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Comparing ibx/trunk/fbintf/IBUtils.pas (file contents):
Revision 209 by tony, Wed Mar 14 12:48:51 2018 UTC vs.
Revision 356 by tony, Sun Oct 24 14:00:52 2021 UTC

# Line 39 | Line 39 | unit IBUtils;
39   {$IFDEF FPC}
40   {$Mode Delphi}
41   {$codepage UTF8}
42 {$define HASREQEX}
42   {$ENDIF}
43  
44 + { $IF declared(CompilerVersion) and (CompilerVersion >= 22)}
45 + { $define HASDELPHIREQEX}
46 + { $IFEND}
47  
48   interface
49  
50   uses Classes, SysUtils, IB;
51  
52 + type
53 +  TSQLTokens = (
54 +
55 +  {Reserved Words}
56 +
57 +  sqltAdd,
58 +  sqltAdmin,
59 +  sqltAll,
60 +  sqltAlter,
61 +  sqltAnd,
62 +  sqltAny,
63 +  sqltAs,
64 +  sqltAt,
65 +  sqltAvg,
66 +  sqltBegin,
67 +  sqltBetween,
68 +  sqltBigint,
69 +  sqltBit_Length,
70 +  sqltBlob,
71 +  sqltBoolean,
72 +  sqltBoth,
73 +  sqltBy,
74 +  sqltCase,
75 +  sqltCast,
76 +  sqltChar,
77 +  sqltChar_Length,
78 +  sqltCharacter,
79 +  sqltCharacter_Length,
80 +  sqltCheck,
81 +  sqltClose,
82 +  sqltCollate,
83 +  sqltColumn,
84 +  sqltCommit,
85 +  sqltConnect,
86 +  sqltConstraint,
87 +  sqltCorr,
88 +  sqltCount,
89 +  sqltCovar_Pop,
90 +  sqltCovar_Samp,
91 +  sqltCreate,
92 +  sqltCross,
93 +  sqltCurrent,
94 +  sqltCurrent_Connection,
95 +  sqltCurrent_Date,
96 +  sqltCurrent_Role,
97 +  sqltCurrent_Time,
98 +  sqltCurrent_Timestamp,
99 +  sqltCurrent_Transaction,
100 +  sqltCurrent_User,
101 +  sqltCursor,
102 +  sqltDate,
103 +  sqltDay,
104 +  sqltDec,
105 +  sqltDecimal,
106 +  sqltDeclare,
107 +  sqltDefault,
108 +  sqltDelete,
109 +  sqltDeleting,
110 +  sqltDeterministic,
111 +  sqltDisconnect,
112 +  sqltDistinct,
113 +  sqltDouble,
114 +  sqltDrop,
115 +  sqltElse,
116 +  sqltEnd,
117 +  sqltEscape,
118 +  sqltExecute,
119 +  sqltExists,
120 +  sqltExternal,
121 +  sqltExtract,
122 +  sqltFalse,
123 +  sqltFetch,
124 +  sqltFilter,
125 +  sqltFloat,
126 +  sqltFor,
127 +  sqltForeign,
128 +  sqltFrom,
129 +  sqltFull,
130 +  sqltFunction,
131 +  sqltGdscode,
132 +  sqltGlobal,
133 +  sqltGrant,
134 +  sqltGroup,
135 +  sqltHaving,
136 +  sqltHour,
137 +  sqltIn,
138 +  sqltIndex,
139 +  sqltInner,
140 +  sqltInsensitive,
141 +  sqltInsert,
142 +  sqltInserting,
143 +  sqltInt,
144 +  sqltInteger,
145 +  sqltInto,
146 +  sqltIs,
147 +  sqltJoin,
148 +  sqltKey,
149 +  sqltLeading,
150 +  sqltLeft,
151 +  sqltLike,
152 +  sqltLong,
153 +  sqltLower,
154 +  sqltMax,
155 +  sqltMaximum_Segment,
156 +  sqltMerge,
157 +  sqltMin,
158 +  sqltMinute,
159 +  sqltMonth,
160 +  sqltNational,
161 +  sqltNatural,
162 +  sqltNchar,
163 +  sqltNo,
164 +  sqltNot,
165 +  sqltNull,
166 +  sqltNumeric,
167 +  sqltOctet_Length,
168 +  sqltOf,
169 +  sqltOffset,
170 +  sqltOn,
171 +  sqltOnly,
172 +  sqltOpen,
173 +  sqltOr,
174 +  sqltOrder,
175 +  sqltOuter,
176 +  sqltOver,
177 +  sqltParameter,
178 +  sqltPlan,
179 +  sqltPosition,
180 +  sqltPost_Event,
181 +  sqltPrecision,
182 +  sqltPrimary,
183 +  sqltProcedure,
184 +  sqltRdbDb_Key,
185 +  sqltRdbRecord_Version,
186 +  sqltReal,
187 +  sqltRecord_Version,
188 +  sqltRecreate,
189 +  sqltRecursive,
190 +  sqltReferences,
191 +  sqltRegr_Avgx,
192 +  sqltRegr_Avgy,
193 +  sqltRegr_Count,
194 +  sqltRegr_Intercept,
195 +  sqltRegr_R2,
196 +  sqltRegr_Slope,
197 +  sqltRegr_Sxx,
198 +  sqltRegr_Sxy,
199 +  sqltRegr_Syy,
200 +  sqltRelease,
201 +  sqltReturn,
202 +  sqltReturning_Values,
203 +  sqltReturns,
204 +  sqltRevoke,
205 +  sqltRight,
206 +  sqltRollback,
207 +  sqltRow,
208 +  sqltRows,
209 +  sqltRow_Count,
210 +  sqltSavepoint,
211 +  sqltScroll,
212 +  sqltSecond,
213 +  sqltSelect,
214 +  sqltSensitive,
215 +  sqltSet,
216 +  sqltSimilar,
217 +  sqltSmallint,
218 +  sqltSome,
219 +  sqltSqlcode,
220 +  sqltSqlstate,
221 +  sqltStart,
222 +  sqltStddev_Pop,
223 +  sqltStddev_Samp,
224 +  sqltSum,
225 +  sqltTable,
226 +  sqltThen,
227 +  sqltTime,
228 +  sqltTimestamp,
229 +  sqltTo,
230 +  sqltTrailing,
231 +  sqltTrigger,
232 +  sqltTrim,
233 +  sqltTrue,
234 +  sqltUnion,
235 +  sqltUnique,
236 +  sqltUnknown,
237 +  sqltUpdate,
238 +  sqltUpdating,
239 +  sqltUpper,
240 +  sqltUser,
241 +  sqltUsing,
242 +  sqltValue,
243 +  sqltValues,
244 +  sqltVar_Pop,
245 +  sqltVar_Samp,
246 +  sqltVarchar,
247 +  sqltVariable,
248 +  sqltVarying,
249 +  sqltView,
250 +  sqltWhen,
251 +  sqltWhere,
252 +  sqltWhile,
253 +  sqltWith,
254 +  sqltYear,
255 +
256 +  {symbols}
257 +
258 +  sqltSpace,
259 +  sqltSemiColon,
260 +  sqltPlaceholder,
261 +  sqltSingleQuotes,
262 +  sqltDoubleQuotes,
263 +  sqltBackslash,
264 +  sqltComma,
265 +  sqltPeriod,
266 +  sqltEquals,
267 +  sqltOtherCharacter,
268 +  sqltIdentifier,
269 +  sqltIdentifierInDoubleQuotes,
270 +  sqltNumberString,
271 +  sqltString,
272 +  sqltParam,
273 +  sqltQuotedParam,
274 +  sqltColon,
275 +  sqltComment,
276 +  sqltCommentLine,
277 +  sqltQuotedString,
278 +  sqltAsterisk,
279 +  sqltForwardSlash,
280 +  sqltOpenSquareBracket,
281 +  sqltCloseSquareBracket,
282 +  sqltOpenBracket,
283 +  sqltCloseBracket,
284 +  sqltPipe,
285 +  sqltMinus,
286 +  sqltConcatSymbol,
287 +  sqltLT,
288 +  sqltGT,
289 +  sqltCR,
290 +  sqltEOL,
291 +  sqltEOF,
292 +  sqltInit
293 +  );
294 +
295 +  TSQLReservedWords = sqltAdd..sqltYear;
296 +
297   const
298    CRLF = #13 + #10;
299    CR   = #13;
# Line 54 | Line 301 | const
301    TAB  = #9;
302    NULL_TERMINATOR = #0;
303  
304 <  sqlReservedWords: array [0..198] of string = (
304 >  {$IFNDEF FPC}
305 >  LineEnding = CRLF;
306 >  {$ENDIF}
307 >
308 >  {SQL Reserved words in alphabetical order}
309 >
310 >  sqlReservedWords: array [TSQLReservedWords] of string = (
311    'ADD',
312    'ADMIN',
313    'ALL',
# Line 206 | Line 459 | const
459    'RIGHT',
460    'ROLLBACK',
461    'ROW',
209  'ROW_COUNT',
462    'ROWS',
463 +  'ROW_COUNT',
464    'SAVEPOINT',
465    'SCROLL',
466    'SECOND',
# Line 219 | Line 472 | const
472    'SOME',
473    'SQLCODE',
474    'SQLSTATE',
222  'SQLSTATE',
475    'START',
476    'STDDEV_POP',
477    'STDDEV_SAMP',
# Line 256 | Line 508 | const
508    'YEAR'
509    );
510  
511 + type
512 +  {The TSQLTokeniser class provides a common means to parse an SQL statement, or
513 +   even a stream of SQL Statements. The TSQLStringTokeniser class is instantiated
514 +   with a single SQL statement or a set of concatenated statements. The TSQLStreamTokeniser
515 +   is instantiated with a stream from which the SQL statements are read.
516 +
517 +   Successive calls to GetNextToken then return each SQL token. The TokenText contains
518 +   either the single character, the identifier or reserved word, the string or comment.}
519 +
520 +  { TSQLTokeniser }
521 +
522 +  TSQLTokeniser = class
523 +  private
524 +    const
525 +      TokenQueueMaxSize = 64;
526 +    type
527 +      TLexState = (stDefault, stInCommentLine, stInComment, stSingleQuoted, stDoubleQuoted,
528 +                   stInIdentifier, stInNumeric);
529 +
530 +      TTokenQueueItem = record
531 +                          token: TSQLTokens;
532 +                          text: AnsiString;
533 +                        end;
534 +      TTokenQueueState = (tsHold, tsRelease);
535 +
536 +  private
537 +    FLastChar: AnsiChar;
538 +    FState: TLexState;
539 +    FSkipNext: boolean;
540 +    function GetNext: TSQLTokens;
541 +
542 +    {The token Queue is available for use by descendents so that they can
543 +     hold back tokens in order to lookahead by token rather than just a single
544 +     character}
545 +
546 +  private
547 +    FTokenQueue: array[0..TokenQueueMaxSize] of TTokenQueueItem;
548 +    FQueueState: TTokenQueueState;
549 +    FQFirst: integer;  {first and last pointers first=last => queue empty}
550 +    FQLast: integer;
551 +    FEOF: boolean;
552 +    procedure PopQueue(var token: TSQLTokens);
553 +  protected
554 +    FString: AnsiString;
555 +    FNextToken: TSQLTokens;
556 +    procedure Assign(source: TSQLTokeniser); virtual;
557 +    function GetChar: AnsiChar; virtual; abstract;
558 +    function TokenFound(var token: TSQLTokens): boolean; virtual;
559 +    function InternalGetNextToken: TSQLTokens; virtual;
560 +    procedure Reset; virtual;
561 +
562 +    {Token stack}
563 +    procedure QueueToken(token: TSQLTokens; text:AnsiString); overload;
564 +    procedure QueueToken(token: TSQLTokens); overload;
565 +    procedure ResetQueue; overload;
566 +    procedure ResetQueue(token: TSQLTokens; text:AnsiString); overload;
567 +    procedure ResetQueue(token: TSQLTokens); overload;
568 +    procedure ReleaseQueue(var token: TSQLTokens); overload;
569 +    procedure ReleaseQueue; overload;
570 +    function GetQueuedText: AnsiString;
571 +    procedure SetTokenText(text: AnsiString);
572 +
573 +  public
574 +    const
575 +        DefaultTerminator = ';';
576 +  public
577 +    constructor Create;
578 +    destructor Destroy; override;
579 +    function GetNextToken: TSQLTokens;
580 +    property EOF: boolean read FEOF;
581 +    property TokenText: AnsiString read FString;
582 +  end;
583 +
584 +  { TSQLwithNamedParamsTokeniser }
585 +
586 +  TSQLwithNamedParamsTokeniser = class(TSQLTokeniser)
587 +  private
588 +    type
589 +      TSQLState = (stInit,stInParam,stInBlock, stInArrayDim);
590 +  private
591 +    FState: TSQLState;
592 +    FNested: integer;
593 +  protected
594 +    procedure Assign(source: TSQLTokeniser); override;
595 +    procedure Reset; override;
596 +    function TokenFound(var token: TSQLTokens): boolean; override;
597 +  end;
598 +
599 +    { TSQLParamProcessor }
600 +
601 +  TSQLParamProcessor = class(TSQLwithNamedParamsTokeniser)
602 +  private
603 +  const
604 +    sIBXParam = 'IBXParam';  {do not localize}
605 +  private
606 +    FInString: AnsiString;
607 +    FIndex: integer;
608 +    function DoExecute(GenerateParamNames: boolean;
609 +        var slNames: TStrings): AnsiString;
610 +  protected
611 +    function GetChar: AnsiChar; override;
612 +  public
613 +    class function Execute(sSQL: AnsiString; GenerateParamNames: boolean;
614 +        var slNames: TStrings): AnsiString;
615 +  end;
616 +
617 +
618   function Max(n1, n2: Integer): Integer;
619   function Min(n1, n2: Integer): Integer;
620   function RandomString(iLength: Integer): AnsiString;
621   function RandomInteger(iLow, iHigh: Integer): Integer;
622   function StripString(st: AnsiString; CharsToStrip: AnsiString): AnsiString;
623   function ExtractIdentifier(Dialect: Integer; Value: AnsiString): AnsiString;
624 + function FindReservedWord(w: AnsiString; var token: TSQLTokens): boolean;
625 + function IsReservedWord(w: AnsiString): boolean;
626   function QuoteIdentifier(Dialect: Integer; Value: AnsiString): AnsiString;
627   function QuoteIdentifierIfNeeded(Dialect: Integer; Value: AnsiString): AnsiString;
628   function Space2Underscore(s: AnsiString): AnsiString;
# Line 275 | Line 636 | function ParseConnectString(ConnectStrin
636                var PortNo: AnsiString): boolean;
637   function GetProtocol(ConnectString: AnsiString): TProtocolAll;
638  
639 + {$IF declared(TFormatSettings)}
640 + function ParseDateTimeTZString(aDateTimeStr: Ansistring; var aDateTime: TDateTime;
641 +              var aTimezone: AnsiString; aFormatSettings: TFormatSettings; TimeOnly: boolean=false): boolean; overload;
642 + {$IFEND}
643 + function ParseDateTimeTZString(aDateTimeStr: Ansistring; var aDateTime: TDateTime;
644 +              var aTimezone: AnsiString; TimeOnly: boolean=false): boolean;  overload;
645 + procedure FBDecodeTime(aTime: TDateTime; var Hour, Minute, Second: word; var DeciMillisecond: cardinal);
646 + function FBEncodeTime(Hour, Minute, Second, DeciMillisecond: cardinal): TDateTime;
647 + function FBFormatDateTime(fmt: AnsiString; aDateTime: TDateTime): AnsiString;
648 + function FormatTimeZoneOffset(EffectiveTimeOffsetMins: integer): AnsiString;
649 + function DecodeTimeZoneOffset(TZOffset: AnsiString; var dstOffset: integer): boolean;
650 + function StripLeadingZeros(Value: AnsiString): AnsiString;
651 + function TryStrToNumeric(S: Ansistring; out Value: int64; out scale: integer): boolean;
652 + function NumericToDouble(aValue: Int64; aScale: integer): double;
653 +
654 +
655   implementation
656  
657 < {$IFDEF HASREQEX}
658 < uses RegExpr;
659 < {$ENDIF}
657 > uses FBMessages, Math
658 >
659 > {$IFDEF FPC}
660 > ,RegExpr
661 > {$ELSE}
662 > {$IF declared(CompilerVersion) and (CompilerVersion >= 22)}
663 > , RegularExpressions
664 > {$IFEND}
665 > {$ENDIF};
666 >
667  
668   function Max(n1, n2: Integer): Integer;
669   begin
# Line 343 | Line 727 | begin
727    Result := Value;
728   end;
729  
730 + {Returns true if "w" is a Firebird SQL reserved word, and the
731 + corresponding TSQLTokens value.}
732 +
733 + function FindReservedWord(w: AnsiString; var token: TSQLTokens): boolean;
734 + var i: TSQLTokens;
735 + begin
736 +   Result := true;
737 +   w := AnsiUpperCase(Trim(w));
738 +   for i := Low(TSQLReservedWords) to High(TSQLReservedWords) do
739 +   begin
740 +       if w = sqlReservedWords[i] then
741 +       begin
742 +         token := i;
743 +         Exit;
744 +       end;
745 +       if w <  sqlReservedWords[i] then
746 +         break;
747 +   end;
748 +   Result := false;
749 + end;
750 +
751   {Returns true if "w" is a Firebird SQL reserved word}
752  
753   function IsReservedWord(w: AnsiString): boolean;
754 < var i: integer;
754 > var token: TSQLTokens;
755   begin
756 <     Result := true;
352 <     for i := 0 to Length(sqlReservedWords) - 1 do
353 <         if w = sqlReservedWords[i] then
354 <            Exit;
355 <     Result := false;
756 >  Result := FindReservedWord(w,token);
757   end;
758  
759   {Format an SQL Identifier according to SQL Dialect}
760  
761   function QuoteIdentifier(Dialect: Integer; Value: AnsiString): AnsiString;
762   begin
763 +  Value := TrimRight(Value);
764    if Dialect = 1 then
765 <    Value := AnsiUpperCase(Trim(Value))
765 >    Value := AnsiUpperCase(Value)
766    else
767      Value := '"' + StringReplace (Value, '""', '"', [rfReplaceAll]) + '"';
768    Result := Value;
# Line 380 | Line 782 | begin
782    Result := true;
783   end;
784  
785 + function SchemeToProtocol(scheme: AnsiString): TProtocolAll;
786 + begin
787 +  scheme := AnsiUpperCase(scheme);
788 +  if scheme = 'INET' then
789 +    Result := inet
790 +  else
791 +  if scheme = 'INET4' then
792 +    Result := inet4
793 +  else
794 +  if scheme = 'INET6' then
795 +    Result := inet6
796 +  else
797 +  if scheme = 'XNET' then
798 +    Result := xnet
799 +  else
800 +  if scheme = 'WNET' then
801 +    Result := wnet
802 + end;
803 +
804   {Extracts the Database Connect string from a Create Database Statement}
805  
806 < {$IFDEF HASREQEX}
806 > {$IF declared(TRegexpr)}
807   function ExtractConnectString(const CreateSQL: AnsiString;
808    var ConnectString: AnsiString): boolean;
809   var RegexObj: TRegExpr;
# Line 404 | Line 825 | end;
825   function ParseConnectString(ConnectString: AnsiString; var ServerName,
826    DatabaseName: AnsiString; var Protocol: TProtocolAll; var PortNo: AnsiString
827    ): boolean;
828 +
829   var RegexObj: TRegExpr;
408    scheme: AnsiString;
830   begin
831    ServerName := '';
832    DatabaseName := ConnectString;
# Line 415 | Line 836 | begin
836    try
837      {extact database file spec}
838      RegexObj.ModifierG := false; {turn off greedy matches}
839 <    RegexObj.Expression := '^([a-zA-Z]+)://([a-zA-Z0-9\-\.]+)(|:[0-9a-zA-Z\-]+)/(.*)$';
839 >    RegexObj.Expression := '^([a-zA-Z46]+)://([a-zA-Z0-9\-\.]*)(|:[0-9a-zA-Z\-]+)/(.*)$';
840      Result := RegexObj.Exec(ConnectString);
841      if Result then
842      begin
843        {URL type connect string}
844 <      scheme := AnsiUpperCase(RegexObj.Match[1]);
844 >      Protocol := SchemeToProtocol(RegexObj.Match[1]);
845        ServerName := RegexObj.Match[2];
846        if RegexObj.MatchLen[3] > 0 then
847          PortNo := system.Copy(ConnectString,RegexObj.MatchPos[3]+1,RegexObj.MatchLen[3]-1);
848        DatabaseName := RegexObj.Match[4];
849 <      if scheme = 'INET' then
850 <        Protocol := inet
430 <      else
431 <      if scheme = 'XNET' then
432 <        Protocol := xnet
433 <      else
434 <      if scheme = 'WNET' then
435 <        Protocol := wnet
849 >      if ServerName = '' then
850 >        DatabaseName := '/' + DatabaseName;
851      end
852      else
853      begin
854 <      RegexObj.Expression := '^([a-zA-Z]:\\.*)';
854 >      {URL type connect string - local loop}
855 >      RegexObj.Expression := '^([a-zA-Z46]+)://(.*)$';
856        Result := RegexObj.Exec(ConnectString);
857        if Result then
858 <        Protocol := Local {Windows with leading drive ID}
858 >      begin
859 >        Protocol := SchemeToProtocol(RegexObj.Match[1]);
860 >        DatabaseName := RegexObj.Match[2];
861 >      end
862        else
863        begin
864 <        RegexObj.Expression := '^([a-zA-Z0-9\-\.]+)(|/[0-9a-zA-Z\-]+):(.*)$';
864 >        RegexObj.Expression := '^([a-zA-Z]:\\.*)';
865          Result := RegexObj.Exec(ConnectString);
866          if Result then
867 <        begin
449 <          {Legacy TCP Format}
450 <          ServerName := RegexObj.Match[1];
451 <          if RegexObj.MatchLen[2] > 0 then
452 <            PortNo := system.Copy(ConnectString,RegexObj.MatchPos[2]+1,RegexObj.MatchLen[2]-1);
453 <          DatabaseName := RegexObj.Match[3];
454 <          Protocol := TCP;
455 <        end
867 >          Protocol := Local {Windows with leading drive ID}
868          else
869          begin
870 <          RegexObj.Expression := '^\\\\([a-zA-Z0-9\-\.]+)(|@[0-9a-zA-Z\-]+)\\(.*)$';
870 >          RegexObj.Expression := '^([a-zA-Z0-9\-\.]+)(|/[0-9a-zA-Z\-]+):(.*)$';
871            Result := RegexObj.Exec(ConnectString);
872            if Result then
873            begin
874 <            {Netbui}
874 >            {Legacy TCP Format}
875              ServerName := RegexObj.Match[1];
876              if RegexObj.MatchLen[2] > 0 then
877                PortNo := system.Copy(ConnectString,RegexObj.MatchPos[2]+1,RegexObj.MatchLen[2]-1);
878              DatabaseName := RegexObj.Match[3];
879 <            Protocol := NamedPipe
879 >            Protocol := TCP;
880            end
881            else
882            begin
883 <            Result := true;
884 <            Protocol := Local; {Assume local}
883 >            RegexObj.Expression := '^\\\\([a-zA-Z0-9\-\.]+)(|@[0-9a-zA-Z\-]+)\\(.*)$';
884 >            Result := RegexObj.Exec(ConnectString);
885 >            if Result then
886 >            begin
887 >              {Netbui}
888 >              ServerName := RegexObj.Match[1];
889 >              if RegexObj.MatchLen[2] > 0 then
890 >                PortNo := system.Copy(ConnectString,RegexObj.MatchPos[2]+1,RegexObj.MatchLen[2]-1);
891 >              DatabaseName := RegexObj.Match[3];
892 >              Protocol := NamedPipe
893 >            end
894 >            else
895 >            begin
896 >              Result := true;
897 >              Protocol := Local; {Assume local}
898 >            end;
899            end;
900          end;
901        end;
# Line 479 | Line 905 | begin
905    end;
906   end;
907  
908 < function GetProtocol(ConnectString: AnsiString): TProtocolAll;
909 < var ServerName,
910 <    DatabaseName: AnsiString;
911 <    PortNo: AnsiString;
908 > {$ELSE}
909 > {$IF declared(TRegex)}
910 > function ExtractConnectString(const CreateSQL: AnsiString;
911 >  var ConnectString: AnsiString): boolean;
912 > var Regex: TRegEx;
913 >    Match: TMatch;
914   begin
915 <  ParseConnectString(ConnectString,ServerName,DatabaseName,Result,PortNo);
915 >  Regex := TRegEx.Create('^ *CREATE +(DATABASE|SCHEMA) +''(.*)''',[roIgnoreCase]);
916 >  {extact database file spec}
917 >  Match := Regex.Match(CreateSQL);
918 >  Result := Match.Success and (Match.Groups.Count = 3);
919 >  if Result then
920 >    ConnectString := Match.Groups[2].Value;
921   end;
922  
923 + function ParseConnectString(ConnectString: AnsiString; var ServerName,
924 +  DatabaseName: AnsiString; var Protocol: TProtocolAll; var PortNo: AnsiString
925 +  ): boolean;
926 +
927 + var Regex: TRegEx;
928 +    Match: TMatch;
929 + begin
930 +  ServerName := '';
931 +  DatabaseName := ConnectString;
932 +  PortNo := '';
933 +  Protocol := unknownProtocol;
934 +  {extact database file spec}
935 +  Match := Regex.Match(ConnectString,'^([a-zA-Z46]+)://([a-zA-Z0-9\-\.]*)(|:[0-9a-zA-Z\-]+)/(.*)$',[roIgnoreCase]);
936 +  Result := Match.Success and (Match.Groups.Count = 5);
937 +  if Result then
938 +  begin
939 +    {URL type connect string}
940 +    Protocol := SchemeToProtocol(Match.Groups[1].Value);
941 +    ServerName := Match.Groups[2].Value;
942 +    PortNo := Match.Groups[3].Value;
943 +    DatabaseName := Match.Groups[4].Value;
944 +    if ServerName = '' then
945 +      DatabaseName := '/' + DatabaseName;
946 +  end
947 +  else
948 +  begin
949 +    {URL type connect string - local loop}
950 +    Match := Regex.Match(ConnectString,'^([a-zA-Z46]+)://(.*)$',[roIgnoreCase]);
951 +    Result := Match.Success and (Match.Groups.Count = 3);
952 +    if Result then
953 +    begin
954 +      Protocol := SchemeToProtocol(Match.Groups[1].Value);
955 +      DatabaseName := Match.Groups[2].Value;
956 +    end
957 +    else
958 +    begin
959 +      Match := Regex.Match(ConnectString,'^([a-zA-Z]:\\.*)',[roIgnoreCase]);
960 +      Result := Match.Success;
961 +      if Result then
962 +        Protocol := Local {Windows with leading drive ID}
963 +      else
964 +      begin
965 +        Match := Regex.Match(ConnectString,'^([a-zA-Z0-9\-\.]+)(|/[0-9a-zA-Z\-]+):(.*)$',[roIgnoreCase]);
966 +        Result := Match.Success and (Match.Groups.Count = 4);
967 +        if Result then
968 +        begin
969 +          {Legacy TCP Format}
970 +          ServerName := Match.Groups[1].Value;
971 +          PortNo := Match.Groups[2].Value;
972 +          DatabaseName := Match.Groups[3].Value;
973 +          Protocol := TCP;
974 +        end
975 +        else
976 +        begin
977 +          Match := Regex.Match(ConnectString,'^\\\\([a-zA-Z0-9\-\.]+)(|@[0-9a-zA-Z\-]+)\\(.*)$',[roIgnoreCase]);
978 +          Result := Match.Success and (Match.Groups.Count = 4);
979 +          if Result then
980 +          begin
981 +            {Netbui}
982 +            ServerName := Match.Groups[1].Value;
983 +            PortNo := Match.Groups[2].Value;
984 +            DatabaseName := Match.Groups[3].Value;
985 +            Protocol := NamedPipe
986 +          end
987 +          else
988 +          begin
989 +            Result := true;
990 +            Protocol := Local; {Assume local}
991 +          end;
992 +        end;
993 +      end;
994 +    end;
995 +  end;
996 + end;
997   {$ELSE}
998 < {cruder version of above for Delphi. Older versions lack regular expression
998 > {cruder version of above for Delphi < XE. Older versions lack regular expression
999   handling.}
1000   function ExtractConnectString(const CreateSQL: AnsiString;
1001    var ConnectString: AnsiString): boolean;
# Line 509 | Line 1016 | begin
1016    end;
1017   end;
1018  
512 function GetProtocol(ConnectString: AnsiString): TProtocolAll;
513 begin
514  Result := unknownProtocol; {not implemented for Delphi}
515 end;
516
1019   function ParseConnectString(ConnectString: AnsiString;
1020                var ServerName, DatabaseName: AnsiString; var Protocol: TProtocolAll;
1021                var PortNo: AnsiString): boolean;
# Line 521 | Line 1023 | begin
1023    Result := false;
1024   end;
1025  
1026 < {$ENDIF}
1026 > {$IFEND}
1027 > {$IFEND}
1028 >
1029 > function GetProtocol(ConnectString: AnsiString): TProtocolAll;
1030 > var ServerName,
1031 >    DatabaseName: AnsiString;
1032 >    PortNo: AnsiString;
1033 > begin
1034 >  if not ParseConnectString(ConnectString,ServerName,DatabaseName,Result,PortNo) then
1035 >    Result := unknownProtocol;
1036 > end;
1037  
1038   {Make a connect string in format appropriate protocol}
1039  
1040   function MakeConnectString(ServerName, DatabaseName: AnsiString;
1041    Protocol: TProtocol; PortNo: AnsiString): AnsiString;
1042 +
1043 +  function FormatURL: AnsiString;
1044 +  begin
1045 +    if (ServerName = '') and (Pos('/',DatabaseName) <= 1) then
1046 +      Result := DatabaseName
1047 +    else
1048 +      Result := ServerName + '/' + DatabaseName;
1049 +  end;
1050 +
1051   begin
1052 +  if ServerName = '' then ServerName := 'localhost';
1053    if PortNo <> '' then
1054      case Protocol of
1055      NamedPipe:
# Line 546 | Line 1068 | begin
1068      SPX:        Result := ServerName + '@' + DatabaseName; {do not localize}
1069      NamedPipe:  Result := '\\' + ServerName + '\' + DatabaseName; {do not localize}
1070      Local:      Result := DatabaseName; {do not localize}
1071 <    inet:       Result := 'inet://' + ServerName + '/'+ DatabaseName; {do not localize}
1072 <    wnet:       Result := 'wnet://' + ServerName + '/'+ DatabaseName; {do not localize}
1073 <    xnet:       Result := 'xnet://' + ServerName + '/'+ DatabaseName;  {do not localize}
1071 >    inet:       Result := 'inet://' + FormatURL; {do not localize}
1072 >    inet4:       Result := 'inet4://' + FormatURL; {do not localize}
1073 >    inet6:       Result := 'inet6://' + FormatURL; {do not localize}
1074 >    wnet:       Result := 'wnet://' + FormatURL; {do not localize}
1075 >    xnet:       Result := 'xnet://' + FormatURL;  {do not localize}
1076    end;
1077   end;
1078  
# Line 556 | Line 1080 | end;
1080  
1081   function QuoteIdentifierIfNeeded(Dialect: Integer; Value: AnsiString): AnsiString;
1082   begin
1083 +  Value := TrimRight(Value);
1084    if (Dialect = 3) and
1085      (IsReservedWord(Value) or not IsSQLIdentifier(Value) or (AnsiUpperCase(Value) <> Value)) then
1086       Result := '"' + StringReplace (TrimRight(Value), '"', '""', [rfReplaceAll]) + '"'
# Line 582 | Line 1107 | begin
1107    Result := StringReplace(s,'''','''''',[rfReplaceAll]);
1108   end;
1109  
1110 + { TSQLParamProcessor }
1111 +
1112 + function TSQLParamProcessor.DoExecute(GenerateParamNames: boolean;
1113 +  var slNames: TStrings): AnsiString;
1114 + var token: TSQLTokens;
1115 +    iParamSuffix: Integer;
1116 + begin
1117 +  Result := '';
1118 +  iParamSuffix := 0;
1119 +
1120 +  while not EOF do
1121 +  begin
1122 +    token := GetNextToken;
1123 +    case token of
1124 +    sqltParam,
1125 +    sqltQuotedParam:
1126 +      begin
1127 +        Result := Result + '?';
1128 +        slNames.Add(TokenText);
1129 +      end;
1130 +
1131 +    sqltPlaceHolder:
1132 +      if GenerateParamNames then
1133 +      begin
1134 +        Inc(iParamSuffix);
1135 +        slNames.AddObject(sIBXParam + IntToStr(iParamSuffix),self); //Note local convention
1136 +                                            //add pointer to self to mark entry
1137 +        Result := Result + '?';
1138 +      end
1139 +      else
1140 +        IBError(ibxeSQLParseError, [SParamNameExpected]);
1141 +
1142 +    sqltQuotedString:
1143 +      Result := Result + '''' + SQLSafeString(TokenText) + '''';
1144 +
1145 +    sqltIdentifierInDoubleQuotes:
1146 +      Result := Result + '"' + StringReplace(TokenText,'"','""',[rfReplaceAll]) + '"';
1147 +
1148 +    sqltComment:
1149 +      Result := Result + '/*' + TokenText + '*/';
1150 +
1151 +    sqltCommentLine:
1152 +      Result := Result + '--' + TokenText + LineEnding;
1153 +
1154 +    sqltEOL:
1155 +      Result := Result + LineEnding;
1156 +
1157 +    else
1158 +      Result := Result + TokenText;
1159 +    end;
1160 +  end;
1161 + end;
1162 +
1163 + function TSQLParamProcessor.GetChar: AnsiChar;
1164 + begin
1165 +  if FIndex <= Length(FInString) then
1166 +  begin
1167 +    Result := FInString[FIndex];
1168 +    Inc(FIndex);
1169 +  end
1170 +  else
1171 +    Result := #0;
1172 + end;
1173 +
1174 + class function TSQLParamProcessor.Execute(sSQL: AnsiString;
1175 +  GenerateParamNames: boolean; var slNames: TStrings): AnsiString;
1176 + begin
1177 +  with self.Create do
1178 +  try
1179 +    FInString := sSQL;
1180 +    FIndex := 1;
1181 +    Result := DoExecute(GenerateParamNames,slNames);
1182 +  finally
1183 +    Free;
1184 +  end;
1185 + end;
1186 +
1187 + { TSQLwithNamedParamsTokeniser }
1188 +
1189 + procedure TSQLwithNamedParamsTokeniser.Assign(source: TSQLTokeniser);
1190 + begin
1191 +  inherited Assign(source);
1192 +  if source is TSQLwithNamedParamsTokeniser then
1193 +  begin
1194 +    FState := TSQLwithNamedParamsTokeniser(source).FState;
1195 +    FNested := TSQLwithNamedParamsTokeniser(source).FNested;
1196 +  end;
1197 + end;
1198 +
1199 + procedure TSQLwithNamedParamsTokeniser.Reset;
1200 + begin
1201 +  inherited Reset;
1202 +  FState := stInit;
1203 +  FNested := 0;
1204 + end;
1205 +
1206 + function TSQLwithNamedParamsTokeniser.TokenFound(var token: TSQLTokens
1207 +  ): boolean;
1208 + begin
1209 +  Result := inherited TokenFound(token);
1210 +  if not Result then Exit;
1211 +
1212 +  case FState of
1213 +  stInit:
1214 +    begin
1215 +      case token of
1216 +      sqltColon:
1217 +        begin
1218 +          FState := stInParam;
1219 +          ResetQueue(token);
1220 +        end;
1221 +
1222 +      sqltBegin:
1223 +        begin
1224 +          FState := stInBlock;
1225 +          FNested := 1;
1226 +        end;
1227 +
1228 +      sqltOpenSquareBracket:
1229 +          FState := stInArrayDim;
1230 +
1231 +      end;
1232 +    end;
1233 +
1234 +  stInParam:
1235 +    begin
1236 +      case token of
1237 +      sqltIdentifier:
1238 +        token := sqltParam;
1239 +
1240 +      sqltIdentifierInDoubleQuotes:
1241 +        token := sqltQuotedParam;
1242 +
1243 +      else
1244 +        begin
1245 +          QueueToken(token);
1246 +          ReleaseQueue(token);
1247 +        end;
1248 +      end;
1249 +      FState := stInit;
1250 +    end;
1251 +
1252 +  stInBlock:
1253 +    begin
1254 +      case token of
1255 +      sqltBegin,
1256 +      sqltCase:
1257 +          Inc(FNested);
1258 +
1259 +      sqltEnd:
1260 +        begin
1261 +          Dec(FNested);
1262 +          if FNested = 0 then
1263 +            FState := stInit;
1264 +        end;
1265 +      end;
1266 +    end;
1267 +
1268 +    stInArrayDim:
1269 +      begin
1270 +        if token = sqltCloseSquareBracket then
1271 +            FState := stInit;
1272 +      end;
1273 +    end;
1274 +
1275 +  Result := (FState <> stInParam);
1276 + end;
1277 +
1278 + { TSQLTokeniser }
1279 +
1280 + function TSQLTokeniser.GetNext: TSQLTokens;
1281 + var C: AnsiChar;
1282 + begin
1283 +  if EOF then
1284 +    Result := sqltEOF
1285 +  else
1286 +  begin
1287 +    C := GetChar;
1288 +    case C of
1289 +    #0:
1290 +      Result := sqltEOF;
1291 +    ' ',TAB:
1292 +      Result := sqltSpace;
1293 +    '0'..'9':
1294 +      Result := sqltNumberString;
1295 +    ';':
1296 +      Result := sqltSemiColon;
1297 +    '?':
1298 +      Result := sqltPlaceholder;
1299 +    '|':
1300 +      Result := sqltPipe;
1301 +    '"':
1302 +      Result := sqltDoubleQuotes;
1303 +    '''':
1304 +      Result := sqltSingleQuotes;
1305 +    '/':
1306 +      Result := sqltForwardSlash;
1307 +    '\':
1308 +      Result := sqltBackslash;
1309 +    '*':
1310 +      Result := sqltAsterisk;
1311 +    '(':
1312 +      Result := sqltOpenBracket;
1313 +    ')':
1314 +      Result := sqltCloseBracket;
1315 +    ':':
1316 +      Result := sqltColon;
1317 +    ',':
1318 +      Result := sqltComma;
1319 +    '.':
1320 +      Result := sqltPeriod;
1321 +    '=':
1322 +      Result := sqltEquals;
1323 +    '[':
1324 +      Result := sqltOpenSquareBracket;
1325 +    ']':
1326 +      Result := sqltCloseSquareBracket;
1327 +    '-':
1328 +      Result := sqltMinus;
1329 +    '<':
1330 +      Result := sqltLT;
1331 +    '>':
1332 +      Result := sqltGT;
1333 +    CR:
1334 +      Result := sqltCR;
1335 +    LF:
1336 +      Result := sqltEOL;
1337 +    else
1338 +      if C in ValidSQLIdentifierChars then
1339 +        Result := sqltIdentifier
1340 +      else
1341 +        Result := sqltOtherCharacter;
1342 +    end;
1343 +    FLastChar := C
1344 +  end;
1345 +  FNextToken := Result;
1346 + end;
1347 +
1348 + procedure TSQLTokeniser.PopQueue(var token: TSQLTokens);
1349 + begin
1350 +  if FQFirst = FQLast then
1351 +    IBError(ibxeTokenQueueUnderflow,[]);
1352 +  token := FTokenQueue[FQFirst].token;
1353 +  FString := FTokenQueue[FQFirst].text;
1354 +  Inc(FQFirst);
1355 +  if FQFirst = FQLast then
1356 +    FQueueState := tsHold;
1357 + end;
1358 +
1359 + procedure TSQLTokeniser.Assign(source: TSQLTokeniser);
1360 + begin
1361 +  FString := source.FString;
1362 +  FNextToken := source.FNextToken;
1363 +  FTokenQueue := source.FTokenQueue;
1364 +  FQueueState := source.FQueueState;
1365 +  FQFirst := source.FQFirst;
1366 +  FQLast := source.FQLast;
1367 + end;
1368 +
1369 + function TSQLTokeniser.TokenFound(var token: TSQLTokens): boolean;
1370 + begin
1371 +  Result := (FState = stDefault);
1372 +  if Result and (token = sqltIdentifier)  then
1373 +    FindReservedWord(FString,token);
1374 + end;
1375 +
1376 + procedure TSQLTokeniser.QueueToken(token: TSQLTokens; text: AnsiString);
1377 + begin
1378 +  if FQLast > TokenQueueMaxSize then
1379 +    IBError(ibxeTokenQueueOverflow,[]);
1380 +  FTokenQueue[FQLast].token := token;
1381 +  FTokenQueue[FQLast].text := text;
1382 +  Inc(FQLast);
1383 + end;
1384 +
1385 + procedure TSQLTokeniser.QueueToken(token: TSQLTokens);
1386 + begin
1387 +  QueueToken(token,TokenText);
1388 + end;
1389 +
1390 + procedure TSQLTokeniser.ResetQueue;
1391 + begin
1392 +  FQFirst := 0;
1393 +  FQLast := 0;
1394 +  FQueueState := tsHold;
1395 + end;
1396 +
1397 + procedure TSQLTokeniser.ResetQueue(token: TSQLTokens; text: AnsiString);
1398 + begin
1399 +  ResetQueue;
1400 +  QueueToken(token,text);
1401 + end;
1402 +
1403 + procedure TSQLTokeniser.ResetQueue(token: TSQLTokens);
1404 + begin
1405 +  ResetQueue;
1406 +  QueueToken(token);
1407 + end;
1408 +
1409 + procedure TSQLTokeniser.ReleaseQueue(var token: TSQLTokens);
1410 + begin
1411 +  FQueueState := tsRelease;
1412 +  PopQueue(token);
1413 + end;
1414 +
1415 + procedure TSQLTokeniser.ReleaseQueue;
1416 + begin
1417 +  FQueueState := tsRelease;
1418 + end;
1419 +
1420 + function TSQLTokeniser.GetQueuedText: AnsiString;
1421 + var i: integer;
1422 + begin
1423 +  Result := '';
1424 +  for i := FQFirst to FQLast do
1425 +    Result := Result + FTokenQueue[i].text;
1426 + end;
1427 +
1428 + procedure TSQLTokeniser.SetTokenText(text: AnsiString);
1429 + begin
1430 +  FString := text;
1431 + end;
1432 +
1433 + constructor TSQLTokeniser.Create;
1434 + begin
1435 +  inherited Create;
1436 +  Reset;
1437 + end;
1438 +
1439 + destructor TSQLTokeniser.Destroy;
1440 + begin
1441 +  Reset;
1442 +  inherited Destroy;
1443 + end;
1444 +
1445 + procedure TSQLTokeniser.Reset;
1446 + begin
1447 +  FNextToken := sqltInit;
1448 +  FState := stDefault;
1449 +  FString := '';
1450 +  FEOF := false;
1451 +  ResetQueue;
1452 + end;
1453 +
1454 + function TSQLTokeniser.GetNextToken: TSQLTokens;
1455 + begin
1456 +  if FQueueState = tsRelease then
1457 +  repeat
1458 +    PopQueue(Result);
1459 +    FEOF := Result = sqltEOF;
1460 +    if TokenFound(Result) then
1461 +      Exit;
1462 +  until FQueueState <> tsRelease;
1463 +
1464 +  Result := InternalGetNextToken;
1465 + end;
1466 +
1467 + {a simple lookahead one algorithm to extra the next symbol}
1468 +
1469 + function TSQLTokeniser.InternalGetNextToken: TSQLTokens;
1470 + var C: AnsiChar;
1471 + begin
1472 +  Result := sqltEOF;
1473 +
1474 +  if FNextToken = sqltInit then
1475 +    GetNext;
1476 +
1477 +  repeat
1478 +    if FSkipNext then
1479 +    begin
1480 +      FSkipNext := false;
1481 +      GetNext;
1482 +    end;
1483 +
1484 +    Result := FNextToken;
1485 +    C := FLastChar;
1486 +    GetNext;
1487 +
1488 +    if (Result = sqltCR) and (FNextToken = sqltEOL) then
1489 +    begin
1490 +      FSkipNext := true;
1491 +      Result := sqltEOL;
1492 +      C := LF;
1493 +    end;
1494 +
1495 +    case FState of
1496 +    stInComment:
1497 +      begin
1498 +        if (Result = sqltAsterisk) and (FNextToken = sqltForwardSlash) then
1499 +        begin
1500 +          FState := stDefault;
1501 +          Result := sqltComment;
1502 +          GetNext;
1503 +        end
1504 +        else
1505 +        if Result = sqltEOL then
1506 +          FString := FString + LineEnding
1507 +        else
1508 +          FString := FString + C;
1509 +      end;
1510 +
1511 +    stInCommentLine:
1512 +      begin
1513 +        case Result of
1514 +        sqltEOL:
1515 +          begin
1516 +            FState := stDefault;
1517 +            Result := sqltCommentLine;
1518 +          end;
1519 +
1520 +        else
1521 +          FString := FString + C;
1522 +        end;
1523 +      end;
1524 +
1525 +    stSingleQuoted:
1526 +      begin
1527 +        if (Result = sqltSingleQuotes) then
1528 +        begin
1529 +          if (FNextToken = sqltSingleQuotes) then
1530 +          begin
1531 +            FSkipNext := true;
1532 +            FString := FString + C;
1533 +          end
1534 +          else
1535 +          begin
1536 +            Result := sqltQuotedString;
1537 +            FState := stDefault;
1538 +          end;
1539 +        end
1540 +        else
1541 +        if Result = sqltEOL then
1542 +          FString := FString + LineEnding
1543 +        else
1544 +          FString := FString + C;
1545 +      end;
1546 +
1547 +    stDoubleQuoted:
1548 +      begin
1549 +        if (Result = sqltDoubleQuotes) then
1550 +        begin
1551 +          if (FNextToken = sqltDoubleQuotes) then
1552 +          begin
1553 +            FSkipNext := true;
1554 +            FString := FString + C;
1555 +          end
1556 +          else
1557 +          begin
1558 +            Result := sqltIdentifierInDoubleQuotes;
1559 +            FState := stDefault;
1560 +          end;
1561 +        end
1562 +        else
1563 +        if Result = sqltEOL then
1564 +          FString := FString + LineEnding
1565 +        else
1566 +          FString := FString + C;
1567 +      end;
1568 +
1569 +    stInIdentifier:
1570 +      begin
1571 +        FString := FString + C;
1572 +        Result := sqltIdentifier;
1573 +        if not (FNextToken in [sqltIdentifier,sqltNumberString]) then
1574 +          FState := stDefault
1575 +      end;
1576 +
1577 +    stInNumeric:
1578 +      begin
1579 +        FString := FString + C;
1580 +        if (Result = sqltPeriod) and (FNextToken = sqltPeriod) then
1581 +        begin
1582 +          {malformed decimal}
1583 +          FState := stInIdentifier;
1584 +          Result := sqltIdentifier
1585 +        end
1586 +        else
1587 +        begin
1588 +          if not (FNextToken in [sqltNumberString,sqltPeriod]) then
1589 +            FState := stDefault;
1590 +          Result := sqltNumberString;
1591 +        end;
1592 +      end;
1593 +
1594 +    else {stDefault}
1595 +      begin
1596 +        FString := C;
1597 +        case Result of
1598 +
1599 +        sqltPipe:
1600 +          if FNextToken = sqltPipe then
1601 +          begin
1602 +            Result := sqltConcatSymbol;
1603 +            FString := C + FLastChar;
1604 +            GetNext;
1605 +          end;
1606 +
1607 +        sqltForwardSlash:
1608 +          begin
1609 +            if FNextToken = sqltAsterisk then
1610 +            begin
1611 +              FString := '';
1612 +              GetNext;
1613 +              FState := stInComment;
1614 +            end
1615 +          end;
1616 +
1617 +        sqltMinus:
1618 +          begin
1619 +            if FNextToken = sqltMinus then
1620 +            begin
1621 +              FString := '';
1622 +              GetNext;
1623 +              FState := stInCommentLine;
1624 +            end;
1625 +          end;
1626 +
1627 +        sqltSingleQuotes:
1628 +          begin
1629 +            FString := '';
1630 +            FState := stSingleQuoted;
1631 +          end;
1632 +
1633 +        sqltDoubleQuotes:
1634 +          begin
1635 +            FString := '';
1636 +            FState := stDoubleQuoted;
1637 +          end;
1638 +
1639 +        sqltIdentifier:
1640 +          if FNextToken in [sqltIdentifier,sqltNumberString] then
1641 +            FState := stInIdentifier;
1642 +
1643 +        sqltNumberString:
1644 +          if FNextToken in [sqltNumberString,sqltPeriod] then
1645 +            FState := stInNumeric;
1646 +
1647 +        sqltEOL:
1648 +          FString := LineEnding;
1649 +        end;
1650 +      end;
1651 +    end;
1652 +
1653 + //    writeln(FString);
1654 +    FEOF := Result = sqltEOF;
1655 +  until TokenFound(Result) or EOF;
1656 + end;
1657 +
1658 + function ParseDateTimeTZString(aDateTimeStr: Ansistring; var aDateTime: TDateTime;
1659 +  var aTimezone: AnsiString; TimeOnly: boolean): boolean;
1660 + {$IF declared(TFormatSettings)}
1661 + begin
1662 +    {$IF declared(DefaultFormatSettings)}
1663 +    Result := ParseDateTimeTZString(aDateTimeStr,aDateTime,aTimeZone,DefaultFormatSettings,TimeOnly);
1664 +    {$ELSE}
1665 +    {$IF declared(FormatSettings)}
1666 +    Result := ParseDateTimeTZString(aDateTimeStr,aDateTime,aTimeZone,FormatSettings,TimeOnly);
1667 +    {$IFEND} {$IFEND}
1668 + end;
1669 +
1670 + function ParseDateTimeTZString(aDateTimeStr: Ansistring; var aDateTime: TDateTime;
1671 +              var aTimezone: AnsiString; aFormatSettings: TFormatSettings; TimeOnly: boolean=false): boolean;
1672 + {$IFEND}
1673 + const
1674 +  whitespacechars = [' ',#$09,#$0A,#$0D];
1675 + var i,j,l: integer;
1676 +    aTime: TDateTime;
1677 +    DMs: longint;
1678 + begin
1679 +  Result := false;
1680 +  aTimezone := '';
1681 +  if aDateTimeStr <> '' then
1682 +  {$if declared(TFormatSettings)}
1683 +  with aFormatSettings do
1684 +  {$IFEND}
1685 +  begin
1686 +    aDateTime := 0;
1687 +    {Parse to get time zone info}
1688 +    i := 1;
1689 +    while (i <= length(aDateTimeStr)) and (aDateTimeStr[i] in whitespacechars) do inc(i); {skip white space}
1690 +    if not TimeOnly then
1691 +    begin
1692 +      {decode date}
1693 +      j := i;
1694 +      while (j <= length(aDateTimeStr)) and (aDateTimeStr[j] in ['0'..'9',DateSeparator]) do inc(j);
1695 +      if TryStrToDate(system.copy(aDateTimeStr,i,j-i),aDateTime) then
1696 +        i := j; {otherwise start again i.e. assume time only}
1697 +    end;
1698 +
1699 +    while (i <= length(aDateTimeStr)) and (aDateTimeStr[i] in whitespacechars) do inc(i); {skip white space}
1700 +    {decode time}
1701 +    j := i;
1702 +    while (j <= length(aDateTimeStr)) and (aDateTimeStr[j] in ['0'..'9',TimeSeparator]) do inc(j);
1703 +    Result := TryStrToTime(system.copy(aDateTimeStr,i,j-i),aTime);
1704 +    if not Result then Exit;
1705 +    aDateTime := aDateTime + aTime;
1706 +    i := j;
1707 +
1708 +    {is there a factional second part}
1709 +    if (i <= length(aDateTimeStr)) and (aDateTimeStr[i] = '.') then
1710 +    begin
1711 +      inc(i);
1712 +      inc(j);
1713 +      while (j <= Length(aDateTimeStr)) and (aDateTimeStr[j] in ['0'..'9']) do inc(j);
1714 +      if j > i then
1715 +      begin
1716 +        l := j-i;
1717 +        if l > 4 then l := 4;
1718 +        Result := TryStrToInt(system.copy(aDateTimeStr,i,l),DMs);
1719 +        if not Result then Exit;
1720 +
1721 +        {adjust for number of significant digits}
1722 +        case l of
1723 +        3:   DMs := DMs * 10;
1724 +        2:   DMs := DMs * 100;
1725 +        1:   DMs := DMs * 1000;
1726 +        end;
1727 +       aDateTime := aDateTime + (DMs / (MsecsPerDay*10));
1728 +      end;
1729 +    end;
1730 +    i := j;
1731 +
1732 +    while (i <= length(aDateTimeStr)) and (aDateTimeStr[i] in whitespacechars) do inc(i); {skip white space}
1733 +    {decode time zone}
1734 +    if i < length(aDateTimeStr) then
1735 +    begin
1736 +      j := i;
1737 +      while (j <= length(aDateTimeStr)) and not (aDateTimeStr[j] in whitespacechars) do inc(j);
1738 +      aTimezone := system.copy(aDateTimeStr,i,j-i);
1739 +    end;
1740 +    Result := true;
1741 +  end
1742 + end;
1743 +
1744 + {The following is similar to FPC DecodeTime except that the Firebird standard
1745 + decimilliseconds is used instead of milliseconds for fractional seconds}
1746 +
1747 + procedure FBDecodeTime(aTime: TDateTime; var Hour, Minute, Second: word;
1748 +  var DeciMillisecond: cardinal);
1749 + var D : Double;
1750 +    l : cardinal;
1751 + begin
1752 +  {conversion to decimilliseconds hacked from FPC DateTimeToTimeStamp}
1753 +  D := aTime * MSecsPerDay *10;
1754 +  if D < 0 then
1755 +    D := D - 0.5
1756 +  else
1757 +    D := D + 0.5;
1758 +  {rest hacked from FPC DecodeTIme}
1759 +  l := Abs(Trunc(D)) Mod (MSecsPerDay*10);
1760 +  Hour   := l div 36000000;
1761 +  l := l mod 36000000;
1762 +  Minute := l div 600000;
1763 +  l := l mod 600000;
1764 +  Second := l div 10000;
1765 +  DeciMillisecond := l mod 10000;
1766 + end;
1767 +
1768 + {The following is similar to FPC EncodeTime except that the Firebird standard
1769 + decimilliseconds is used instead of milliseconds for fractional seconds}
1770 +
1771 + function FBEncodeTime(Hour, Minute, Second, DeciMillisecond: cardinal): TDateTime;
1772 + const DMSecsPerDay = MSecsPerDay*10;
1773 + var DMs: cardinal;
1774 +    D: Double;
1775 + begin
1776 +  if (Hour<24) and (Minute<60) and (Second<60) and (DeciMillisecond<10000) then
1777 +  begin
1778 +    DMs := Hour*36000000+Minute*600000+Second*10000+DeciMillisecond;
1779 +    D := DMs/DMSecsPerDay;
1780 +    Result:=TDateTime(d)
1781 +  end
1782 +  else
1783 +    IBError(ibxeBadTimeSpecification,[Hour, Minute, Second, DeciMillisecond]);
1784 + end;
1785 +
1786 + {The following is similar to FPC FormatDateTime except that it additionally
1787 + allows the timstamp to have a fractional seconds component with a resolution
1788 + of four decimal places. This is appended to the result for FormatDateTime
1789 + if the format string contains a "zzzz' string.}
1790 +
1791 + function FBFormatDateTime(fmt: AnsiString; aDateTime: TDateTime): AnsiString;
1792 + var Hour, Minute, Second: word;
1793 +    DeciMillisecond: cardinal;
1794 + begin
1795 +  if Pos('zzzz',fmt) > 0 then
1796 +  begin
1797 +    FBDecodeTime(aDateTime, Hour, Minute, Second, DeciMillisecond);
1798 +    fmt := StringReplace(fmt, 'zzzz', Format('%.4d',[DeciMillisecond]), [rfReplaceAll]);
1799 +  end;
1800 +  Result := FormatDateTime(fmt,aDateTime);
1801 + end;
1802 +
1803 + function FormatTimeZoneOffset(EffectiveTimeOffsetMins: integer): AnsiString;
1804 + begin
1805 +  if EffectiveTimeOffsetMins > 0 then
1806 +    Result := Format('+%.2d:%.2d',[EffectiveTimeOffsetMins div 60,abs(EffectiveTimeOffsetMins mod 60)])
1807 +  else
1808 +    Result := Format('%.2d:%.2d',[EffectiveTimeOffsetMins div 60,abs(EffectiveTimeOffsetMins mod 60)]);
1809 + end;
1810 +
1811 + function DecodeTimeZoneOffset(TZOffset: AnsiString; var dstOffset: integer): boolean;
1812 + var i: integer;
1813 + begin
1814 +  Result := false;
1815 +  TZOffset := Trim(TZOffset);
1816 +  for i := 1 to Length(TZOffset) do
1817 +    if not (TZOffset[i] in ['0'..'9','-','+',':']) then Exit;
1818 +
1819 +  Result := true;
1820 +  i := Pos(':',TZOffset);
1821 +  if i > 0 then
1822 +    dstOffset := StrToInt(copy(TZOffset,1,i-1)) * 60 + StrToInt(copy(TZOffset,i + 1))
1823 +  else
1824 +    dstOffset := StrToInt(TZOffset) * 60;
1825 + end;
1826 +
1827 + function StripLeadingZeros(Value: AnsiString): AnsiString;
1828 + var i: Integer;
1829 +    start: integer;
1830 + begin
1831 +  Result := '';
1832 +  start := 1;
1833 +  if (Length(Value) > 0) and (Value[1] = '-') then
1834 +  begin
1835 +    Result := '-';
1836 +    start := 2;
1837 +  end;
1838 +  for i := start to Length(Value) do
1839 +    if Value[i] <> '0' then
1840 +    begin
1841 +      Result := Result + system.copy(Value, i, MaxInt);
1842 +      Exit;
1843 +    end;
1844 + end;
1845 +
1846 + function TryStrToNumeric(S: Ansistring; out Value: int64; out scale: integer): boolean;
1847 + var i: integer;
1848 +    ds: integer;
1849 +    exponent: integer;
1850 + begin
1851 +  Result := false;
1852 +  ds := 0;
1853 +  exponent := 0;
1854 +  S := Trim(S);
1855 +  Value := 0;
1856 +  scale := 0;
1857 +  if Length(S) = 0 then
1858 +    Exit;
1859 +  {$IF declared(DefaultFormatSettings)}
1860 +  with DefaultFormatSettings do
1861 +  {$ELSE}
1862 +  {$IF declared(FormatSettings)}
1863 +  with FormatSettings do
1864 +  {$IFEND}
1865 +  {$IFEND}
1866 +  begin
1867 +    for i := length(S) downto 1 do
1868 +    begin
1869 +      if S[i] = AnsiChar(DecimalSeparator) then
1870 +      begin
1871 +          if ds <> 0 then Exit; {only one allowed}
1872 +          ds := i;
1873 +          dec(exponent);
1874 +          system.Delete(S,i,1);
1875 +      end
1876 +      else
1877 +      if S[i] in ['+','-'] then
1878 +      begin
1879 +       if (i > 1) and not (S[i-1] in ['e','E']) then
1880 +          Exit; {malformed}
1881 +      end
1882 +      else
1883 +      if S[i] in ['e','E'] then {scientific notation}
1884 +      begin
1885 +        if ds <> 0 then Exit; {not permitted in exponent}
1886 +        if exponent <> 0 then Exit; {only one allowed}
1887 +        exponent := i;
1888 +      end
1889 +      else
1890 +      if not (S[i] in ['0'..'9']) then
1891 +      {Note: ThousandSeparator not allowed by Delphi specs}
1892 +          Exit; {bad character}
1893 +    end;
1894 +
1895 +    if exponent > 0 then
1896 +    begin
1897 +      Result := TryStrToInt(system.copy(S,exponent+1,maxint),Scale);
1898 +      if Result then
1899 +      begin
1900 +        {adjust scale for decimal point}
1901 +        if ds <> 0 then
1902 +          Scale := Scale - (exponent - ds);
1903 +        Result := TryStrToInt64(system.copy(S,1,exponent-1),Value);
1904 +      end;
1905 +    end
1906 +    else
1907 +    begin
1908 +      if ds <> 0 then
1909 +        scale := ds - Length(S) - 1;
1910 +      Result := TryStrToInt64(S,Value);
1911 +    end;
1912 +  end;
1913 + end;
1914 +
1915 + function NumericToDouble(aValue: Int64; aScale: integer): double;
1916 + begin
1917 +  Result := aValue * IntPower(10,aScale)
1918 + end;
1919 +
1920   end.

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