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 sqlite_get_table.
It allows accessing fields by name as well as index and can step through a
result set with the Next procedure.
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}
{$ENDIF}
uses
{$ifdef win32}
Windows,
{$endif}
SQLite3,
Classes,
SysUtils;
const
dtInt = 1;
dtNumeric = 2;
dtStr = 3;
dtBlob = 4;
dtNull = 5;
type
ESQLiteException = class(Exception)
end;
TSQLiteTable = class;
TSQLiteDatabase = class
private
fDB: TSQLiteDB;
fInTrans: boolean;
procedure RaiseError(s: string; SQL: string);
public
constructor Create(const FileName: string);
destructor Destroy; override;
function GetTable(const SQL: string): TSQLiteTable;
procedure ExecSQL(const SQL: string);
function GetTableValue(const SQL: string): int64;
function GetTableFloat(const SQL: string): real;
function GetTableString(const SQL: string): string;
procedure UpdateBlob(const SQL: string; BlobData: TStream);
procedure BeginTransaction;
procedure Commit;
procedure Rollback;
function TableExists(TableName: string): boolean;
function ContainsColumn(Table: String; Column: String) : boolean;
function GetLastInsertRowID: int64;
procedure SetTimeout(Value: integer);
function version: string;
published
property isTransactionOpen: boolean read fInTrans;
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);
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;
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;
procedure DisposePointer(ptr: pointer); cdecl;
implementation
procedure DisposePointer(ptr: pointer); cdecl;
begin
if assigned(ptr) then
freemem(ptr);
end;
//------------------------------------------------------------------------------
// TSQLiteDatabase
//------------------------------------------------------------------------------
constructor TSQLiteDatabase.Create(const FileName: string);
var
Msg: pchar;
iResult: integer;
begin
inherited Create;
self.fInTrans := False;
Msg := nil;
try
iResult := SQLite3_Open(PChar(FileName), 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
self.ExecSQL('PRAGMA SYNCHRONOUS=NORMAL;');
// self.ExecSQL('PRAGMA full_column_names = 1;');
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.ExecSQL('ROLLBACK;'); //assume rollback
if Assigned(fDB) then
SQLite3_Close(fDB);
inherited;
end;
function TSQLiteDatabase.GetLastInsertRowID: int64;
begin
Result := Sqlite3_LastInsertRowID(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;
begin
Msg := nil;
if sqlite3_errcode(self.fDB) <> SQLITE_OK then
Msg := sqlite3_errmsg(self.fDB);
if Msg <> nil then
raise ESqliteException.CreateFmt(s + ' "%s" : %s', [SQL, Msg])
else
raise ESqliteException.CreateFmt(s, [SQL, 'No message']);
end;
procedure TSQLiteDatabase.ExecSQL(const SQL: string);
var
Stmt: TSQLiteStmt;
NextSQLStatement: Pchar;
iStepResult: integer;
begin
try
if Sqlite3_Prepare(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);
iStepResult := Sqlite3_step(Stmt);
if (iStepResult <> SQLITE_DONE) then
RaiseError('Error executing SQL statement', SQL);
finally
if Assigned(Stmt) then
Sqlite3_Finalize(stmt);
end;
end;
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(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_BindBlob(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
RaiseError('Error executing SQL statement', SQL);
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.GetTableValue(const SQL: string): int64;
var
Table: TSQLiteTable;
begin
Table := self.GetTable(SQL);
try
Result := Table.FieldAsInteger(0);
finally
Table.Free;
end;
end;
function TSQLiteDatabase.GetTableFloat(const SQL: string): real;
var
Table: TSQLiteTable;
begin
Table := self.GetTable(SQL);
try
Result := Table.FieldAsDouble(0);
finally
Table.Free;
end;
end;
function TSQLiteDatabase.GetTableString(const SQL: string): string;
var
Table: TSQLiteTable;
begin
Table := self.GetTable(SQL);
try
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;
//from usdx 1.1 alpha
function TSQLiteDatabase.ContainsColumn(Table: String; Column: String) : boolean;
var
sql: string;
ds: TSqliteTable;
i : integer;
begin
sql := 'PRAGMA TABLE_INFO('+Table+');';
ds := self.GetTable(sql);
try
Result := false;
while (ds.Next() and not Result and not ds.EOF) do
begin
if ds.FieldAsString(1) = Column then
Result := true;
end;
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;
//------------------------------------------------------------------------------
// TSQLiteTable
//------------------------------------------------------------------------------
constructor TSQLiteTable.Create(DB: TSQLiteDatabase; const SQL: string);
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
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(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);
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 = 'INT') 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
DB.RaiseError('Could not retrieve data', SQL);
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');
Result := 0
else 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;
end.