResult: integer;
- iBindResult: integer;
-begin
- //expects SQL of the form 'UPDATE MYTABLE SET MYFIELD = ? WHERE MYKEY = 1'
- if pos('?', SQL) = 0 then
- RaiseError('SQL must include a ? parameter', SQL);
-
- Msg := nil;
- try
-
- if Sqlite3_Prepare_v2(self.fDB, PChar(SQL), -1, Stmt, NextSQLStatement) <>
- SQLITE_OK then
- RaiseError('Could not prepare SQL statement', SQL);
-
- if (Stmt = nil) then
- RaiseError('Could not prepare SQL statement', SQL);
-
- //now bind the blob data
- iSize := BlobData.size;
-
- GetMem(ptr, iSize);
-
- if (ptr = nil) then
- raise ESqliteException.CreateFmt('Error getting memory to save blob',
- [SQL, 'Error']);
-
- BlobData.position := 0;
- BlobData.Read(ptr^, iSize);
-
- iBindResult := SQLite3_Bind_Blob(stmt, 1, ptr, iSize, @DisposePointer);
-
- if iBindResult <> SQLITE_OK then
- RaiseError('Error binding blob to database', SQL);
-
- iStepResult := Sqlite3_step(Stmt);
-
- if (iStepResult <> SQLITE_DONE) then
- begin
- SQLite3_reset(stmt);
- RaiseError('Error executing SQL statement', SQL);
- end;
-
- finally
-
- if Assigned(Stmt) then
- Sqlite3_Finalize(stmt);
-
- if Assigned(Msg) then
- SQLite3_Free(Msg);
- end;
-
-end;
-
-//..............................................................................
-
-function TSQLiteDatabase.GetTable(const SQL: string): TSQLiteTable;
-begin
- Result := TSQLiteTable.Create(Self, SQL);
-end;
-
-function TSQLiteDatabase.GetTable(const SQL: string; const Bindings: array of const): TSQLiteTable;
-begin
- Result := TSQLiteTable.Create(Self, SQL, Bindings);
-end;
-
-function TSQLiteDatabase.GetUniTable(const SQL: string): TSQLiteUniTable;
-begin
- Result := TSQLiteUniTable.Create(Self, SQL);
-end;
-
-function TSQLiteDatabase.GetUniTable(const SQL: string; const Bindings: array of const): TSQLiteUniTable;
-begin
- Result := TSQLiteUniTable.Create(Self, SQL, Bindings);
-end;
-
-function TSQLiteDatabase.GetTableValue(const SQL: string): int64;
-begin
- Result := GetTableValue(SQL, []);
-end;
-
-function TSQLiteDatabase.GetTableValue(const SQL: string; const Bindings: array of const): int64;
-var
- Table: TSQLiteUniTable;
-begin
- Result := 0;
- Table := self.GetUniTable(SQL, Bindings);
- try
- if not Table.EOF then
- Result := Table.FieldAsInteger(0);
- finally
- Table.Free;
- end;
-end;
-
-function TSQLiteDatabase.GetTableString(const SQL: string): String;
-begin
- Result := GetTableString(SQL, []);
-end;
-
-function TSQLiteDatabase.GetTableString(const SQL: string; const Bindings: array of const): String;
-var
- Table: TSQLiteUniTable;
-begin
- Result := '';
- Table := self.GetUniTable(SQL, Bindings);
- try
- if not Table.EOF then
- Result := Table.FieldAsString(0);
- finally
- Table.Free;
- end;
-end;
-
-
-procedure TSQLiteDatabase.BeginTransaction;
-begin
- if not self.fInTrans then
- begin
- self.ExecSQL('BEGIN TRANSACTION');
- self.fInTrans := True;
- end
- else
- raise ESqliteException.Create('Transaction already open');
-end;
-
-procedure TSQLiteDatabase.Commit;
-begin
- self.ExecSQL('COMMIT');
- self.fInTrans := False;
-end;
-
-procedure TSQLiteDatabase.Rollback;
-begin
- self.ExecSQL('ROLLBACK');
- self.fInTrans := False;
-end;
-
-function TSQLiteDatabase.TableExists(TableName: string): boolean;
-var
- sql: string;
- ds: TSqliteTable;
-begin
- //returns true if table exists in the database
- sql := 'select [sql] from sqlite_master where [type] = ''table'' and lower(name) = ''' +
- lowercase(TableName) + ''' ';
- ds := self.GetTable(sql);
- try
- Result := (ds.Count > 0);
- finally
- ds.Free;
- end;
-end;
-
-procedure TSQLiteDatabase.SetTimeout(Value: integer);
-begin
- SQLite3_BusyTimeout(self.fDB, Value);
-end;
-
-function TSQLiteDatabase.Version: string;
-begin
- Result := SQLite3_Version;
-end;
-
-procedure TSQLiteDatabase.AddCustomCollate(name: string;
- xCompare: TCollateXCompare);
-begin
- sqlite3_create_collation(fdb, PChar(name), SQLITE_UTF8, nil, xCompare);
-end;
-
-procedure TSQLiteDatabase.AddSystemCollate;
-begin
- {$IFDEF WIN32}
- sqlite3_create_collation(fdb, 'SYSTEM', SQLITE_UTF16LE, nil, @SystemCollate);
- {$ENDIF}
-end;
-
-procedure TSQLiteDatabase.ParamsClear;
-var
- n: integer;
-begin
- for n := fParams.Count - 1 downto 0 do
- TSQliteParam(fparams[n]).free;
- fParams.Clear;
-end;
-
-procedure TSQLiteDatabase.AddParamInt(name: string; value: int64);
-var
- par: TSQliteParam;
-begin
- par := TSQliteParam.Create;
- par.name := name;
- par.valuetype := SQLITE_INTEGER;
- par.valueinteger := value;
- fParams.Add(par);
-end;
-
-procedure TSQLiteDatabase.AddParamFloat(name: string; value: double);
-var
- par: TSQliteParam;
-begin
- par := TSQliteParam.Create;
- par.name := name;
- par.valuetype := SQLITE_FLOAT;
- par.valuefloat := value;
- fParams.Add(par);
-end;
-
-procedure TSQLiteDatabase.AddParamText(name: string; value: string);
-var
- par: TSQliteParam;
-begin
- par := TSQliteParam.Create;
- par.name := name;
- par.valuetype := SQLITE_TEXT;
- par.valuedata := value;
- fParams.Add(par);
-end;
-
-procedure TSQLiteDatabase.AddParamNull(name: string);
-var
- par: TSQliteParam;
-begin
- par := TSQliteParam.Create;
- par.name := name;
- par.valuetype := SQLITE_NULL;
- fParams.Add(par);
-end;
-
-procedure TSQLiteDatabase.SetParams(Stmt: TSQLiteStmt);
-var
- n: integer;
- i: integer;
- par: TSQliteParam;
-begin
- try
- for n := 0 to fParams.Count - 1 do
- begin
- par := TSQliteParam(fParams[n]);
- i := sqlite3_bind_parameter_index(Stmt, PChar(par.name));
- if i > 0 then
- begin
- case par.valuetype of
- SQLITE_INTEGER:
- sqlite3_bind_int64(Stmt, i, par.valueinteger);
- SQLITE_FLOAT:
- sqlite3_bind_double(Stmt, i, par.valuefloat);
- SQLITE_TEXT:
- sqlite3_bind_text(Stmt, i, pchar(par.valuedata),
- length(par.valuedata), SQLITE_TRANSIENT);
- SQLITE_NULL:
- sqlite3_bind_null(Stmt, i);
- end;
- end;
- end;
- finally
- ParamsClear;
- end;
-end;
-
-//database rows that were changed (or inserted or deleted) by the most recent SQL statement
-function TSQLiteDatabase.GetRowsChanged: integer;
-begin
- Result := SQLite3_Changes(self.fDB);
-end;
-
-//------------------------------------------------------------------------------
-// TSQLiteTable
-//------------------------------------------------------------------------------
-
-constructor TSQLiteTable.Create(DB: TSQLiteDatabase; const SQL: string);
-begin
- Create(DB, SQL, []);
-end;
-
-constructor TSQLiteTable.Create(DB: TSQLiteDatabase; const SQL: string; const Bindings: array of const);
-var
- Stmt: TSQLiteStmt;
- NextSQLStatement: Pchar;
- iStepResult: integer;
- ptr: pointer;
- iNumBytes: integer;
- thisBlobValue: TMemoryStream;
- thisStringValue: pstring;
- thisDoubleValue: pDouble;
- thisIntValue: pInt64;
- thisColType: pInteger;
- i: integer;
- DeclaredColType: Pchar;
- ActualColType: integer;
- ptrValue: Pchar;
-begin
- inherited create;
- try
- self.fRowCount := 0;
- self.fColCount := 0;
- //if there are several SQL statements in SQL, NextSQLStatment points to the
- //beginning of the next one. Prepare only prepares the first SQL statement.
- if Sqlite3_Prepare_v2(DB.fDB, PChar(SQL), -1, Stmt, NextSQLStatement) <> SQLITE_OK then
- DB.RaiseError('Error executing SQL', SQL);
- if (Stmt = nil) then
- DB.RaiseError('Could not prepare SQL statement', SQL);
-
- DB.SetParams(Stmt);
- DB.BindData(Stmt, Bindings);
-
- iStepResult := Sqlite3_step(Stmt);
- while (iStepResult <> SQLITE_DONE) do
- begin
- case iStepResult of
- SQLITE_ROW:
- begin
- Inc(fRowCount);
- if (fRowCount = 1) then
- begin
- //get data types
- fCols := TStringList.Create;
- fColTypes := TList.Create;
- fColCount := SQLite3_ColumnCount(stmt);
- for i := 0 to Pred(fColCount) do
- fCols.Add(AnsiUpperCase(Sqlite3_ColumnName(stmt, i)));
- for i := 0 to Pred(fColCount) do
- begin
- new(thisColType);
- DeclaredColType := Sqlite3_ColumnDeclType(stmt, i);
- if DeclaredColType = nil then
- thisColType^ := Sqlite3_ColumnType(stmt, i) //use the actual column type instead
- //seems to be needed for last_insert_rowid
- else
- if (DeclaredColType = 'INTEGER') or (DeclaredColType = 'BOOLEAN') then
- thisColType^ := dtInt
- else
- if (DeclaredColType = 'NUMERIC') or
- (DeclaredColType = 'FLOAT') or
- (DeclaredColType = 'DOUBLE') or
- (DeclaredColType = 'REAL') then
- thisColType^ := dtNumeric
- else
- if DeclaredColType = 'BLOB' then
- thisColType^ := dtBlob
- else
- thisColType^ := dtStr;
- fColTypes.Add(thiscoltype);
- end;
- fResults := TList.Create;
- end;
-
- //get column values
- for i := 0 to Pred(ColCount) do
- begin
- ActualColType := Sqlite3_ColumnType(stmt, i);
- if (ActualColType = SQLITE_NULL) then
- fResults.Add(nil)
- else
- if pInteger(fColTypes[i])^ = dtInt then
- begin
- new(thisintvalue);
- thisintvalue^ := Sqlite3_ColumnInt64(stmt, i);
- fResults.Add(thisintvalue);
- end
- else
- if pInteger(fColTypes[i])^ = dtNumeric then
- begin
- new(thisdoublevalue);
- thisdoublevalue^ := Sqlite3_ColumnDouble(stmt, i);
- fResults.Add(thisdoublevalue);
- end
- else
- if pInteger(fColTypes[i])^ = dtBlob then
- begin
- iNumBytes := Sqlite3_ColumnBytes(stmt, i);
- if iNumBytes = 0 then
- thisblobvalue := nil
- else
- begin
- thisblobvalue := TMemoryStream.Create;
- thisblobvalue.position := 0;
- ptr := Sqlite3_ColumnBlob(stmt, i);
- thisblobvalue.writebuffer(ptr^, iNumBytes);
- end;
- fResults.Add(thisblobvalue);
- end
- else
- begin
- new(thisstringvalue);
- ptrValue := Sqlite3_ColumnText(stmt, i);
- setstring(thisstringvalue^, ptrvalue, strlen(ptrvalue));
- fResults.Add(thisstringvalue);
- end;
- end;
- end;
- SQLITE_BUSY:
- raise ESqliteException.CreateFmt('Could not prepare SQL statement',
- [SQL, 'SQLite is Busy']);
- else
- begin
- SQLite3_reset(stmt);
- DB.RaiseError('Could not retrieve data', SQL);
- end;
- end;
- iStepResult := Sqlite3_step(Stmt);
- end;
- fRow := 0;
- finally
- if Assigned(Stmt) then
- Sqlite3_Finalize(stmt);
- end;
-end;
-
-//..............................................................................
-
-destructor TSQLiteTable.Destroy;
-var
- i: cardinal;
- iColNo: integer;
-begin
- if Assigned(fResults) then
- begin
- for i := 0 to fResults.Count - 1 do
- begin
- //check for blob type
- iColNo := (i mod fColCount);
- case pInteger(self.fColTypes[iColNo])^ of
- dtBlob:
- TMemoryStream(fResults[i]).Free;
- dtStr:
- if fResults[i] <> nil then
- begin
- setstring(string(fResults[i]^), nil, 0);
- dispose(fResults[i]);
- end;
- else
- dispose(fResults[i]);
- end;
- end;
- fResults.Free;
- end;
- if Assigned(fCols) then
- fCols.Free;
- if Assigned(fColTypes) then
- for i := 0 to fColTypes.Count - 1 do
- dispose(fColTypes[i]);
- fColTypes.Free;
- inherited;
-end;
-
-//..............................................................................
-
-function TSQLiteTable.GetColumns(I: integer): string;
-begin
- Result := fCols[I];
-end;
-
-//..............................................................................
-
-function TSQLiteTable.GetCountResult: integer;
-begin
- if not EOF then
- Result := StrToInt(Fields[0])
- else
- Result := 0;
-end;
-
-function TSQLiteTable.GetCount: integer;
-begin
- Result := FRowCount;
-end;
-
-//..............................................................................
-
-function TSQLiteTable.GetEOF: boolean;
-begin
- Result := fRow >= fRowCount;
-end;
-
-function TSQLiteTable.GetBOF: boolean;
-begin
- Result := fRow <= 0;
-end;
-
-//..............................................................................
-
-function TSQLiteTable.GetFieldByName(FieldName: string): string;
-begin
- Result := GetFields(self.GetFieldIndex(FieldName));
-end;
-
-function TSQLiteTable.GetFieldIndex(FieldName: string): integer;
-begin
- if (fCols = nil) then
- begin
- raise ESqliteException.Create('Field ' + fieldname + ' Not found. Empty dataset');
- exit;
- end;
-
- if (fCols.count = 0) then
- begin
- raise ESqliteException.Create('Field ' + fieldname + ' Not found. Empty dataset');
- exit;
- end;
-
- Result := fCols.IndexOf(AnsiUpperCase(FieldName));
-
- if (result < 0) then
- begin
- raise ESqliteException.Create('Field not found in dataset: ' + fieldname)
- end;
-end;
-
-//..............................................................................
-
-function TSQLiteTable.GetFields(I: cardinal): string;
-var
- thisvalue: pstring;
- thistype: integer;
-begin
- Result := '';
- if EOF then
- raise ESqliteException.Create('Table is at End of File');
- //integer types are not stored in the resultset
- //as strings, so they should be retrieved using the type-specific
- //methods
- thistype := pInteger(self.fColTypes[I])^;
-
- case thistype of
- dtStr:
- begin
- thisvalue := self.fResults[(self.frow * self.fColCount) + I];
- if (thisvalue <> nil) then
- Result := thisvalue^
- else
- Result := '';
- end;
- dtInt:
- Result := IntToStr(self.FieldAsInteger(I));
- dtNumeric:
- Result := FloatToStr(self.FieldAsDouble(I));
- dtBlob:
- Result := self.FieldAsBlobText(I);
- else
- Result := '';
- end;
-end;
-
-function TSqliteTable.FieldAsBlob(I: cardinal): TMemoryStream;
-begin
- if EOF then
- raise ESqliteException.Create('Table is at End of File');
- if (self.fResults[(self.frow * self.fColCount) + I] = nil) then
- Result := nil
- else
- if pInteger(self.fColTypes[I])^ = dtBlob then
- Result := TMemoryStream(self.fResults[(self.frow * self.fColCount) + I])
- else
- raise ESqliteException.Create('Not a Blob field');
-end;
-
-function TSqliteTable.FieldAsBlobText(I: cardinal): string;
-var
- MemStream: TMemoryStream;
- Buffer: PChar;
-begin
- Result := '';
- MemStream := self.FieldAsBlob(I);
- if MemStream <> nil then
- if MemStream.Size > 0 then
- begin
- MemStream.position := 0;
- Buffer := stralloc(MemStream.Size + 1);
- MemStream.readbuffer(Buffer[0], MemStream.Size);
- (Buffer + MemStream.Size)^ := chr(0);
- SetString(Result, Buffer, MemStream.size);
- strdispose(Buffer);
- end;
-end;
-
-
-function TSqliteTable.FieldAsInteger(I: cardinal): int64;
-begin
- if EOF then
- raise ESqliteException.Create('Table is at End of File');
- if (self.fResults[(self.frow * self.fColCount) + I] = nil) then
- Result := 0
- else
- if pInteger(self.fColTypes[I])^ = dtInt then
- Result := pInt64(self.fResults[(self.frow * self.fColCount) + I])^
- else
- if pInteger(self.fColTypes[I])^ = dtNumeric then
- Result := trunc(strtofloat(pString(self.fResults[(self.frow * self.fColCount) + I])^))
- else
- raise ESqliteException.Create('Not an integer or numeric field');
-end;
-
-function TSqliteTable.FieldAsDouble(I: cardinal): double;
-begin
- if EOF then
- raise ESqliteException.Create('Table is at End of File');
- if (self.fResults[(self.frow * self.fColCount) + I] = nil) then
- Result := 0
- else
- if pInteger(self.fColTypes[I])^ = dtInt then
- Result := pInt64(self.fResults[(self.frow * self.fColCount) + I])^
- else
- if pInteger(self.fColTypes[I])^ = dtNumeric then
- Result := pDouble(self.fResults[(self.frow * self.fColCount) + I])^
- else
- raise ESqliteException.Create('Not an integer or numeric field');
-end;
-
-function TSqliteTable.FieldAsString(I: cardinal): string;
-begin
- if EOF then
- raise ESqliteException.Create('Table is at End of File');
- if (self.fResults[(self.frow * self.fColCount) + I] = nil) then
- Result := ''
- else
- Result := self.GetFields(I);
-end;
-
-function TSqliteTable.FieldIsNull(I: cardinal): boolean;
-var
- thisvalue: pointer;
-begin
- if EOF then
- raise ESqliteException.Create('Table is at End of File');
- thisvalue := self.fResults[(self.frow * self.fColCount) + I];
- Result := (thisvalue = nil);
-end;
-
-//..............................................................................
-
-function TSQLiteTable.Next: boolean;
-begin
- Result := False;
- if not EOF then
- begin
- Inc(fRow);
- Result := True;
- end;
-end;
-
-function TSQLiteTable.Previous: boolean;
-begin
- Result := False;
- if not BOF then
- begin
- Dec(fRow);
- Result := True;
- end;
-end;
-
-function TSQLiteTable.MoveFirst: boolean;
-begin
- Result := False;
- if self.fRowCount > 0 then
- begin
- fRow := 0;
- Result := True;
- end;
-end;
-
-function TSQLiteTable.MoveLast: boolean;
-begin
- Result := False;
- if self.fRowCount > 0 then
- begin
- fRow := fRowCount - 1;
- Result := True;
- end;
-end;
-
-{$WARNINGS OFF}
-function TSQLiteTable.MoveTo(position: Integer): boolean;
-begin
- Result := False;
- if (self.fRowCount > 0) and (self.fRowCount > position) then
- begin
- fRow := position;
- Result := True;
- end;
-end;
-{$WARNINGS ON}
-
-
-
-{ TSQLiteUniTable }
-
-constructor TSQLiteUniTable.Create(DB: TSQLiteDatabase; const SQL: string);
-begin
- Create(DB, SQL, []);
-end;
-
-constructor TSQLiteUniTable.Create(DB: TSQLiteDatabase; const SQL: string; const Bindings: array of const);
-var
- NextSQLStatement: Pchar;
- thisColType: pInteger;
- i: integer;
- DeclaredColType: Pchar;
-begin
- inherited create;
- self.fDB := db;
- self.fEOF := false;
- self.fRow := 0;
- self.fColCount := 0;
- self.fSQL := SQL;
- if Sqlite3_Prepare_v2(DB.fDB, PChar(SQL), -1, fStmt, NextSQLStatement) <> SQLITE_OK then
- DB.RaiseError('Error executing SQL', SQL);
- if (fStmt = nil) then
- DB.RaiseError('Could not prepare SQL statement', SQL);
-
- DB.SetParams(fStmt);
- DB.BindData(fStmt, Bindings);
-
- //get data types
- fCols := TStringList.Create;
- fColCount := SQLite3_ColumnCount(fstmt);
- for i := 0 to Pred(fColCount) do
- fCols.Add(AnsiUpperCase(Sqlite3_ColumnName(fstmt, i)));
-
- Next;
-end;
-
-destructor TSQLiteUniTable.Destroy;
-var
- i: integer;
-begin
- if Assigned(fStmt) then
- Sqlite3_Finalize(fstmt);
- if Assigned(fCols) then
- fCols.Free;
- inherited;
-end;
-
-function TSQLiteUniTable.FieldAsBlob(I: cardinal): TMemoryStream;
-var
- iNumBytes: integer;
- ptr: pointer;
-begin
- Result := TMemoryStream.Create;
- iNumBytes := Sqlite3_ColumnBytes(fstmt, i);
- if iNumBytes > 0 then
- begin
- ptr := Sqlite3_ColumnBlob(fstmt, i);
- Result.writebuffer(ptr^, iNumBytes);
- Result.Position := 0;
- end;
-end;
-
-function TSQLiteUniTable.FieldAsBlobPtr(I: cardinal; out iNumBytes: integer): Pointer;
-begin
- iNumBytes := Sqlite3_ColumnBytes(fstmt, i);
- Result := Sqlite3_ColumnBlob(fstmt, i);
-end;
-
-function TSQLiteUniTable.FieldAsBlobText(I: cardinal): string;
-var
- MemStream: TMemoryStream;
- Buffer: PChar;
-begin
- Result := '';
- MemStream := self.FieldAsBlob(I);
- if MemStream <> nil then
- if MemStream.Size > 0 then
- begin
- MemStream.position := 0;
- Buffer := stralloc(MemStream.Size + 1);
- MemStream.readbuffer(Buffer[0], MemStream.Size);
- (Buffer + MemStream.Size)^ := chr(0);
- SetString(Result, Buffer, MemStream.size);
- strdispose(Buffer);
- end;
-end;
-
-function TSQLiteUniTable.FieldAsDouble(I: cardinal): double;
-begin
- Result := Sqlite3_ColumnDouble(fstmt, i);
-end;
-
-function TSQLiteUniTable.FieldAsInteger(I: cardinal): int64;
-begin
- Result := Sqlite3_ColumnInt64(fstmt, i);
-end;
-
-function TSQLiteUniTable.FieldAsString(I: cardinal): string;
-begin
- Result := self.GetFields(I);
-end;
-
-function TSQLiteUniTable.FieldIsNull(I: cardinal): boolean;
-begin
- Result := Sqlite3_ColumnText(fstmt, i) = nil;
-end;
-
-function TSQLiteUniTable.GetColumns(I: integer): string;
-begin
- Result := fCols[I];
-end;
-
-function TSQLiteUniTable.GetFieldByName(FieldName: string): string;
-begin
- Result := GetFields(self.GetFieldIndex(FieldName));
-end;
-
-function TSQLiteUniTable.GetFieldIndex(FieldName: string): integer;
-begin
- if (fCols = nil) then
- begin
- raise ESqliteException.Create('Field ' + fieldname + ' Not found. Empty dataset');
- exit;
- end;
-
- if (fCols.count = 0) then
- begin
- raise ESqliteException.Create('Field ' + fieldname + ' Not found. Empty dataset');
- exit;
- end;
-
- Result := fCols.IndexOf(AnsiUpperCase(FieldName));
-
- if (result < 0) then
- begin
- raise ESqliteException.Create('Field not found in dataset: ' + fieldname)
- end;
-end;
-
-function TSQLiteUniTable.GetFields(I: cardinal): string;
-begin
- Result := Sqlite3_ColumnText(fstmt, i);
-end;
-
-function TSQLiteUniTable.Next: boolean;
-var
- iStepResult: integer;
-begin
- fEOF := true;
- iStepResult := Sqlite3_step(fStmt);
- case iStepResult of
- SQLITE_ROW:
- begin
- fEOF := false;
- inc(fRow);
- end;
- SQLITE_DONE:
- // we are on the end of dataset
- // return EOF=true only
- ;
- else
- begin
- SQLite3_reset(fStmt);
- fDB.RaiseError('Could not retrieve data', fSQL);
- end;
- end;
- Result := not fEOF;
-end;
-
-end.
-