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SynDBDataset.pas
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SynDBDataset.pas
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/// DB.pas TDataset-based direct access classes (abstract TQuery-like)
// - this unit is a part of the freeware Synopse framework,
// licensed under a MPL/GPL/LGPL tri-license; version 1.18
unit SynDBDataset;
{
This file is part of Synopse framework.
Synopse framework. Copyright (C) 2016 Arnaud Bouchez
Synopse Informatique - http://synopse.info
*** BEGIN LICENSE BLOCK *****
Version: MPL 1.1/GPL 2.0/LGPL 2.1
The contents of this file are subject to the Mozilla Public License Version
1.1 (the "License"); you may not use this file except in compliance with
the License. You may obtain a copy of the License at
http://www.mozilla.org/MPL
Software distributed under the License is distributed on an "AS IS" basis,
WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
for the specific language governing rights and limitations under the License.
The Original Code is Synopse mORMot framework.
The Initial Developer of the Original Code is Arnaud Bouchez.
Portions created by the Initial Developer are Copyright (C) 2016
the Initial Developer. All Rights Reserved.
Contributor(s):
- itSDS
Alternatively, the contents of this file may be used under the terms of
either the GNU General Public License Version 2 or later (the "GPL"), or
the GNU Lesser General Public License Version 2.1 or later (the "LGPL"),
in which case the provisions of the GPL or the LGPL are applicable instead
of those above. If you wish to allow use of your version of this file only
under the terms of either the GPL or the LGPL, and not to allow others to
use your version of this file under the terms of the MPL, indicate your
decision by deleting the provisions above and replace them with the notice
and other provisions required by the GPL or the LGPL. If you do not delete
the provisions above, a recipient may use your version of this file under
the terms of any one of the MPL, the GPL or the LGPL.
***** END LICENSE BLOCK *****
Version 1.18
- first public release, corresponding to mORMot framework 1.18
}
{$I Synopse.inc} // define HASINLINE USETYPEINFO CPU32 CPU64 OWNNORMTOUPPER
interface
uses
Windows, SysUtils,
{$IFNDEF DELPHI5OROLDER}
Variants,
{$ENDIF}
Classes, Contnrs,
SynCommons,
SynLog,
SynDB,
{$ifdef ISDELPHIXE2}
Data.DB, Data.FMTBcd;
{$else}
DB, FMTBcd;{$endif}
{ -------------- DB.pas TDataSet (TQuery like) abstract connection }
type
{$ifndef ISDELPHIXE4}
TValueBuffer = Pointer;
{$endif}
/// Exception type associated to generic TDataSet / DB.pas unit Dataset connection
ESQLDBDataset = class(ESQLDBException);
/// implement properties shared by via the DB.pas TQuery-like connections
TSQLDBDatasetConnectionProperties = class(TSQLDBConnectionPropertiesThreadSafe)
protected
{$ifndef UNICODE}
fForceInt64AsFloat: boolean;
{$endif}
fForceUseWideString: boolean;
public
/// initialize the properties to connect via TDataSet database access
// - this overridden method will enable the BATCH process (emulated in
// TSQLDBDatasetStatement.ExecutePrepared, native e.g. for FireDAC)
constructor Create(const aServerName, aDatabaseName, aUserID, aPassWord: RawUTF8); override;
{$ifndef UNICODE}
/// set to true to force all Int64 content to be processed as a truncated float
// - by default, Int64 values will be bound either as an integer (if the
// value is within expected range), either as Int64 variant
// - on some versions of Delphi, and some version of TDataSet (e.g. BDE),
// you may have to use a conversion to double to avoid a runtime error
property ForceInt64AsFloat: boolean read fForceInt64AsFloat write fForceInt64AsFloat;
{$endif}
/// set to true to force all text content to be processed as WideString
// instead of the default faster AnsiString, for pre-Unicode version of Delphi
// - by default, UTF-8 text parameter or column will use an AnsiString value:
// for pre-Unicode Delphi, avoiding WideString/OleStr content
// will speed up the process a lot, if you are sure that the current
// charset matches the expected one (which is very likely)
// - set this property to TRUE so that WideString will be used when working
// with the internal TDataSet, to avoid any character data loss:
// the access to the property will be slower, but you won't have any
// potential data loss
// - if the text value contains only ASCII 7 bit characters, it won't be
// converted to WideString (since it is not necessary)
// - starting with Delphi 2009, the TEXT content will be processed as an
// UnicodeString, so this property is not necessary for most cases,
// but it appeared that some providers expects it to be defined
property ForceUseWideString: boolean read fForceUseWideString write fForceUseWideString;
end;
/// implements an abstract statement via the DB.pas TDataSet/TQuery-like
// connection
// - dedicated abstract class, able to use any TDataSet with any kind of
// parameter linking (e.g. FireDAC/AnyDAC do have its own parameters type)
TSQLDBDatasetStatementAbstract = class(TSQLDBStatementWithParamsAndColumns)
protected
fQuery: TDataSet;
fPrepared: boolean;
fDatasetSupportBatchBinding: boolean;
fPreparedParamsCount: integer;
fForceUseWideString: boolean;
protected
/// convert SQLDBParamType to a standard DB.TParamType to be used in TQuery.Param
function SQLParamTypeToDBParamType(IO: TSQLDBParamInOutType): TParamType; virtual;
/// convert DB.TFieldType into mORMot fieldtype
function ColumnTypeNativeToDB(aNativeType: TFieldType): TSQLDBFieldType; virtual;
/// retrieve a given column
function DatasetField(col: Integer): TField; virtual;
protected // inherited classes shall override those abstract virtual methods
/// should initialize and set fQuery internal field as expected
procedure DatasetCreate; virtual; abstract;
/// should set the internal fQueryParams protected field
function DatasetPrepare(const aSQL: string): boolean; virtual; abstract;
/// execute underlying TQuery.ExecSQL
procedure DatasetExecSQL; virtual; abstract;
/// bind SQLDBParam to TQuery-like param
// - aArrayIndex is >= 0 if array index should be used (in this case,
// fDatasetSupportBatchBinding=false)
// - if fDatasetSupportBatchBinding=true, should use array DML binding
// - SQL Parameter to bind is aParam
procedure DataSetBindSQLParam(const aArrayIndex, aParamIndex: integer;
const aParam: TSQLDBParam); virtual; abstract;
/// set the returned parameter after a stored proc execution
procedure DataSetOutSQLParam(const aParamIndex: integer;
var aParam: TSQLDBParam); virtual; abstract;
public
/// create a statement instance
constructor Create(aConnection: TSQLDBConnection); override;
/// release the prepared statement
destructor Destroy; override;
/// Prepare an UTF-8 encoded SQL statement
// - parameters marked as ? will be bound later, before ExecutePrepared call
// - if ExpectResults is TRUE, then Step() and Column*() methods are available
// to retrieve the data rows
// - raise an ESQLDBDataset on any error
procedure Prepare(const aSQL: RawUTF8; ExpectResults: boolean = false); overload; override;
/// Execute a prepared SQL statement
// - parameters marked as ? should have been already bound with Bind*() functions
// - this implementation will also loop through all internal bound array
// of values (if any), to implement BATCH mode even if the database library
// does not support array binding (only SynDBFireDAC does support it yet)
// - this overridden method will log the SQL statement if sllSQL has been
// enabled in SynDBLog.Family.Level
// - raise an ESQLDBDataset on any error
procedure ExecutePrepared; override;
/// Reset the previous prepared statement
// - this overridden implementation will reset all bindings and the cursor state
// - raise an ESQLDBDataset on any error
procedure Reset; override;
/// Access the next or first row of data from the SQL Statement result
// - return true on success, with data ready to be retrieved by Column*() methods
// - return false if no more row is available (e.g. if the SQL statement
// is not a SELECT but an UPDATE or INSERT command)
// - if SeekFirst is TRUE, will put the cursor on the first row of results
// - raise an ESQLDBDataset on any error
function Step(SeekFirst: boolean = false): boolean; override;
/// return a Column integer value of the current Row, first Col is 0
function ColumnInt(Col: Integer): Int64; override;
/// returns TRUE if the column contains NULL
function ColumnNull(Col: Integer): boolean; override;
/// return a Column floating point value of the current Row, first Col is 0
function ColumnDouble(Col: Integer): double; override;
/// return a Column date and time value of the current Row, first Col is 0
function ColumnDateTime(Col: Integer): TDateTime; override;
/// return a Column currency value of the current Row, first Col is 0
function ColumnCurrency(Col: Integer): currency; override;
/// return a Column UTF-8 encoded text value of the current Row, first Col is 0
function ColumnUTF8(Col: Integer): RawUTF8; override;
/// return a Column as a blob value of the current Row, first Col is 0
function ColumnBlob(Col: Integer): RawByteString; override;
/// append all columns values of the current Row to a JSON stream
// - will use WR.Expand to guess the expected output format
// - BLOB field value is saved as Base64, in the '"\uFFF0base64encodedbinary"
// format and contains true BLOB data
procedure ColumnsToJSON(WR: TJSONWriter); override;
end;
/// implements a statement via the DB.pas TDataSet/TQuery-like connection
// - you should not use this abstract class directly, but one inherited
// implementation with overridden Dataset*() protected methods to handle the
// internal fQuery: TDataSet property
TSQLDBDatasetStatement = class(TSQLDBDatasetStatementAbstract)
protected
fQueryParams: TParams;
/// bind SQLDBParam to TQuery-like param using fQueryParams: DB.TParams
procedure DataSetBindSQLParam(const aArrayIndex, aParamIndex: integer;
const aParam: TSQLDBParam); override;
/// set the returned parameter after a stored proc execution
procedure DataSetOutSQLParam(const aParamIndex: integer;
var aParam: TSQLDBParam); override;
public
/// Prepare an UTF-8 encoded SQL statement
// - parameters marked as ? will be bound later, before ExecutePrepared call
// - if ExpectResults is TRUE, then Step() and Column*() methods are available
// to retrieve the data rows
// - raise an ESQLDBDataset on any error
procedure Prepare(const aSQL: RawUTF8; ExpectResults: boolean = false); overload; override;
end;
/// append a TBcd value as text to the output buffer
// - very optimized for speed
procedure AddBcd(WR: TTextWriter; const AValue: TBcd);
/// convert a TBcd value as text to the output buffer
// - buffer is to be array[0..66] of AnsiChar
// - returns the resulting text start in PBeg, and the length as function result
// - does not handle negative sign and 0 value - see AddBcd() function use case
// - very optimized for speed
function InternalBCDToBuffer(const AValue: TBcd; ADest: PAnsiChar; var PBeg: PAnsiChar): integer;
implementation
const
IsTLargeIntField = 1;
IsTWideStringField = 2;
function InternalBCDToBuffer(const AValue: TBcd; ADest: PAnsiChar; var PBeg: PAnsiChar): integer;
var i,DecimalPos: integer;
P,Frac: PByte;
PEnd: PAnsiChar;
begin
result := 0;
if AValue.Precision=0 then
exit;
DecimalPos := AValue.Precision-(AValue.SignSpecialPlaces and $3F);
P := pointer(ADest);
Frac := @Avalue.Fraction;
for i := 0 to AValue.Precision-1 do begin
if i=DecimalPos then
if i=0 then begin
PWord(P)^ := ord('0')+ord('.')shl 8;
inc(P,2);
end else begin
P^ := ord('.');
inc(P);
end;
if (i and 1)=0 then
P^ := ((Frac^ and $F0) shr 4)+ord('0') else begin
P^ := ((Frac^ and $0F))+ord('0');
inc(Frac);
end;
inc(P);
end;
// remove trailing 0 after decimal
if AValue.Precision>DecimalPos then begin
repeat dec(P) until (P^<>ord('0')) or (P=pointer(ADest));
PEnd := pointer(P);
if PEnd^<>'.' then
inc(PEnd);
end else
PEnd := pointer(P);
PEnd^ := #0;
// remove leading 0
PBeg := ADest;
while (PBeg[0]='0') and (PBeg[1] in ['0'..'9']) do inc(PBeg);
result := PEnd-PBeg;
end;
procedure AddBcd(WR: TTextWriter; const AValue: TBcd);
var len: integer;
PBeg: PAnsiChar;
tmp: array[0..66] of AnsiChar;
begin
len := InternalBCDToBuffer(AValue,@tmp,PBeg);
if len<=0 then
WR.Add('0') else begin
if AValue.SignSpecialPlaces and $80=$80 then
WR.Add('-');
WR.AddNoJSONEscape(PBeg,len);
end;
end;
{$ifdef ISDELPHIXE} // latest purepascal version is slower than this
function BCDToCurr(const AValue: TBcd; var Curr: Currency): boolean;
var len: integer;
PBeg: PAnsiChar;
tmp: array[0..66] of AnsiChar;
begin
len := InternalBCDToBuffer(AValue,@tmp,PBeg);
if len<=0 then
Curr := 0 else begin
PInt64(@Curr)^ := StrToCurr64(pointer(PBeg));
if AValue.SignSpecialPlaces and $80=$80 then
Curr := -Curr;
end;
result := true;
end;
{$endif}
{ TSQLDBDatasetConnectionProperties }
constructor TSQLDBDatasetConnectionProperties.Create(
const aServerName, aDatabaseName, aUserID, aPassWord: RawUTF8);
begin
inherited Create(aServerName,aDatabaseName,aUserID,aPassWord);
fBatchSendingAbilities := [cCreate,cUpdate,cDelete]; // always emulated
end;
{ TSQLDBDatasetStatementAbstract }
function TSQLDBDatasetStatementAbstract.ColumnBlob(Col: Integer): RawByteString;
var Str: TStream;
begin
result := '';
CheckCol(Col);
with fColumns[Col] do
if TField(ColumnAttr).IsNull then
exit else
if TField(ColumnAttr).IsBlob then begin
Str := TField(ColumnAttr).DataSet.CreateBlobStream(TField(ColumnAttr),bmRead);
try
if Str.Size>0 then begin
SetLength(result,Str.Size);
Str.Read(pointer(result)^,Str.Size);
end;
finally
Str.Free;
end;
end else begin
SetLength(result,TField(ColumnAttr).DataSize);
TField(ColumnAttr).GetData(TValueBuffer(result));
end;
end;
function TSQLDBDatasetStatementAbstract.ColumnCurrency(Col: Integer): currency;
begin
CheckCol(Col);
with fColumns[Col] do
if TField(ColumnAttr).IsNull then
result := 0 else
if TField(ColumnAttr).DataType in [ftBCD,ftFMTBcd] then
BCDToCurr(TField(ColumnAttr).AsBCD,result) else
result := TField(ColumnAttr).AsCurrency;
end;
function TSQLDBDatasetStatementAbstract.ColumnDateTime(Col: Integer): TDateTime;
begin
CheckCol(Col);
with fColumns[Col] do
if TField(ColumnAttr).IsNull then
result := 0 else
result := TField(ColumnAttr).AsDateTime;
end;
function TSQLDBDatasetStatementAbstract.ColumnDouble(Col: Integer): double;
begin
CheckCol(Col);
with fColumns[Col] do
if TField(ColumnAttr).IsNull then
result := 0 else
result := TField(ColumnAttr).AsFloat;
end;
function TSQLDBDatasetStatementAbstract.ColumnInt(Col: Integer): Int64;
begin
CheckCol(Col);
with fColumns[Col] do
if TField(ColumnAttr).IsNull then
result := 0 else
if TField(ColumnAttr).DataType=ftBoolean then
result := ord(TField(ColumnAttr).AsBoolean) else
{$ifdef UNICODE}
result := TField(ColumnAttr).AsLargeInt;
{$else}
if ColumnValueDBType=IsTLargeIntField then
result := TLargeintField(ColumnAttr).AsLargeInt else
result := TField(ColumnAttr).AsInteger;
{$endif}
end;
function TSQLDBDatasetStatementAbstract.ColumnNull(Col: Integer): boolean;
begin
CheckCol(Col);
result := TField(fColumns[Col].ColumnAttr).IsNull;
end;
function TSQLDBDatasetStatementAbstract.ColumnUTF8(Col: Integer): RawUTF8;
begin
CheckCol(Col);
with fColumns[Col] do
if TField(ColumnAttr).IsNull then
result := '' else
{$ifndef UNICODE}
if ColumnValueDBType=IsTWideStringField then
result := WideStringToUTF8(TWideStringField(ColumnAttr).Value) else
{$endif}
result := StringToUTF8(TField(ColumnAttr).AsString);
end;
constructor TSQLDBDatasetStatementAbstract.Create(aConnection: TSQLDBConnection);
begin
fForceUseWideString :=
(aConnection.Properties as TSQLDBDatasetConnectionProperties).ForceUseWideString;
inherited Create(aConnection);
try
DatasetCreate;
except
FreeAndNil(fQuery);
raise;
end;
end;
destructor TSQLDBDatasetStatementAbstract.Destroy;
begin
FreeAndNil(fQuery);
inherited;
end;
procedure TSQLDBDatasetStatementAbstract.Prepare(const aSQL: RawUTF8; ExpectResults: boolean);
var Log: ISynLog;
oSQL: RawUTF8;
begin
Log := SynDBLog.Enter(Self);
if fPrepared then
raise ESQLDBDataset.CreateUTF8('%.Prepare() shall be called once',[self]);
inherited Prepare(aSQL,ExpectResults); // connect if necessary
fPreparedParamsCount := ReplaceParamsByNames(aSQL,oSQL);
fPrepared := DatasetPrepare(UTF8ToString(oSQL));
if not fPrepared then
raise ESQLDBDataset.CreateUTF8('%.DatasetPrepare not prepared',[self]);
end;
procedure TSQLDBDatasetStatementAbstract.ExecutePrepared;
var Log: ISynLog;
i,p: Integer;
lArrayIndex: integer;
Field: TField;
begin
Log := SynDBLog.Enter(Self);
inherited ExecutePrepared; // set fConnection.fLastAccessTicks
with Log.Instance do
if sllSQL in Family.Level then
Log(sllSQL,SQLWithInlinedParams,self,2048);
// 1. bind parameters in fParams[] to fQuery.Params
if fPreparedParamsCount<>fParamCount then
raise ESQLDBDataset.CreateUTF8(
'%.ExecutePrepared expected % bound parameters, got %',
[self,fPreparedParamsCount,fParamCount]);
lArrayIndex := -1; // either Bind() or BindArray() with no Array DML support
repeat
if (not fDatasetSupportBatchBinding) and (fParamsArrayCount>0) then
inc(lArrayIndex); // enable BindArray() emulation
for p := 0 to fParamCount-1 do
DatasetBindSQLParam(lArrayIndex,p,fParams[p]);
// 2. Execute query (within a loop for BATCH mode)
if fExpectResults then begin
fQuery.Open;
fCurrentRow := -1;
fColumnCount := 0;
fColumn.ReHash;
fColumn.Capacity := fQuery.FieldCount;
for i := 0 to fQuery.FieldCount-1 do begin
Field := DatasetField(i);
with PSQLDBColumnProperty(fColumn.AddAndMakeUniqueName(
StringToUTF8(Field.FieldName)))^ do begin
ColumnAttr := PtrUInt(Field);
ColumnType := ColumnTypeNativeToDB(Field.DataType);
if Field.InheritsFrom(TLargeintField) then
ColumnValueDBType := IsTLargeIntField else
if Field.InheritsFrom(TWideStringField) then
ColumnValueDBType := IsTWideStringField else
ColumnValueDBType := 0;
end;
end;
end else
DatasetExecSQL;
until fDatasetSupportBatchBinding or (lArrayIndex=fParamsArrayCount-1);
// 3. handle out parameters
if fParamCount>0 then
if fParamsArrayCount>0 then
for p := 0 to fParamCount-1 do
fParams[p].VData := '' else
// single statement mode -> return any stored procedure parameter
for p := 0 to fParamCount-1 do
if fParams[p].VInOut<>paramIn then
DataSetOutSQLParam(p,fParams[p]);
end;
function TSQLDBDatasetStatementAbstract.Step(SeekFirst: boolean): boolean;
begin
if SeekFirst then begin
fQuery.First;
fCurrentRow := 1;
end else
if fCurrentRow>0 then begin
fQuery.Next;
inc(fCurrentRow);
end else
fCurrentRow := 1;
result := not fQuery.Eof;
end;
procedure TSQLDBDatasetStatementAbstract.Reset;
begin
fQuery.Close;
inherited Reset;
end;
function TSQLDBDatasetStatementAbstract.SQLParamTypeToDBParamType(IO: TSQLDBParamInOutType): TParamType;
begin
case IO of
paramIn: result := ptInput;
paramOut: result := ptOutput;
paramInOut: result := ptInputOutput;
else result := ptUnknown;
end;
end;
function TSQLDBDatasetStatementAbstract.ColumnTypeNativeToDB(aNativeType: TFieldType): TSQLDBFieldType;
begin
case aNativeType of
{$ifdef UNICODE}
ftLongWord,ftShortint,ftByte,
{$endif}
ftAutoInc,ftBoolean, ftSmallint,ftInteger,ftLargeint,ftWord:
result := SynCommons.ftInt64;
{$ifdef UNICODE}
ftSingle,ftExtended,
{$endif}
ftFloat:
result := SynCommons.ftDouble;
ftCurrency, ftBCD, ftFMTBcd:
result := SynCommons.ftCurrency;
{$ifdef UNICODE}
ftOraTimeStamp,ftOraInterval,
{$endif}
ftDate,ftTime,ftDateTime,ftTimeStamp:
result := SynCommons.ftDate;
ftBytes,ftVarBytes,ftBlob,ftGraphic,ftOraBlob:
result := SynCommons.ftBlob;
{$ifdef UNICODE}
ftFixedWideChar,ftWideMemo,
{$endif}
ftString,ftFixedChar,ftWideString,ftMemo,ftFmtMemo,ftOraClob,ftVariant,ftGuid:
result := SynCommons.ftUTF8;
else // will use TEXT for other fields (any feedback is welcome!)
result := SynCommons.ftUTF8;
end;
end;
function TSQLDBDatasetStatementAbstract.DatasetField(col: Integer): TField;
begin
result := fQuery.Fields[col];
end;
procedure TSQLDBDatasetStatementAbstract.ColumnsToJSON(WR: TJSONWriter);
var col: integer;
blob: RawByteString;
begin
if WR.Expand then
WR.Add('{');
for col := 0 to fColumnCount-1 do
with fColumns[col] do begin
if WR.Expand then
WR.AddFieldName(ColumnName); // add '"ColumnName":'
if TField(ColumnAttr).IsNull then
WR.AddShort('null') else
case ColumnType of
SynCommons.ftNull:
WR.AddShort('null');
SynCommons.ftInt64:
if TField(ColumnAttr).DataType=ftBoolean then
WR.Add(ord(TField(ColumnAttr).AsBoolean)) else
{$ifdef UNICODE}
WR.Add(TField(ColumnAttr).AsLargeInt);
{$else}
if ColumnValueDBType=IsTLargeIntField then
WR.Add(TLargeintField(ColumnAttr).AsLargeInt) else
WR.Add(TField(ColumnAttr).AsInteger);
{$endif}
SynCommons.ftDouble:
WR.AddDouble(TField(ColumnAttr).AsFloat);
SynCommons.ftCurrency:
if TField(ColumnAttr).DataType in [ftBCD,ftFMTBcd] then
AddBcd(WR,TField(ColumnAttr).AsBCD) else
WR.AddCurr64(TField(ColumnAttr).AsCurrency);
SynCommons.ftDate: begin
WR.Add('"');
WR.AddDateTime(TField(ColumnAttr).AsDateTime);
WR.Add('"');
end;
SynCommons.ftUTF8: begin
WR.Add('"');
{$ifndef UNICODE}
if ColumnValueDBType=IsTWideStringField then
WR.AddJSONEscapeW(Pointer(TWideStringField(ColumnAttr).Value)) else
{$endif}
WR.AddJSONEscapeString(TField(ColumnAttr).AsString);
WR.Add('"');
end;
SynCommons.ftBlob:
if fForceBlobAsNull then
WR.AddShort('null') else begin
blob := ColumnBlob(col);
WR.WrBase64(pointer(blob),length(blob),true); // withMagic=true
end;
else raise ESQLDBException.CreateUTF8('%: Invalid ColumnType()=%',
[self,ord(ColumnType)]);
end;
WR.Add(',');
end;
WR.CancelLastComma; // cancel last ','
if WR.Expand then
WR.Add('}');
end;
{ TSQLDBDatasetStatement }
procedure TSQLDBDatasetStatement.DataSetBindSQLParam(const aArrayIndex,
aParamIndex: integer; const aParam: TSQLDBParam);
var P: TParam;
I64: Int64;
tmp: RawUTF8;
begin
with aParam do begin
P := fQueryParams[aParamIndex];
P.ParamType := SQLParamTypeToDBParamType(VInOut);
if VinOut <> paramInOut then
case VType of
SynCommons.ftNull: begin
P.Clear;
{$ifdef UNICODE}
P.AsBlob := nil; // avoid type errors when a blob field is adressed
{$else}
P.AsString := '';
{$endif}
end;
SynCommons.ftInt64: begin
if aArrayIndex>=0 then
I64 := GetInt64(pointer(VArray[aArrayIndex])) else
I64 := VInt64;
{$ifdef UNICODE}
P.AsLargeInt := I64;
{$else}
if (Int64Rec(I64).Hi=0) or (Int64Rec(I64).Hi=Cardinal(-1)) then
P.AsInteger := I64 else
if TSQLDBDatasetConnectionProperties(Connection.Properties).
fForceInt64AsFloat then
P.AsFloat := I64 else
P.Value := I64;
{$endif}
end;
SynCommons.ftDouble:
if aArrayIndex>=0 then
P.AsFloat := GetExtended(pointer(VArray[aArrayIndex])) else
P.AsFloat := PDouble(@VInt64)^;
SynCommons.ftCurrency:
if aArrayIndex>=0 then
P.AsCurrency := StrToCurrency(pointer(VArray[aArrayIndex])) else
P.AsCurrency := PCurrency(@VInt64)^;
SynCommons.ftDate:
if aArrayIndex>=0 then begin
UnQuoteSQLStringVar(pointer(VArray[aArrayIndex]),tmp);
P.AsDateTime := Iso8601ToDateTime(tmp);
end else
P.AsDateTime := PDateTime(@VInt64)^;
SynCommons.ftUTF8:
if aArrayIndex>=0 then
if (VArray[aArrayIndex]='') and
fConnection.Properties.StoreVoidStringAsNull then
P.Clear else begin
UnQuoteSQLStringVar(pointer(VArray[aArrayIndex]),tmp);
if fForceUseWideString then
P.Value := UTF8ToWideString(tmp) else
P.AsString := UTF8ToString(tmp);
end else
if (VData='') and fConnection.Properties.StoreVoidStringAsNull then
P.Clear else
if fForceUseWideString then
P.Value := UTF8ToWideString(VData) else
P.AsString := UTF8ToString(VData);
SynCommons.ftBlob:
{$ifdef UNICODE}
if aArrayIndex>=0 then
P.SetBlobData(TValueBuffer(VArray[aArrayIndex]),Length(VArray[aArrayIndex])) else
P.SetBlobData(TValueBuffer(VData),Length(VData));
{$else}
if aArrayIndex>=0 then
P.AsString := VArray[aArrayIndex] else
P.AsString := VData;
{$endif}
else
raise ESQLDBDataset.CreateFmt(
'%.DataSetBindSQLParam: Invalid type % on bound parameter #%d',
[self,ord(VType),aParamIndex+1]);
end;
end;
end;
procedure TSQLDBDatasetStatement.DataSetOutSQLParam(
const aParamIndex: integer; var aParam: TSQLDBParam);
var Par: TParam;
{$ifdef UNICODE}
tmpBytes: TBytes;
{$endif}
begin
Par := fQueryParams[aParamIndex];
case aParam.VType of
SynCommons.ftInt64:
{$ifdef UNICODE}
aParam.VInt64 := Par.AsLargeInt;
{$else}
aParam.VInt64 := trunc(Par.AsFloat);
{$endif}
SynCommons.ftDouble: PDouble(@aParam.VInt64)^ := Par.AsFloat;
SynCommons.ftCurrency:PCurrency(@aParam.VInt64)^ := Par.AsCurrency;
SynCommons.ftDate: PDateTime(@aParam.VInt64)^ := Par.AsDateTime;
SynCommons.ftUTF8: aParam.VData := StringToUTF8(Par.AsString);
SynCommons.ftBlob: begin
{$ifdef UNICODE}
tmpBytes := Par.AsBlob;
SetString(aParam.VData,PAnsiChar(pointer(tmpBytes)),Length(tmpBytes));
{$else}
aParam.VData := Par.AsString;
{$endif}
end;
end;
end;
procedure TSQLDBDatasetStatement.Prepare(const aSQL: RawUTF8;
ExpectResults: boolean);
begin
inherited;
if fPreparedParamsCount<>fQueryParams.Count then
raise ESQLDBDataset.CreateUTF8(
'%.Prepare expected % parameters in request, found % - [%]',
[self,fPreparedParamsCount,fQueryParams.Count,aSQL]);
end;
end.