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root/public/ibx/branches/udr/client/IBUtils.pas
Revision: 348
Committed: Wed Oct 6 09:38:14 2021 UTC (3 years, 1 month ago) by tony
Content type: text/x-pascal
Original Path: ibx/trunk/fbintf/IBUtils.pas
File size: 44457 byte(s)
Log Message:
Fixes Merged

File Contents

# Content
1 {************************************************************************}
2 { }
3 { Borland Delphi Visual Component Library }
4 { InterBase Express core components }
5 { }
6 { Copyright (c) 1998-2000 Inprise Corporation }
7 { }
8 { InterBase Express is based in part on the product }
9 { Free IB Components, written by Gregory H. Deatz for }
10 { Hoagland, Longo, Moran, Dunst & Doukas Company. }
11 { Free IB Components is used under license. }
12 { }
13 { The contents of this file are subject to the InterBase }
14 { Public License Version 1.0 (the "License"); you may not }
15 { use this file except in compliance with the License. You }
16 { may obtain a copy of the License at http://www.Inprise.com/IPL.html }
17 { Software distributed under the License is distributed on }
18 { an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either }
19 { express or implied. See the License for the specific language }
20 { governing rights and limitations under the License. }
21 { The Original Code was created by InterBase Software Corporation }
22 { and its successors. }
23 { Portions created by Inprise Corporation are Copyright (C) Inprise }
24 { Corporation. All Rights Reserved. }
25 { Contributor(s): Jeff Overcash }
26 { }
27 { IBX For Lazarus (Firebird Express) }
28 { Contributor: Tony Whyman, MWA Software http://www.mwasoftware.co.uk }
29 { Portions created by MWA Software are copyright McCallum Whyman }
30 { Associates Ltd 2011 }
31 { }
32 {************************************************************************}
33
34 unit IBUtils;
35 {$IFDEF MSWINDOWS}
36 {$DEFINE WINDOWS}
37 {$ENDIF}
38
39 {$IFDEF FPC}
40 {$Mode Delphi}
41 {$codepage UTF8}
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;
300 LF = #10;
301 TAB = #9;
302 NULL_TERMINATOR = #0;
303
304 {$IFNDEF FPC}
305 LineEnding = CRLF;
306 {$ENDIF}
307
308 {SQL Reserved words in alphabetical order}
309
310 sqlReservedWords: array [TSQLReservedWords] of string = (
311 'ADD',
312 'ADMIN',
313 'ALL',
314 'ALTER',
315 'AND',
316 'ANY',
317 'AS',
318 'AT',
319 'AVG',
320 'BEGIN',
321 'BETWEEN',
322 'BIGINT',
323 'BIT_LENGTH',
324 'BLOB',
325 'BOOLEAN',
326 'BOTH',
327 'BY',
328 'CASE',
329 'CAST',
330 'CHAR',
331 'CHAR_LENGTH',
332 'CHARACTER',
333 'CHARACTER_LENGTH',
334 'CHECK',
335 'CLOSE',
336 'COLLATE',
337 'COLUMN',
338 'COMMIT',
339 'CONNECT',
340 'CONSTRAINT',
341 'CORR',
342 'COUNT',
343 'COVAR_POP',
344 'COVAR_SAMP',
345 'CREATE',
346 'CROSS',
347 'CURRENT',
348 'CURRENT_CONNECTION',
349 'CURRENT_DATE',
350 'CURRENT_ROLE',
351 'CURRENT_TIME',
352 'CURRENT_TIMESTAMP',
353 'CURRENT_TRANSACTION',
354 'CURRENT_USER',
355 'CURSOR',
356 'DATE',
357 'DAY',
358 'DEC',
359 'DECIMAL',
360 'DECLARE',
361 'DEFAULT',
362 'DELETE',
363 'DELETING',
364 'DETERMINISTIC',
365 'DISCONNECT',
366 'DISTINCT',
367 'DOUBLE',
368 'DROP',
369 'ELSE',
370 'END',
371 'ESCAPE',
372 'EXECUTE',
373 'EXISTS',
374 'EXTERNAL',
375 'EXTRACT',
376 'FALSE',
377 'FETCH',
378 'FILTER',
379 'FLOAT',
380 'FOR',
381 'FOREIGN',
382 'FROM',
383 'FULL',
384 'FUNCTION',
385 'GDSCODE',
386 'GLOBAL',
387 'GRANT',
388 'GROUP',
389 'HAVING',
390 'HOUR',
391 'IN',
392 'INDEX',
393 'INNER',
394 'INSENSITIVE',
395 'INSERT',
396 'INSERTING',
397 'INT',
398 'INTEGER',
399 'INTO',
400 'IS',
401 'JOIN',
402 'KEY',
403 'LEADING',
404 'LEFT',
405 'LIKE',
406 'LONG',
407 'LOWER',
408 'MAX',
409 'MAXIMUM_SEGMENT',
410 'MERGE',
411 'MIN',
412 'MINUTE',
413 'MONTH',
414 'NATIONAL',
415 'NATURAL',
416 'NCHAR',
417 'NO',
418 'NOT',
419 'NULL',
420 'NUMERIC',
421 'OCTET_LENGTH',
422 'OF',
423 'OFFSET',
424 'ON',
425 'ONLY',
426 'OPEN',
427 'OR',
428 'ORDER',
429 'OUTER',
430 'OVER',
431 'PARAMETER',
432 'PLAN',
433 'POSITION',
434 'POST_EVENT',
435 'PRECISION',
436 'PRIMARY',
437 'PROCEDURE',
438 'RDB$DB_KEY',
439 'RDB$RECORD_VERSION',
440 'REAL',
441 'RECORD_VERSION',
442 'RECREATE',
443 'RECURSIVE',
444 'REFERENCES',
445 'REGR_AVGX',
446 'REGR_AVGY',
447 'REGR_COUNT',
448 'REGR_INTERCEPT',
449 'REGR_R2',
450 'REGR_SLOPE',
451 'REGR_SXX',
452 'REGR_SXY',
453 'REGR_SYY',
454 'RELEASE',
455 'RETURN',
456 'RETURNING_VALUES',
457 'RETURNS',
458 'REVOKE',
459 'RIGHT',
460 'ROLLBACK',
461 'ROW',
462 'ROWS',
463 'ROW_COUNT',
464 'SAVEPOINT',
465 'SCROLL',
466 'SECOND',
467 'SELECT',
468 'SENSITIVE',
469 'SET',
470 'SIMILAR',
471 'SMALLINT',
472 'SOME',
473 'SQLCODE',
474 'SQLSTATE',
475 'START',
476 'STDDEV_POP',
477 'STDDEV_SAMP',
478 'SUM',
479 'TABLE',
480 'THEN',
481 'TIME',
482 'TIMESTAMP',
483 'TO',
484 'TRAILING',
485 'TRIGGER',
486 'TRIM',
487 'TRUE',
488 'UNION',
489 'UNIQUE',
490 'UNKNOWN',
491 'UPDATE',
492 'UPDATING',
493 'UPPER',
494 'USER',
495 'USING',
496 'VALUE',
497 'VALUES',
498 'VAR_POP',
499 'VAR_SAMP',
500 'VARCHAR',
501 'VARIABLE',
502 'VARYING',
503 'VIEW',
504 'WHEN',
505 'WHERE',
506 'WHILE',
507 'WITH',
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;
629 function SQLSafeString(const s: AnsiString): AnsiString;
630 function IsSQLIdentifier(Value: AnsiString): boolean;
631 function ExtractConnectString(const CreateSQL: AnsiString; var ConnectString: AnsiString): boolean;
632 function MakeConnectString(ServerName, DatabaseName: AnsiString; Protocol: TProtocol;
633 PortNo: AnsiString = ''): AnsiString;
634 function ParseConnectString(ConnectString: AnsiString;
635 var ServerName, DatabaseName: AnsiString; var Protocol: TProtocolAll;
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 {$IFEND}
643 function ParseDateTimeTZString(aDateTimeStr: Ansistring; var aDateTime: TDateTime;
644 var aTimezone: AnsiString; TimeOnly: boolean=false): boolean; overload;
645 procedure FBDecodeTime(aTime: TDateTime; var Hour, Minute, Second: word; var DeciMillisecond: cardinal);
646 function FBEncodeTime(Hour, Minute, Second, DeciMillisecond: cardinal): TDateTime;
647 function FBFormatDateTime(fmt: AnsiString; aDateTime: TDateTime): AnsiString;
648 function FormatTimeZoneOffset(EffectiveTimeOffsetMins: integer): AnsiString;
649 function DecodeTimeZoneOffset(TZOffset: AnsiString; var dstOffset: integer): boolean;
650 function StripLeadingZeros(Value: AnsiString): AnsiString;
651
652 implementation
653
654 uses FBMessages
655
656 {$IFDEF FPC}
657 ,RegExpr
658 {$ELSE}
659 {$IF declared(CompilerVersion) and (CompilerVersion >= 22)}
660 , RegularExpressions
661 {$IFEND}
662 {$ENDIF};
663
664
665 function Max(n1, n2: Integer): Integer;
666 begin
667 if (n1 > n2) then
668 result := n1
669 else
670 result := n2;
671 end;
672
673 function Min(n1, n2: Integer): Integer;
674 begin
675 if (n1 < n2) then
676 result := n1
677 else
678 result := n2;
679 end;
680
681 function RandomString(iLength: Integer): AnsiString;
682 begin
683 result := '';
684 while Length(result) < iLength do
685 result := result + IntToStr(RandomInteger(0, High(Integer)));
686 if Length(result) > iLength then
687 result := Copy(result, 1, iLength);
688 end;
689
690 function RandomInteger(iLow, iHigh: Integer): Integer;
691 begin
692 result := Trunc(Random(iHigh - iLow)) + iLow;
693 end;
694
695 function StripString(st: AnsiString; CharsToStrip: AnsiString): AnsiString;
696 var
697 i: Integer;
698 begin
699 result := '';
700 for i := 1 to Length(st) do begin
701 if AnsiPos(st[i], CharsToStrip) = 0 then
702 result := result + st[i];
703 end;
704 end;
705
706 {Extracts SQL Identifier typically from a Dialect 3 encoding}
707
708 function ExtractIdentifier(Dialect: Integer; Value: AnsiString): AnsiString;
709 begin
710 Value := Trim(Value);
711 if Dialect = 1 then
712 Value := AnsiUpperCase(Value)
713 else
714 begin
715 if (Value <> '') and (Value[1] = '"') then
716 begin
717 Delete(Value, 1, 1);
718 Delete(Value, Length(Value), 1);
719 Value := StringReplace (Value, '""', '"', [rfReplaceAll]);
720 end
721 else
722 Value := AnsiUpperCase(Value);
723 end;
724 Result := Value;
725 end;
726
727 {Returns true if "w" is a Firebird SQL reserved word, and the
728 corresponding TSQLTokens value.}
729
730 function FindReservedWord(w: AnsiString; var token: TSQLTokens): boolean;
731 var i: TSQLTokens;
732 begin
733 Result := true;
734 w := AnsiUpperCase(Trim(w));
735 for i := Low(TSQLReservedWords) to High(TSQLReservedWords) do
736 begin
737 if w = sqlReservedWords[i] then
738 begin
739 token := i;
740 Exit;
741 end;
742 if w < sqlReservedWords[i] then
743 break;
744 end;
745 Result := false;
746 end;
747
748 {Returns true if "w" is a Firebird SQL reserved word}
749
750 function IsReservedWord(w: AnsiString): boolean;
751 var token: TSQLTokens;
752 begin
753 Result := FindReservedWord(w,token);
754 end;
755
756 {Format an SQL Identifier according to SQL Dialect}
757
758 function QuoteIdentifier(Dialect: Integer; Value: AnsiString): AnsiString;
759 begin
760 Value := TrimRight(Value);
761 if Dialect = 1 then
762 Value := AnsiUpperCase(Value)
763 else
764 Value := '"' + StringReplace (Value, '""', '"', [rfReplaceAll]) + '"';
765 Result := Value;
766 end;
767
768 const
769 ValidSQLIdentifierChars = ['A'..'Z','a'..'z','0'..'9','_','$'];
770
771 {Returns true if the value is a valid SQL Identifier - note lower case accepted}
772
773 function IsSQLIdentifier(Value: AnsiString): boolean;
774 var i: integer;
775 begin
776 Result := false;
777 for i := 1 to Length(Value) do
778 if not (Value[i] in ValidSQLIdentifierChars) then Exit;
779 Result := true;
780 end;
781
782 function SchemeToProtocol(scheme: AnsiString): TProtocolAll;
783 begin
784 scheme := AnsiUpperCase(scheme);
785 if scheme = 'INET' then
786 Result := inet
787 else
788 if scheme = 'INET4' then
789 Result := inet4
790 else
791 if scheme = 'INET6' then
792 Result := inet6
793 else
794 if scheme = 'XNET' then
795 Result := xnet
796 else
797 if scheme = 'WNET' then
798 Result := wnet
799 end;
800
801 {Extracts the Database Connect string from a Create Database Statement}
802
803 {$IF declared(TRegexpr)}
804 function ExtractConnectString(const CreateSQL: AnsiString;
805 var ConnectString: AnsiString): boolean;
806 var RegexObj: TRegExpr;
807 begin
808 RegexObj := TRegExpr.Create;
809 try
810 {extact database file spec}
811 RegexObj.ModifierG := false; {turn off greedy matches}
812 RegexObj.ModifierI := true; {case insensitive match}
813 RegexObj.Expression := '^ *CREATE +(DATABASE|SCHEMA) +''(.*)''';
814 Result := RegexObj.Exec(CreateSQL);
815 if Result then
816 ConnectString := RegexObj.Match[2];
817 finally
818 RegexObj.Free;
819 end;
820 end;
821
822 function ParseConnectString(ConnectString: AnsiString; var ServerName,
823 DatabaseName: AnsiString; var Protocol: TProtocolAll; var PortNo: AnsiString
824 ): boolean;
825
826 var RegexObj: TRegExpr;
827 begin
828 ServerName := '';
829 DatabaseName := ConnectString;
830 PortNo := '';
831 Protocol := unknownProtocol;
832 RegexObj := TRegExpr.Create;
833 try
834 {extact database file spec}
835 RegexObj.ModifierG := false; {turn off greedy matches}
836 RegexObj.Expression := '^([a-zA-Z46]+)://([a-zA-Z0-9\-\.]*)(|:[0-9a-zA-Z\-]+)/(.*)$';
837 Result := RegexObj.Exec(ConnectString);
838 if Result then
839 begin
840 {URL type connect string}
841 Protocol := SchemeToProtocol(RegexObj.Match[1]);
842 ServerName := RegexObj.Match[2];
843 if RegexObj.MatchLen[3] > 0 then
844 PortNo := system.Copy(ConnectString,RegexObj.MatchPos[3]+1,RegexObj.MatchLen[3]-1);
845 DatabaseName := RegexObj.Match[4];
846 if ServerName = '' then
847 DatabaseName := '/' + DatabaseName;
848 end
849 else
850 begin
851 {URL type connect string - local loop}
852 RegexObj.Expression := '^([a-zA-Z46]+)://(.*)$';
853 Result := RegexObj.Exec(ConnectString);
854 if Result then
855 begin
856 Protocol := SchemeToProtocol(RegexObj.Match[1]);
857 DatabaseName := RegexObj.Match[2];
858 end
859 else
860 begin
861 RegexObj.Expression := '^([a-zA-Z]:\\.*)';
862 Result := RegexObj.Exec(ConnectString);
863 if Result then
864 Protocol := Local {Windows with leading drive ID}
865 else
866 begin
867 RegexObj.Expression := '^([a-zA-Z0-9\-\.]+)(|/[0-9a-zA-Z\-]+):(.*)$';
868 Result := RegexObj.Exec(ConnectString);
869 if Result then
870 begin
871 {Legacy TCP Format}
872 ServerName := RegexObj.Match[1];
873 if RegexObj.MatchLen[2] > 0 then
874 PortNo := system.Copy(ConnectString,RegexObj.MatchPos[2]+1,RegexObj.MatchLen[2]-1);
875 DatabaseName := RegexObj.Match[3];
876 Protocol := TCP;
877 end
878 else
879 begin
880 RegexObj.Expression := '^\\\\([a-zA-Z0-9\-\.]+)(|@[0-9a-zA-Z\-]+)\\(.*)$';
881 Result := RegexObj.Exec(ConnectString);
882 if Result then
883 begin
884 {Netbui}
885 ServerName := RegexObj.Match[1];
886 if RegexObj.MatchLen[2] > 0 then
887 PortNo := system.Copy(ConnectString,RegexObj.MatchPos[2]+1,RegexObj.MatchLen[2]-1);
888 DatabaseName := RegexObj.Match[3];
889 Protocol := NamedPipe
890 end
891 else
892 begin
893 Result := true;
894 Protocol := Local; {Assume local}
895 end;
896 end;
897 end;
898 end;
899 end;
900 finally
901 RegexObj.Free;
902 end;
903 end;
904
905 {$ELSE}
906 {$IF declared(TRegex)}
907 function ExtractConnectString(const CreateSQL: AnsiString;
908 var ConnectString: AnsiString): boolean;
909 var Regex: TRegEx;
910 Match: TMatch;
911 begin
912 Regex := TRegEx.Create('^ *CREATE +(DATABASE|SCHEMA) +''(.*)''',[roIgnoreCase]);
913 {extact database file spec}
914 Match := Regex.Match(CreateSQL);
915 Result := Match.Success and (Match.Groups.Count = 3);
916 if Result then
917 ConnectString := Match.Groups[2].Value;
918 end;
919
920 function ParseConnectString(ConnectString: AnsiString; var ServerName,
921 DatabaseName: AnsiString; var Protocol: TProtocolAll; var PortNo: AnsiString
922 ): boolean;
923
924 var Regex: TRegEx;
925 Match: TMatch;
926 begin
927 ServerName := '';
928 DatabaseName := ConnectString;
929 PortNo := '';
930 Protocol := unknownProtocol;
931 {extact database file spec}
932 Match := Regex.Match(ConnectString,'^([a-zA-Z46]+)://([a-zA-Z0-9\-\.]*)(|:[0-9a-zA-Z\-]+)/(.*)$',[roIgnoreCase]);
933 Result := Match.Success and (Match.Groups.Count = 5);
934 if Result then
935 begin
936 {URL type connect string}
937 Protocol := SchemeToProtocol(Match.Groups[1].Value);
938 ServerName := Match.Groups[2].Value;
939 PortNo := Match.Groups[3].Value;
940 DatabaseName := Match.Groups[4].Value;
941 if ServerName = '' then
942 DatabaseName := '/' + DatabaseName;
943 end
944 else
945 begin
946 {URL type connect string - local loop}
947 Match := Regex.Match(ConnectString,'^([a-zA-Z46]+)://(.*)$',[roIgnoreCase]);
948 Result := Match.Success and (Match.Groups.Count = 3);
949 if Result then
950 begin
951 Protocol := SchemeToProtocol(Match.Groups[1].Value);
952 DatabaseName := Match.Groups[2].Value;
953 end
954 else
955 begin
956 Match := Regex.Match(ConnectString,'^([a-zA-Z]:\\.*)',[roIgnoreCase]);
957 Result := Match.Success;
958 if Result then
959 Protocol := Local {Windows with leading drive ID}
960 else
961 begin
962 Match := Regex.Match(ConnectString,'^([a-zA-Z0-9\-\.]+)(|/[0-9a-zA-Z\-]+):(.*)$',[roIgnoreCase]);
963 Result := Match.Success and (Match.Groups.Count = 4);
964 if Result then
965 begin
966 {Legacy TCP Format}
967 ServerName := Match.Groups[1].Value;
968 PortNo := Match.Groups[2].Value;
969 DatabaseName := Match.Groups[3].Value;
970 Protocol := TCP;
971 end
972 else
973 begin
974 Match := Regex.Match(ConnectString,'^\\\\([a-zA-Z0-9\-\.]+)(|@[0-9a-zA-Z\-]+)\\(.*)$',[roIgnoreCase]);
975 Result := Match.Success and (Match.Groups.Count = 4);
976 if Result then
977 begin
978 {Netbui}
979 ServerName := Match.Groups[1].Value;
980 PortNo := Match.Groups[2].Value;
981 DatabaseName := Match.Groups[3].Value;
982 Protocol := NamedPipe
983 end
984 else
985 begin
986 Result := true;
987 Protocol := Local; {Assume local}
988 end;
989 end;
990 end;
991 end;
992 end;
993 end;
994 {$ELSE}
995 {cruder version of above for Delphi < XE. Older versions lack regular expression
996 handling.}
997 function ExtractConnectString(const CreateSQL: AnsiString;
998 var ConnectString: AnsiString): boolean;
999 var i: integer;
1000 begin
1001 Result := false;
1002 i := Pos('''',CreateSQL);
1003 if i > 0 then
1004 begin
1005 ConnectString := CreateSQL;
1006 delete(ConnectString,1,i);
1007 i := Pos('''',ConnectString);
1008 if i > 0 then
1009 begin
1010 delete(ConnectString,i,Length(ConnectString)-i+1);
1011 Result := true;
1012 end;
1013 end;
1014 end;
1015
1016 function ParseConnectString(ConnectString: AnsiString;
1017 var ServerName, DatabaseName: AnsiString; var Protocol: TProtocolAll;
1018 var PortNo: AnsiString): boolean;
1019 begin
1020 Result := false;
1021 end;
1022
1023 {$IFEND}
1024 {$IFEND}
1025
1026 function GetProtocol(ConnectString: AnsiString): TProtocolAll;
1027 var ServerName,
1028 DatabaseName: AnsiString;
1029 PortNo: AnsiString;
1030 begin
1031 if not ParseConnectString(ConnectString,ServerName,DatabaseName,Result,PortNo) then
1032 Result := unknownProtocol;
1033 end;
1034
1035 {Make a connect string in format appropriate protocol}
1036
1037 function MakeConnectString(ServerName, DatabaseName: AnsiString;
1038 Protocol: TProtocol; PortNo: AnsiString): AnsiString;
1039
1040 function FormatURL: AnsiString;
1041 begin
1042 if (ServerName = '') and (Pos('/',DatabaseName) <= 1) then
1043 Result := DatabaseName
1044 else
1045 Result := ServerName + '/' + DatabaseName;
1046 end;
1047
1048 begin
1049 if ServerName = '' then ServerName := 'localhost';
1050 if PortNo <> '' then
1051 case Protocol of
1052 NamedPipe:
1053 ServerName := ServerName + '@' + PortNo;
1054 Local,
1055 SPX,
1056 xnet: {do nothing};
1057 TCP:
1058 ServerName := ServerName + '/' + PortNo;
1059 else
1060 ServerName := ServerName + ':' + PortNo;
1061 end;
1062
1063 case Protocol of
1064 TCP: Result := ServerName + ':' + DatabaseName; {do not localize}
1065 SPX: Result := ServerName + '@' + DatabaseName; {do not localize}
1066 NamedPipe: Result := '\\' + ServerName + '\' + DatabaseName; {do not localize}
1067 Local: Result := DatabaseName; {do not localize}
1068 inet: Result := 'inet://' + FormatURL; {do not localize}
1069 inet4: Result := 'inet4://' + FormatURL; {do not localize}
1070 inet6: Result := 'inet6://' + FormatURL; {do not localize}
1071 wnet: Result := 'wnet://' + FormatURL; {do not localize}
1072 xnet: Result := 'xnet://' + FormatURL; {do not localize}
1073 end;
1074 end;
1075
1076 {Format an SQL Identifier according to SQL Dialect with encapsulation if necessary}
1077
1078 function QuoteIdentifierIfNeeded(Dialect: Integer; Value: AnsiString): AnsiString;
1079 begin
1080 Value := TrimRight(Value);
1081 if (Dialect = 3) and
1082 (IsReservedWord(Value) or not IsSQLIdentifier(Value) or (AnsiUpperCase(Value) <> Value)) then
1083 Result := '"' + StringReplace (TrimRight(Value), '"', '""', [rfReplaceAll]) + '"'
1084 else
1085 Result := Value
1086 end;
1087
1088 {Replaces unknown characters in a string with underscores}
1089
1090 function Space2Underscore(s: AnsiString): AnsiString;
1091 var
1092 k: integer;
1093 begin
1094 Result := s;
1095 for k := 1 to Length(s) do
1096 if not (Result[k] in ValidSQLIdentifierChars) then
1097 Result[k] := '_';
1098 end;
1099
1100 {Reformats an SQL string with single quotes duplicated.}
1101
1102 function SQLSafeString(const s: AnsiString): AnsiString;
1103 begin
1104 Result := StringReplace(s,'''','''''',[rfReplaceAll]);
1105 end;
1106
1107 { TSQLParamProcessor }
1108
1109 function TSQLParamProcessor.DoExecute(GenerateParamNames: boolean;
1110 var slNames: TStrings): AnsiString;
1111 var token: TSQLTokens;
1112 iParamSuffix: Integer;
1113 begin
1114 Result := '';
1115 iParamSuffix := 0;
1116
1117 while not EOF do
1118 begin
1119 token := GetNextToken;
1120 case token of
1121 sqltParam,
1122 sqltQuotedParam:
1123 begin
1124 Result := Result + '?';
1125 slNames.Add(TokenText);
1126 end;
1127
1128 sqltPlaceHolder:
1129 if GenerateParamNames then
1130 begin
1131 Inc(iParamSuffix);
1132 slNames.AddObject(sIBXParam + IntToStr(iParamSuffix),self); //Note local convention
1133 //add pointer to self to mark entry
1134 Result := Result + '?';
1135 end
1136 else
1137 IBError(ibxeSQLParseError, [SParamNameExpected]);
1138
1139 sqltQuotedString:
1140 Result := Result + '''' + SQLSafeString(TokenText) + '''';
1141
1142 sqltIdentifierInDoubleQuotes:
1143 Result := Result + '"' + StringReplace(TokenText,'"','""',[rfReplaceAll]) + '"';
1144
1145 sqltComment:
1146 Result := Result + '/*' + TokenText + '*/';
1147
1148 sqltCommentLine:
1149 Result := Result + '--' + TokenText + LineEnding;
1150
1151 sqltEOL:
1152 Result := Result + LineEnding;
1153
1154 else
1155 Result := Result + TokenText;
1156 end;
1157 end;
1158 end;
1159
1160 function TSQLParamProcessor.GetChar: AnsiChar;
1161 begin
1162 if FIndex <= Length(FInString) then
1163 begin
1164 Result := FInString[FIndex];
1165 Inc(FIndex);
1166 end
1167 else
1168 Result := #0;
1169 end;
1170
1171 class function TSQLParamProcessor.Execute(sSQL: AnsiString;
1172 GenerateParamNames: boolean; var slNames: TStrings): AnsiString;
1173 begin
1174 with self.Create do
1175 try
1176 FInString := sSQL;
1177 FIndex := 1;
1178 Result := DoExecute(GenerateParamNames,slNames);
1179 finally
1180 Free;
1181 end;
1182 end;
1183
1184 { TSQLwithNamedParamsTokeniser }
1185
1186 procedure TSQLwithNamedParamsTokeniser.Assign(source: TSQLTokeniser);
1187 begin
1188 inherited Assign(source);
1189 if source is TSQLwithNamedParamsTokeniser then
1190 begin
1191 FState := TSQLwithNamedParamsTokeniser(source).FState;
1192 FNested := TSQLwithNamedParamsTokeniser(source).FNested;
1193 end;
1194 end;
1195
1196 procedure TSQLwithNamedParamsTokeniser.Reset;
1197 begin
1198 inherited Reset;
1199 FState := stInit;
1200 FNested := 0;
1201 end;
1202
1203 function TSQLwithNamedParamsTokeniser.TokenFound(var token: TSQLTokens
1204 ): boolean;
1205 begin
1206 Result := inherited TokenFound(token);
1207 if not Result then Exit;
1208
1209 case FState of
1210 stInit:
1211 begin
1212 case token of
1213 sqltColon:
1214 begin
1215 FState := stInParam;
1216 ResetQueue(token);
1217 end;
1218
1219 sqltBegin:
1220 begin
1221 FState := stInBlock;
1222 FNested := 1;
1223 end;
1224
1225 sqltOpenSquareBracket:
1226 FState := stInArrayDim;
1227
1228 end;
1229 end;
1230
1231 stInParam:
1232 begin
1233 case token of
1234 sqltIdentifier:
1235 token := sqltParam;
1236
1237 sqltIdentifierInDoubleQuotes:
1238 token := sqltQuotedParam;
1239
1240 else
1241 begin
1242 QueueToken(token);
1243 ReleaseQueue(token);
1244 end;
1245 end;
1246 FState := stInit;
1247 end;
1248
1249 stInBlock:
1250 begin
1251 case token of
1252 sqltBegin,
1253 sqltCase:
1254 Inc(FNested);
1255
1256 sqltEnd:
1257 begin
1258 Dec(FNested);
1259 if FNested = 0 then
1260 FState := stInit;
1261 end;
1262 end;
1263 end;
1264
1265 stInArrayDim:
1266 begin
1267 if token = sqltCloseSquareBracket then
1268 FState := stInit;
1269 end;
1270 end;
1271
1272 Result := (FState <> stInParam);
1273 end;
1274
1275 { TSQLTokeniser }
1276
1277 function TSQLTokeniser.GetNext: TSQLTokens;
1278 var C: AnsiChar;
1279 begin
1280 if EOF then
1281 Result := sqltEOF
1282 else
1283 begin
1284 C := GetChar;
1285 case C of
1286 #0:
1287 Result := sqltEOF;
1288 ' ',TAB:
1289 Result := sqltSpace;
1290 '0'..'9':
1291 Result := sqltNumberString;
1292 ';':
1293 Result := sqltSemiColon;
1294 '?':
1295 Result := sqltPlaceholder;
1296 '|':
1297 Result := sqltPipe;
1298 '"':
1299 Result := sqltDoubleQuotes;
1300 '''':
1301 Result := sqltSingleQuotes;
1302 '/':
1303 Result := sqltForwardSlash;
1304 '\':
1305 Result := sqltBackslash;
1306 '*':
1307 Result := sqltAsterisk;
1308 '(':
1309 Result := sqltOpenBracket;
1310 ')':
1311 Result := sqltCloseBracket;
1312 ':':
1313 Result := sqltColon;
1314 ',':
1315 Result := sqltComma;
1316 '.':
1317 Result := sqltPeriod;
1318 '=':
1319 Result := sqltEquals;
1320 '[':
1321 Result := sqltOpenSquareBracket;
1322 ']':
1323 Result := sqltCloseSquareBracket;
1324 '-':
1325 Result := sqltMinus;
1326 '<':
1327 Result := sqltLT;
1328 '>':
1329 Result := sqltGT;
1330 CR:
1331 Result := sqltCR;
1332 LF:
1333 Result := sqltEOL;
1334 else
1335 if C in ValidSQLIdentifierChars then
1336 Result := sqltIdentifier
1337 else
1338 Result := sqltOtherCharacter;
1339 end;
1340 FLastChar := C
1341 end;
1342 FNextToken := Result;
1343 end;
1344
1345 procedure TSQLTokeniser.PopQueue(var token: TSQLTokens);
1346 begin
1347 if FQFirst = FQLast then
1348 IBError(ibxeTokenQueueUnderflow,[]);
1349 token := FTokenQueue[FQFirst].token;
1350 FString := FTokenQueue[FQFirst].text;
1351 Inc(FQFirst);
1352 if FQFirst = FQLast then
1353 FQueueState := tsHold;
1354 end;
1355
1356 procedure TSQLTokeniser.Assign(source: TSQLTokeniser);
1357 begin
1358 FString := source.FString;
1359 FNextToken := source.FNextToken;
1360 FTokenQueue := source.FTokenQueue;
1361 FQueueState := source.FQueueState;
1362 FQFirst := source.FQFirst;
1363 FQLast := source.FQLast;
1364 end;
1365
1366 function TSQLTokeniser.TokenFound(var token: TSQLTokens): boolean;
1367 begin
1368 Result := (FState = stDefault);
1369 if Result and (token = sqltIdentifier) then
1370 FindReservedWord(FString,token);
1371 end;
1372
1373 procedure TSQLTokeniser.QueueToken(token: TSQLTokens; text: AnsiString);
1374 begin
1375 if FQLast > TokenQueueMaxSize then
1376 IBError(ibxeTokenQueueOverflow,[]);
1377 FTokenQueue[FQLast].token := token;
1378 FTokenQueue[FQLast].text := text;
1379 Inc(FQLast);
1380 end;
1381
1382 procedure TSQLTokeniser.QueueToken(token: TSQLTokens);
1383 begin
1384 QueueToken(token,TokenText);
1385 end;
1386
1387 procedure TSQLTokeniser.ResetQueue;
1388 begin
1389 FQFirst := 0;
1390 FQLast := 0;
1391 FQueueState := tsHold;
1392 end;
1393
1394 procedure TSQLTokeniser.ResetQueue(token: TSQLTokens; text: AnsiString);
1395 begin
1396 ResetQueue;
1397 QueueToken(token,text);
1398 end;
1399
1400 procedure TSQLTokeniser.ResetQueue(token: TSQLTokens);
1401 begin
1402 ResetQueue;
1403 QueueToken(token);
1404 end;
1405
1406 procedure TSQLTokeniser.ReleaseQueue(var token: TSQLTokens);
1407 begin
1408 FQueueState := tsRelease;
1409 PopQueue(token);
1410 end;
1411
1412 procedure TSQLTokeniser.ReleaseQueue;
1413 begin
1414 FQueueState := tsRelease;
1415 end;
1416
1417 function TSQLTokeniser.GetQueuedText: AnsiString;
1418 var i: integer;
1419 begin
1420 Result := '';
1421 for i := FQFirst to FQLast do
1422 Result := Result + FTokenQueue[i].text;
1423 end;
1424
1425 procedure TSQLTokeniser.SetTokenText(text: AnsiString);
1426 begin
1427 FString := text;
1428 end;
1429
1430 constructor TSQLTokeniser.Create;
1431 begin
1432 inherited Create;
1433 Reset;
1434 end;
1435
1436 destructor TSQLTokeniser.Destroy;
1437 begin
1438 Reset;
1439 inherited Destroy;
1440 end;
1441
1442 procedure TSQLTokeniser.Reset;
1443 begin
1444 FNextToken := sqltInit;
1445 FState := stDefault;
1446 FString := '';
1447 FEOF := false;
1448 ResetQueue;
1449 end;
1450
1451 function TSQLTokeniser.GetNextToken: TSQLTokens;
1452 begin
1453 if FQueueState = tsRelease then
1454 repeat
1455 PopQueue(Result);
1456 FEOF := Result = sqltEOF;
1457 if TokenFound(Result) then
1458 Exit;
1459 until FQueueState <> tsRelease;
1460
1461 Result := InternalGetNextToken;
1462 end;
1463
1464 {a simple lookahead one algorithm to extra the next symbol}
1465
1466 function TSQLTokeniser.InternalGetNextToken: TSQLTokens;
1467 var C: AnsiChar;
1468 begin
1469 Result := sqltEOF;
1470
1471 if FNextToken = sqltInit then
1472 GetNext;
1473
1474 repeat
1475 Result := FNextToken;
1476 C := FLastChar;
1477 GetNext;
1478
1479 if FSkipNext then
1480 begin
1481 FSkipNext := false;
1482 continue;
1483 end;
1484
1485 case FState of
1486 stInComment:
1487 begin
1488 if (Result = sqltAsterisk) and (FNextToken = sqltForwardSlash) then
1489 begin
1490 FState := stDefault;
1491 Result := sqltComment;
1492 GetNext;
1493 end
1494 else
1495 FString := FString + C;
1496 end;
1497
1498 stInCommentLine:
1499 begin
1500 case Result of
1501 sqltEOL:
1502 begin
1503 FState := stDefault;
1504 Result := sqltCommentLine;
1505 end;
1506
1507 sqltCR: {ignore};
1508
1509 else
1510 FString := FString + C;
1511 end;
1512 end;
1513
1514 stSingleQuoted:
1515 begin
1516 if (Result = sqltSingleQuotes) then
1517 begin
1518 if (FNextToken = sqltSingleQuotes) then
1519 begin
1520 FSkipNext := true;
1521 FString := FString + C;
1522 end
1523 else
1524 begin
1525 Result := sqltQuotedString;
1526 FState := stDefault;
1527 end;
1528 end
1529 else
1530 FString := FString + C;
1531 end;
1532
1533 stDoubleQuoted:
1534 begin
1535 if (Result = sqltDoubleQuotes) then
1536 begin
1537 if (FNextToken = sqltDoubleQuotes) then
1538 begin
1539 FSkipNext := true;
1540 FString := FString + C;
1541 end
1542 else
1543 begin
1544 Result := sqltIdentifierInDoubleQuotes;
1545 FState := stDefault;
1546 end;
1547 end
1548 else
1549 FString := FString + C;
1550 end;
1551
1552 stInIdentifier:
1553 begin
1554 FString := FString + C;
1555 Result := sqltIdentifier;
1556 if not (FNextToken in [sqltIdentifier,sqltNumberString]) then
1557 FState := stDefault
1558 end;
1559
1560 stInNumeric:
1561 begin
1562 FString := FString + C;
1563 if (Result = sqltPeriod) and (FNextToken = sqltPeriod) then
1564 begin
1565 {malformed decimal}
1566 FState := stInIdentifier;
1567 Result := sqltIdentifier
1568 end
1569 else
1570 begin
1571 if not (FNextToken in [sqltNumberString,sqltPeriod]) then
1572 FState := stDefault;
1573 Result := sqltNumberString;
1574 end;
1575 end;
1576
1577 else {stDefault}
1578 begin
1579 FString := C;
1580 case Result of
1581
1582 sqltPipe:
1583 if FNextToken = sqltPipe then
1584 begin
1585 Result := sqltConcatSymbol;
1586 FString := C + FLastChar;
1587 GetNext;
1588 end;
1589
1590 sqltForwardSlash:
1591 begin
1592 if FNextToken = sqltAsterisk then
1593 begin
1594 FString := '';
1595 GetNext;
1596 FState := stInComment;
1597 end
1598 end;
1599
1600 sqltMinus:
1601 begin
1602 if FNextToken = sqltMinus then
1603 begin
1604 FString := '';
1605 GetNext;
1606 FState := stInCommentLine;
1607 end;
1608 end;
1609
1610 sqltSingleQuotes:
1611 begin
1612 FString := '';
1613 FState := stSingleQuoted;
1614 end;
1615
1616 sqltDoubleQuotes:
1617 begin
1618 FString := '';
1619 FState := stDoubleQuoted;
1620 end;
1621
1622 sqltIdentifier:
1623 if FNextToken in [sqltIdentifier,sqltNumberString] then
1624 FState := stInIdentifier;
1625
1626 sqltNumberString:
1627 if FNextToken in [sqltNumberString,sqltPeriod] then
1628 FState := stInNumeric;
1629 end;
1630 end;
1631 end;
1632
1633 // writeln(FString);
1634 FEOF := Result = sqltEOF;
1635 until TokenFound(Result) or EOF;
1636 end;
1637
1638 function ParseDateTimeTZString(aDateTimeStr: Ansistring; var aDateTime: TDateTime;
1639 var aTimezone: AnsiString; TimeOnly: boolean): boolean;
1640 {$IF declared(TFormatSettings)}
1641 begin
1642 {$IF declared(DefaultFormatSettings)}
1643 Result := ParseDateTimeTZString(aDateTimeStr,aDateTime,aTimeZone,DefaultFormatSettings,TimeOnly);
1644 {$ELSE}
1645 {$IF declared(FormatSettings)}
1646 Result := ParseDateTimeTZString(aDateTimeStr,aDateTime,aTimeZone,FormatSettings,TimeOnly);
1647 {$IFEND} {$IFEND}
1648 end;
1649
1650 function ParseDateTimeTZString(aDateTimeStr: Ansistring; var aDateTime: TDateTime;
1651 var aTimezone: AnsiString; aFormatSettings: TFormatSettings; TimeOnly: boolean=false): boolean;
1652 {$IFEND}
1653 const
1654 whitespacechars = [' ',#$09,#$0A,#$0D];
1655 var i,j,l: integer;
1656 aTime: TDateTime;
1657 DMs: longint;
1658 begin
1659 Result := false;
1660 aTimezone := '';
1661 if aDateTimeStr <> '' then
1662 {$if declared(TFormatSettings)}
1663 with aFormatSettings do
1664 {$IFEND}
1665 begin
1666 aDateTime := 0;
1667 {Parse to get time zone info}
1668 i := 1;
1669 while (i <= length(aDateTimeStr)) and (aDateTimeStr[i] in whitespacechars) do inc(i); {skip white space}
1670 if not TimeOnly then
1671 begin
1672 {decode date}
1673 j := i;
1674 while (j <= length(aDateTimeStr)) and (aDateTimeStr[j] in ['0'..'9',DateSeparator]) do inc(j);
1675 if TryStrToDate(system.copy(aDateTimeStr,i,j-i),aDateTime) then
1676 i := j; {otherwise start again i.e. assume time only}
1677 end;
1678
1679 while (i <= length(aDateTimeStr)) and (aDateTimeStr[i] in whitespacechars) do inc(i); {skip white space}
1680 {decode time}
1681 j := i;
1682 while (j <= length(aDateTimeStr)) and (aDateTimeStr[j] in ['0'..'9',TimeSeparator]) do inc(j);
1683 Result := TryStrToTime(system.copy(aDateTimeStr,i,j-i),aTime);
1684 if not Result then Exit;
1685 aDateTime := aDateTime + aTime;
1686 i := j;
1687
1688 {is there a factional second part}
1689 if (i <= length(aDateTimeStr)) and (aDateTimeStr[i] = '.') then
1690 begin
1691 inc(i);
1692 inc(j);
1693 while (j <= Length(aDateTimeStr)) and (aDateTimeStr[j] in ['0'..'9']) do inc(j);
1694 if j > i then
1695 begin
1696 l := j-i;
1697 if l > 4 then l := 4;
1698 Result := TryStrToInt(system.copy(aDateTimeStr,i,l),DMs);
1699 if not Result then Exit;
1700
1701 {adjust for number of significant digits}
1702 case l of
1703 3: DMs := DMs * 10;
1704 2: DMs := DMs * 100;
1705 1: DMs := DMs * 1000;
1706 end;
1707 aDateTime := aDateTime + (DMs / (MsecsPerDay*10));
1708 end;
1709 end;
1710 i := j;
1711
1712 while (i <= length(aDateTimeStr)) and (aDateTimeStr[i] in whitespacechars) do inc(i); {skip white space}
1713 {decode time zone}
1714 if i < length(aDateTimeStr) then
1715 begin
1716 j := i;
1717 while (j <= length(aDateTimeStr)) and not (aDateTimeStr[j] in whitespacechars) do inc(j);
1718 aTimezone := system.copy(aDateTimeStr,i,j-i);
1719 end;
1720 Result := true;
1721 end
1722 end;
1723
1724 {The following is similar to FPC DecodeTime except that the Firebird standard
1725 decimilliseconds is used instead of milliseconds for fractional seconds}
1726
1727 procedure FBDecodeTime(aTime: TDateTime; var Hour, Minute, Second: word;
1728 var DeciMillisecond: cardinal);
1729 var D : Double;
1730 l : cardinal;
1731 begin
1732 {conversion to decimilliseconds hacked from FPC DateTimeToTimeStamp}
1733 D := aTime * MSecsPerDay *10;
1734 if D < 0 then
1735 D := D - 0.5
1736 else
1737 D := D + 0.5;
1738 {rest hacked from FPC DecodeTIme}
1739 l := Abs(Trunc(D)) Mod (MSecsPerDay*10);
1740 Hour := l div 36000000;
1741 l := l mod 36000000;
1742 Minute := l div 600000;
1743 l := l mod 600000;
1744 Second := l div 10000;
1745 DeciMillisecond := l mod 10000;
1746 end;
1747
1748 {The following is similar to FPC EncodeTime except that the Firebird standard
1749 decimilliseconds is used instead of milliseconds for fractional seconds}
1750
1751 function FBEncodeTime(Hour, Minute, Second, DeciMillisecond: cardinal): TDateTime;
1752 const DMSecsPerDay = MSecsPerDay*10;
1753 var DMs: cardinal;
1754 D: Double;
1755 begin
1756 if (Hour<24) and (Minute<60) and (Second<60) and (DeciMillisecond<10000) then
1757 begin
1758 DMs := Hour*36000000+Minute*600000+Second*10000+DeciMillisecond;
1759 D := DMs/DMSecsPerDay;
1760 Result:=TDateTime(d)
1761 end
1762 else
1763 IBError(ibxeBadTimeSpecification,[Hour, Minute, Second, DeciMillisecond]);
1764 end;
1765
1766 {The following is similar to FPC FormatDateTime except that it additionally
1767 allows the timstamp to have a fractional seconds component with a resolution
1768 of four decimal places. This is appended to the result for FormatDateTime
1769 if the format string contains a "zzzz' string.}
1770
1771 function FBFormatDateTime(fmt: AnsiString; aDateTime: TDateTime): AnsiString;
1772 var Hour, Minute, Second: word;
1773 DeciMillisecond: cardinal;
1774 begin
1775 if Pos('zzzz',fmt) > 0 then
1776 begin
1777 FBDecodeTime(aDateTime, Hour, Minute, Second, DeciMillisecond);
1778 fmt := StringReplace(fmt, 'zzzz', Format('%.4d',[DeciMillisecond]), [rfReplaceAll]);
1779 end;
1780 Result := FormatDateTime(fmt,aDateTime);
1781 end;
1782
1783 function FormatTimeZoneOffset(EffectiveTimeOffsetMins: integer): AnsiString;
1784 begin
1785 if EffectiveTimeOffsetMins > 0 then
1786 Result := Format('+%.2d:%.2d',[EffectiveTimeOffsetMins div 60,abs(EffectiveTimeOffsetMins mod 60)])
1787 else
1788 Result := Format('%.2d:%.2d',[EffectiveTimeOffsetMins div 60,abs(EffectiveTimeOffsetMins mod 60)]);
1789 end;
1790
1791 function DecodeTimeZoneOffset(TZOffset: AnsiString; var dstOffset: integer): boolean;
1792 var i: integer;
1793 begin
1794 Result := false;
1795 TZOffset := Trim(TZOffset);
1796 for i := 1 to Length(TZOffset) do
1797 if not (TZOffset[i] in ['0'..'9','-','+',':']) then Exit;
1798
1799 Result := true;
1800 i := Pos(':',TZOffset);
1801 if i > 0 then
1802 dstOffset := StrToInt(copy(TZOffset,1,i-1)) * 60 + StrToInt(copy(TZOffset,i + 1))
1803 else
1804 dstOffset := StrToInt(TZOffset) * 60;
1805 end;
1806
1807 function StripLeadingZeros(Value: AnsiString): AnsiString;
1808 var i: Integer;
1809 start: integer;
1810 begin
1811 Result := '';
1812 start := 1;
1813 if (Length(Value) > 0) and (Value[1] = '-') then
1814 begin
1815 Result := '-';
1816 start := 2;
1817 end;
1818 for i := start to Length(Value) do
1819 if Value[i] <> '0' then
1820 begin
1821 Result := Result + system.copy(Value, i, MaxInt);
1822 Exit;
1823 end;
1824 end;
1825
1826 end.