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root/public/ibx/branches/udr/client/IBUtils.pas
Revision: 362
Committed: Tue Dec 7 13:27:39 2021 UTC (2 years, 11 months ago) by tony
Content type: text/x-pascal
Original Path: ibx/branches/journaling/fbintf/IBUtils.pas
File size: 47148 byte(s)
Log Message:
initiate test release

File Contents

# User Rev Content
1 tony 45 {************************************************************************}
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 tony 56 {$IFDEF MSWINDOWS}
36 tony 118 {$DEFINE WINDOWS}
37 tony 56 {$ENDIF}
38 tony 45
39     {$IFDEF FPC}
40     {$Mode Delphi}
41     {$codepage UTF8}
42     {$ENDIF}
43    
44 tony 315 { $IF declared(CompilerVersion) and (CompilerVersion >= 22)}
45     { $define HASDELPHIREQEX}
46     { $IFEND}
47 tony 118
48 tony 45 interface
49    
50 tony 143 uses Classes, SysUtils, IB;
51 tony 45
52 tony 263 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 tony 270 sqltBackslash,
264 tony 263 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 tony 287 sqltMinus,
286 tony 263 sqltConcatSymbol,
287     sqltLT,
288     sqltGT,
289     sqltCR,
290     sqltEOL,
291     sqltEOF,
292     sqltInit
293     );
294    
295     TSQLReservedWords = sqltAdd..sqltYear;
296    
297 tony 45 const
298     CRLF = #13 + #10;
299     CR = #13;
300     LF = #10;
301     TAB = #9;
302     NULL_TERMINATOR = #0;
303    
304 tony 263 {$IFNDEF FPC}
305     LineEnding = CRLF;
306     {$ENDIF}
307    
308     {SQL Reserved words in alphabetical order}
309    
310     sqlReservedWords: array [TSQLReservedWords] of string = (
311 tony 47 '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 tony 209 'KEY',
403 tony 47 '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 tony 263 'ROWS',
463 tony 47 '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 tony 45
511 tony 263 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 tony 359 function ReadCharacters(NumOfChars: integer): AnsiString;
562 tony 263
563     {Token stack}
564     procedure QueueToken(token: TSQLTokens; text:AnsiString); overload;
565     procedure QueueToken(token: TSQLTokens); overload;
566     procedure ResetQueue; overload;
567     procedure ResetQueue(token: TSQLTokens; text:AnsiString); overload;
568     procedure ResetQueue(token: TSQLTokens); overload;
569     procedure ReleaseQueue(var token: TSQLTokens); overload;
570     procedure ReleaseQueue; overload;
571     function GetQueuedText: AnsiString;
572     procedure SetTokenText(text: AnsiString);
573    
574     public
575     const
576     DefaultTerminator = ';';
577     public
578     constructor Create;
579     destructor Destroy; override;
580     function GetNextToken: TSQLTokens;
581     property EOF: boolean read FEOF;
582     property TokenText: AnsiString read FString;
583     end;
584    
585     { TSQLwithNamedParamsTokeniser }
586    
587     TSQLwithNamedParamsTokeniser = class(TSQLTokeniser)
588     private
589     type
590     TSQLState = (stInit,stInParam,stInBlock, stInArrayDim);
591     private
592     FState: TSQLState;
593     FNested: integer;
594     protected
595     procedure Assign(source: TSQLTokeniser); override;
596     procedure Reset; override;
597     function TokenFound(var token: TSQLTokens): boolean; override;
598     end;
599    
600 tony 270 { TSQLParamProcessor }
601    
602     TSQLParamProcessor = class(TSQLwithNamedParamsTokeniser)
603     private
604     const
605     sIBXParam = 'IBXParam'; {do not localize}
606     private
607     FInString: AnsiString;
608     FIndex: integer;
609     function DoExecute(GenerateParamNames: boolean;
610     var slNames: TStrings): AnsiString;
611     protected
612     function GetChar: AnsiChar; override;
613     public
614     class function Execute(sSQL: AnsiString; GenerateParamNames: boolean;
615     var slNames: TStrings): AnsiString;
616     end;
617    
618    
619 tony 45 function Max(n1, n2: Integer): Integer;
620     function Min(n1, n2: Integer): Integer;
621 tony 56 function RandomString(iLength: Integer): AnsiString;
622 tony 45 function RandomInteger(iLow, iHigh: Integer): Integer;
623 tony 56 function StripString(st: AnsiString; CharsToStrip: AnsiString): AnsiString;
624     function ExtractIdentifier(Dialect: Integer; Value: AnsiString): AnsiString;
625 tony 263 function FindReservedWord(w: AnsiString; var token: TSQLTokens): boolean;
626     function IsReservedWord(w: AnsiString): boolean;
627 tony 56 function QuoteIdentifier(Dialect: Integer; Value: AnsiString): AnsiString;
628     function QuoteIdentifierIfNeeded(Dialect: Integer; Value: AnsiString): AnsiString;
629     function Space2Underscore(s: AnsiString): AnsiString;
630     function SQLSafeString(const s: AnsiString): AnsiString;
631 tony 107 function IsSQLIdentifier(Value: AnsiString): boolean;
632 tony 117 function ExtractConnectString(const CreateSQL: AnsiString; var ConnectString: AnsiString): boolean;
633 tony 143 function MakeConnectString(ServerName, DatabaseName: AnsiString; Protocol: TProtocol;
634     PortNo: AnsiString = ''): AnsiString;
635     function ParseConnectString(ConnectString: AnsiString;
636     var ServerName, DatabaseName: AnsiString; var Protocol: TProtocolAll;
637     var PortNo: AnsiString): boolean;
638     function GetProtocol(ConnectString: AnsiString): TProtocolAll;
639 tony 45
640 tony 315 {$IF declared(TFormatSettings)}
641     function ParseDateTimeTZString(aDateTimeStr: Ansistring; var aDateTime: TDateTime;
642     var aTimezone: AnsiString; aFormatSettings: TFormatSettings; TimeOnly: boolean=false): boolean; overload;
643     {$IFEND}
644     function ParseDateTimeTZString(aDateTimeStr: Ansistring; var aDateTime: TDateTime;
645     var aTimezone: AnsiString; TimeOnly: boolean=false): boolean; overload;
646     procedure FBDecodeTime(aTime: TDateTime; var Hour, Minute, Second: word; var DeciMillisecond: cardinal);
647     function FBEncodeTime(Hour, Minute, Second, DeciMillisecond: cardinal): TDateTime;
648     function FBFormatDateTime(fmt: AnsiString; aDateTime: TDateTime): AnsiString;
649     function FormatTimeZoneOffset(EffectiveTimeOffsetMins: integer): AnsiString;
650     function DecodeTimeZoneOffset(TZOffset: AnsiString; var dstOffset: integer): boolean;
651     function StripLeadingZeros(Value: AnsiString): AnsiString;
652 tony 353 function TryStrToNumeric(S: Ansistring; out Value: int64; out scale: integer): boolean;
653     function NumericToDouble(aValue: Int64; aScale: integer): double;
654 tony 315
655 tony 353
656 tony 45 implementation
657    
658 tony 353 uses FBMessages, Math
659 tony 263
660 tony 315 {$IFDEF FPC}
661 tony 263 ,RegExpr
662 tony 315 {$ELSE}
663     {$IF declared(CompilerVersion) and (CompilerVersion >= 22)}
664     , RegularExpressions
665     {$IFEND}
666 tony 263 {$ENDIF};
667 tony 117
668 tony 315
669 tony 45 function Max(n1, n2: Integer): Integer;
670     begin
671     if (n1 > n2) then
672     result := n1
673     else
674     result := n2;
675     end;
676    
677     function Min(n1, n2: Integer): Integer;
678     begin
679     if (n1 < n2) then
680     result := n1
681     else
682     result := n2;
683     end;
684    
685 tony 56 function RandomString(iLength: Integer): AnsiString;
686 tony 45 begin
687     result := '';
688     while Length(result) < iLength do
689     result := result + IntToStr(RandomInteger(0, High(Integer)));
690     if Length(result) > iLength then
691     result := Copy(result, 1, iLength);
692     end;
693    
694     function RandomInteger(iLow, iHigh: Integer): Integer;
695     begin
696     result := Trunc(Random(iHigh - iLow)) + iLow;
697     end;
698    
699 tony 56 function StripString(st: AnsiString; CharsToStrip: AnsiString): AnsiString;
700 tony 45 var
701     i: Integer;
702     begin
703     result := '';
704     for i := 1 to Length(st) do begin
705     if AnsiPos(st[i], CharsToStrip) = 0 then
706     result := result + st[i];
707     end;
708     end;
709    
710 tony 117 {Extracts SQL Identifier typically from a Dialect 3 encoding}
711 tony 45
712 tony 117 function ExtractIdentifier(Dialect: Integer; Value: AnsiString): AnsiString;
713 tony 45 begin
714     Value := Trim(Value);
715     if Dialect = 1 then
716     Value := AnsiUpperCase(Value)
717     else
718     begin
719     if (Value <> '') and (Value[1] = '"') then
720     begin
721     Delete(Value, 1, 1);
722     Delete(Value, Length(Value), 1);
723     Value := StringReplace (Value, '""', '"', [rfReplaceAll]);
724     end
725     else
726     Value := AnsiUpperCase(Value);
727     end;
728     Result := Value;
729     end;
730    
731 tony 263 {Returns true if "w" is a Firebird SQL reserved word, and the
732     corresponding TSQLTokens value.}
733    
734     function FindReservedWord(w: AnsiString; var token: TSQLTokens): boolean;
735     var i: TSQLTokens;
736     begin
737     Result := true;
738     w := AnsiUpperCase(Trim(w));
739     for i := Low(TSQLReservedWords) to High(TSQLReservedWords) do
740     begin
741     if w = sqlReservedWords[i] then
742     begin
743     token := i;
744     Exit;
745     end;
746     if w < sqlReservedWords[i] then
747     break;
748     end;
749     Result := false;
750     end;
751    
752 tony 117 {Returns true if "w" is a Firebird SQL reserved word}
753 tony 45
754 tony 56 function IsReservedWord(w: AnsiString): boolean;
755 tony 263 var token: TSQLTokens;
756 tony 45 begin
757 tony 263 Result := FindReservedWord(w,token);
758 tony 45 end;
759    
760 tony 117 {Format an SQL Identifier according to SQL Dialect}
761    
762 tony 56 function QuoteIdentifier(Dialect: Integer; Value: AnsiString): AnsiString;
763 tony 45 begin
764 tony 311 Value := TrimRight(Value);
765 tony 45 if Dialect = 1 then
766 tony 311 Value := AnsiUpperCase(Value)
767 tony 45 else
768 tony 117 Value := '"' + StringReplace (Value, '""', '"', [rfReplaceAll]) + '"';
769 tony 45 Result := Value;
770     end;
771    
772 tony 107 const
773     ValidSQLIdentifierChars = ['A'..'Z','a'..'z','0'..'9','_','$'];
774    
775 tony 117 {Returns true if the value is a valid SQL Identifier - note lower case accepted}
776    
777 tony 107 function IsSQLIdentifier(Value: AnsiString): boolean;
778     var i: integer;
779     begin
780     Result := false;
781     for i := 1 to Length(Value) do
782     if not (Value[i] in ValidSQLIdentifierChars) then Exit;
783     Result := true;
784     end;
785    
786 tony 315 function SchemeToProtocol(scheme: AnsiString): TProtocolAll;
787     begin
788     scheme := AnsiUpperCase(scheme);
789     if scheme = 'INET' then
790     Result := inet
791     else
792     if scheme = 'INET4' then
793     Result := inet4
794     else
795     if scheme = 'INET6' then
796     Result := inet6
797     else
798     if scheme = 'XNET' then
799     Result := xnet
800     else
801     if scheme = 'WNET' then
802     Result := wnet
803     end;
804    
805 tony 117 {Extracts the Database Connect string from a Create Database Statement}
806    
807 tony 315 {$IF declared(TRegexpr)}
808 tony 117 function ExtractConnectString(const CreateSQL: AnsiString;
809     var ConnectString: AnsiString): boolean;
810     var RegexObj: TRegExpr;
811     begin
812     RegexObj := TRegExpr.Create;
813     try
814     {extact database file spec}
815     RegexObj.ModifierG := false; {turn off greedy matches}
816     RegexObj.ModifierI := true; {case insensitive match}
817     RegexObj.Expression := '^ *CREATE +(DATABASE|SCHEMA) +''(.*)''';
818     Result := RegexObj.Exec(CreateSQL);
819     if Result then
820 tony 143 ConnectString := RegexObj.Match[2];
821 tony 117 finally
822     RegexObj.Free;
823     end;
824     end;
825 tony 143
826     function ParseConnectString(ConnectString: AnsiString; var ServerName,
827     DatabaseName: AnsiString; var Protocol: TProtocolAll; var PortNo: AnsiString
828     ): boolean;
829 tony 231
830 tony 143 var RegexObj: TRegExpr;
831     begin
832     ServerName := '';
833     DatabaseName := ConnectString;
834     PortNo := '';
835     Protocol := unknownProtocol;
836     RegexObj := TRegExpr.Create;
837     try
838     {extact database file spec}
839     RegexObj.ModifierG := false; {turn off greedy matches}
840 tony 231 RegexObj.Expression := '^([a-zA-Z46]+)://([a-zA-Z0-9\-\.]*)(|:[0-9a-zA-Z\-]+)/(.*)$';
841 tony 143 Result := RegexObj.Exec(ConnectString);
842     if Result then
843     begin
844     {URL type connect string}
845 tony 315 Protocol := SchemeToProtocol(RegexObj.Match[1]);
846 tony 143 ServerName := RegexObj.Match[2];
847     if RegexObj.MatchLen[3] > 0 then
848     PortNo := system.Copy(ConnectString,RegexObj.MatchPos[3]+1,RegexObj.MatchLen[3]-1);
849     DatabaseName := RegexObj.Match[4];
850 tony 231 if ServerName = '' then
851     DatabaseName := '/' + DatabaseName;
852 tony 143 end
853     else
854     begin
855 tony 231 {URL type connect string - local loop}
856     RegexObj.Expression := '^([a-zA-Z46]+)://(.*)$';
857 tony 143 Result := RegexObj.Exec(ConnectString);
858     if Result then
859 tony 231 begin
860 tony 315 Protocol := SchemeToProtocol(RegexObj.Match[1]);
861 tony 231 DatabaseName := RegexObj.Match[2];
862     end
863 tony 143 else
864     begin
865 tony 231 RegexObj.Expression := '^([a-zA-Z]:\\.*)';
866 tony 143 Result := RegexObj.Exec(ConnectString);
867     if Result then
868 tony 231 Protocol := Local {Windows with leading drive ID}
869 tony 143 else
870     begin
871 tony 231 RegexObj.Expression := '^([a-zA-Z0-9\-\.]+)(|/[0-9a-zA-Z\-]+):(.*)$';
872 tony 143 Result := RegexObj.Exec(ConnectString);
873     if Result then
874     begin
875 tony 231 {Legacy TCP Format}
876 tony 143 ServerName := RegexObj.Match[1];
877     if RegexObj.MatchLen[2] > 0 then
878     PortNo := system.Copy(ConnectString,RegexObj.MatchPos[2]+1,RegexObj.MatchLen[2]-1);
879     DatabaseName := RegexObj.Match[3];
880 tony 231 Protocol := TCP;
881 tony 143 end
882     else
883     begin
884 tony 231 RegexObj.Expression := '^\\\\([a-zA-Z0-9\-\.]+)(|@[0-9a-zA-Z\-]+)\\(.*)$';
885     Result := RegexObj.Exec(ConnectString);
886     if Result then
887     begin
888     {Netbui}
889     ServerName := RegexObj.Match[1];
890     if RegexObj.MatchLen[2] > 0 then
891     PortNo := system.Copy(ConnectString,RegexObj.MatchPos[2]+1,RegexObj.MatchLen[2]-1);
892     DatabaseName := RegexObj.Match[3];
893     Protocol := NamedPipe
894     end
895     else
896     begin
897     Result := true;
898     Protocol := Local; {Assume local}
899     end;
900 tony 143 end;
901     end;
902     end;
903     end;
904     finally
905     RegexObj.Free;
906     end;
907     end;
908    
909 tony 315 {$ELSE}
910     {$IF declared(TRegex)}
911     function ExtractConnectString(const CreateSQL: AnsiString;
912     var ConnectString: AnsiString): boolean;
913     var Regex: TRegEx;
914     Match: TMatch;
915 tony 143 begin
916 tony 315 Regex := TRegEx.Create('^ *CREATE +(DATABASE|SCHEMA) +''(.*)''',[roIgnoreCase]);
917     {extact database file spec}
918     Match := Regex.Match(CreateSQL);
919     Result := Match.Success and (Match.Groups.Count = 3);
920     if Result then
921     ConnectString := Match.Groups[2].Value;
922 tony 143 end;
923    
924 tony 315 function ParseConnectString(ConnectString: AnsiString; var ServerName,
925     DatabaseName: AnsiString; var Protocol: TProtocolAll; var PortNo: AnsiString
926     ): boolean;
927    
928     var Regex: TRegEx;
929     Match: TMatch;
930     begin
931     ServerName := '';
932     DatabaseName := ConnectString;
933     PortNo := '';
934     Protocol := unknownProtocol;
935     {extact database file spec}
936     Match := Regex.Match(ConnectString,'^([a-zA-Z46]+)://([a-zA-Z0-9\-\.]*)(|:[0-9a-zA-Z\-]+)/(.*)$',[roIgnoreCase]);
937     Result := Match.Success and (Match.Groups.Count = 5);
938     if Result then
939     begin
940     {URL type connect string}
941     Protocol := SchemeToProtocol(Match.Groups[1].Value);
942     ServerName := Match.Groups[2].Value;
943     PortNo := Match.Groups[3].Value;
944     DatabaseName := Match.Groups[4].Value;
945     if ServerName = '' then
946     DatabaseName := '/' + DatabaseName;
947     end
948     else
949     begin
950     {URL type connect string - local loop}
951     Match := Regex.Match(ConnectString,'^([a-zA-Z46]+)://(.*)$',[roIgnoreCase]);
952     Result := Match.Success and (Match.Groups.Count = 3);
953     if Result then
954     begin
955     Protocol := SchemeToProtocol(Match.Groups[1].Value);
956     DatabaseName := Match.Groups[2].Value;
957     end
958     else
959     begin
960     Match := Regex.Match(ConnectString,'^([a-zA-Z]:\\.*)',[roIgnoreCase]);
961     Result := Match.Success;
962     if Result then
963     Protocol := Local {Windows with leading drive ID}
964     else
965     begin
966     Match := Regex.Match(ConnectString,'^([a-zA-Z0-9\-\.]+)(|/[0-9a-zA-Z\-]+):(.*)$',[roIgnoreCase]);
967     Result := Match.Success and (Match.Groups.Count = 4);
968     if Result then
969     begin
970     {Legacy TCP Format}
971     ServerName := Match.Groups[1].Value;
972     PortNo := Match.Groups[2].Value;
973     DatabaseName := Match.Groups[3].Value;
974     Protocol := TCP;
975     end
976     else
977     begin
978     Match := Regex.Match(ConnectString,'^\\\\([a-zA-Z0-9\-\.]+)(|@[0-9a-zA-Z\-]+)\\(.*)$',[roIgnoreCase]);
979     Result := Match.Success and (Match.Groups.Count = 4);
980     if Result then
981     begin
982     {Netbui}
983     ServerName := Match.Groups[1].Value;
984     PortNo := Match.Groups[2].Value;
985     DatabaseName := Match.Groups[3].Value;
986     Protocol := NamedPipe
987     end
988     else
989     begin
990     Result := true;
991     Protocol := Local; {Assume local}
992     end;
993     end;
994     end;
995     end;
996     end;
997     end;
998 tony 118 {$ELSE}
999 tony 315 {cruder version of above for Delphi < XE. Older versions lack regular expression
1000 tony 121 handling.}
1001 tony 118 function ExtractConnectString(const CreateSQL: AnsiString;
1002     var ConnectString: AnsiString): boolean;
1003     var i: integer;
1004     begin
1005     Result := false;
1006     i := Pos('''',CreateSQL);
1007     if i > 0 then
1008     begin
1009     ConnectString := CreateSQL;
1010     delete(ConnectString,1,i);
1011     i := Pos('''',ConnectString);
1012     if i > 0 then
1013     begin
1014     delete(ConnectString,i,Length(ConnectString)-i+1);
1015     Result := true;
1016     end;
1017     end;
1018     end;
1019 tony 143
1020     function ParseConnectString(ConnectString: AnsiString;
1021     var ServerName, DatabaseName: AnsiString; var Protocol: TProtocolAll;
1022     var PortNo: AnsiString): boolean;
1023     begin
1024     Result := false;
1025     end;
1026    
1027 tony 315 {$IFEND}
1028     {$IFEND}
1029 tony 117
1030 tony 315 function GetProtocol(ConnectString: AnsiString): TProtocolAll;
1031     var ServerName,
1032     DatabaseName: AnsiString;
1033     PortNo: AnsiString;
1034     begin
1035     if not ParseConnectString(ConnectString,ServerName,DatabaseName,Result,PortNo) then
1036     Result := unknownProtocol;
1037     end;
1038    
1039 tony 143 {Make a connect string in format appropriate protocol}
1040    
1041     function MakeConnectString(ServerName, DatabaseName: AnsiString;
1042     Protocol: TProtocol; PortNo: AnsiString): AnsiString;
1043 tony 231
1044     function FormatURL: AnsiString;
1045     begin
1046     if (ServerName = '') and (Pos('/',DatabaseName) <= 1) then
1047     Result := DatabaseName
1048     else
1049     Result := ServerName + '/' + DatabaseName;
1050     end;
1051    
1052 tony 143 begin
1053 tony 315 if ServerName = '' then ServerName := 'localhost';
1054 tony 143 if PortNo <> '' then
1055     case Protocol of
1056     NamedPipe:
1057     ServerName := ServerName + '@' + PortNo;
1058     Local,
1059     SPX,
1060     xnet: {do nothing};
1061     TCP:
1062     ServerName := ServerName + '/' + PortNo;
1063     else
1064     ServerName := ServerName + ':' + PortNo;
1065     end;
1066    
1067     case Protocol of
1068     TCP: Result := ServerName + ':' + DatabaseName; {do not localize}
1069     SPX: Result := ServerName + '@' + DatabaseName; {do not localize}
1070     NamedPipe: Result := '\\' + ServerName + '\' + DatabaseName; {do not localize}
1071     Local: Result := DatabaseName; {do not localize}
1072 tony 231 inet: Result := 'inet://' + FormatURL; {do not localize}
1073     inet4: Result := 'inet4://' + FormatURL; {do not localize}
1074     inet6: Result := 'inet6://' + FormatURL; {do not localize}
1075     wnet: Result := 'wnet://' + FormatURL; {do not localize}
1076     xnet: Result := 'xnet://' + FormatURL; {do not localize}
1077 tony 143 end;
1078     end;
1079    
1080 tony 117 {Format an SQL Identifier according to SQL Dialect with encapsulation if necessary}
1081    
1082 tony 56 function QuoteIdentifierIfNeeded(Dialect: Integer; Value: AnsiString): AnsiString;
1083 tony 45 begin
1084 tony 311 Value := TrimRight(Value);
1085 tony 45 if (Dialect = 3) and
1086 tony 115 (IsReservedWord(Value) or not IsSQLIdentifier(Value) or (AnsiUpperCase(Value) <> Value)) then
1087 tony 117 Result := '"' + StringReplace (TrimRight(Value), '"', '""', [rfReplaceAll]) + '"'
1088 tony 45 else
1089     Result := Value
1090     end;
1091    
1092 tony 117 {Replaces unknown characters in a string with underscores}
1093    
1094 tony 56 function Space2Underscore(s: AnsiString): AnsiString;
1095 tony 45 var
1096     k: integer;
1097     begin
1098     Result := s;
1099     for k := 1 to Length(s) do
1100 tony 117 if not (Result[k] in ValidSQLIdentifierChars) then
1101 tony 45 Result[k] := '_';
1102     end;
1103    
1104 tony 117 {Reformats an SQL string with single quotes duplicated.}
1105    
1106 tony 56 function SQLSafeString(const s: AnsiString): AnsiString;
1107 tony 47 begin
1108     Result := StringReplace(s,'''','''''',[rfReplaceAll]);
1109     end;
1110 tony 45
1111 tony 270 { TSQLParamProcessor }
1112    
1113     function TSQLParamProcessor.DoExecute(GenerateParamNames: boolean;
1114     var slNames: TStrings): AnsiString;
1115     var token: TSQLTokens;
1116     iParamSuffix: Integer;
1117     begin
1118     Result := '';
1119     iParamSuffix := 0;
1120    
1121     while not EOF do
1122     begin
1123     token := GetNextToken;
1124     case token of
1125     sqltParam,
1126     sqltQuotedParam:
1127     begin
1128     Result := Result + '?';
1129     slNames.Add(TokenText);
1130     end;
1131    
1132     sqltPlaceHolder:
1133     if GenerateParamNames then
1134     begin
1135     Inc(iParamSuffix);
1136     slNames.AddObject(sIBXParam + IntToStr(iParamSuffix),self); //Note local convention
1137     //add pointer to self to mark entry
1138     Result := Result + '?';
1139     end
1140     else
1141     IBError(ibxeSQLParseError, [SParamNameExpected]);
1142    
1143     sqltQuotedString:
1144     Result := Result + '''' + SQLSafeString(TokenText) + '''';
1145    
1146     sqltIdentifierInDoubleQuotes:
1147     Result := Result + '"' + StringReplace(TokenText,'"','""',[rfReplaceAll]) + '"';
1148    
1149     sqltComment:
1150     Result := Result + '/*' + TokenText + '*/';
1151    
1152     sqltCommentLine:
1153 tony 287 Result := Result + '--' + TokenText + LineEnding;
1154 tony 270
1155     sqltEOL:
1156     Result := Result + LineEnding;
1157    
1158     else
1159     Result := Result + TokenText;
1160     end;
1161     end;
1162     end;
1163    
1164     function TSQLParamProcessor.GetChar: AnsiChar;
1165     begin
1166     if FIndex <= Length(FInString) then
1167     begin
1168     Result := FInString[FIndex];
1169     Inc(FIndex);
1170     end
1171     else
1172     Result := #0;
1173     end;
1174    
1175     class function TSQLParamProcessor.Execute(sSQL: AnsiString;
1176     GenerateParamNames: boolean; var slNames: TStrings): AnsiString;
1177     begin
1178     with self.Create do
1179     try
1180     FInString := sSQL;
1181     FIndex := 1;
1182     Result := DoExecute(GenerateParamNames,slNames);
1183     finally
1184     Free;
1185     end;
1186     end;
1187    
1188 tony 263 { TSQLwithNamedParamsTokeniser }
1189    
1190     procedure TSQLwithNamedParamsTokeniser.Assign(source: TSQLTokeniser);
1191     begin
1192     inherited Assign(source);
1193     if source is TSQLwithNamedParamsTokeniser then
1194     begin
1195     FState := TSQLwithNamedParamsTokeniser(source).FState;
1196     FNested := TSQLwithNamedParamsTokeniser(source).FNested;
1197     end;
1198     end;
1199    
1200     procedure TSQLwithNamedParamsTokeniser.Reset;
1201     begin
1202     inherited Reset;
1203     FState := stInit;
1204     FNested := 0;
1205     end;
1206    
1207     function TSQLwithNamedParamsTokeniser.TokenFound(var token: TSQLTokens
1208     ): boolean;
1209     begin
1210     Result := inherited TokenFound(token);
1211     if not Result then Exit;
1212    
1213     case FState of
1214     stInit:
1215     begin
1216     case token of
1217     sqltColon:
1218     begin
1219     FState := stInParam;
1220     ResetQueue(token);
1221     end;
1222    
1223     sqltBegin:
1224     begin
1225     FState := stInBlock;
1226     FNested := 1;
1227     end;
1228    
1229     sqltOpenSquareBracket:
1230     FState := stInArrayDim;
1231    
1232     end;
1233     end;
1234    
1235     stInParam:
1236     begin
1237     case token of
1238     sqltIdentifier:
1239     token := sqltParam;
1240    
1241     sqltIdentifierInDoubleQuotes:
1242     token := sqltQuotedParam;
1243    
1244     else
1245     begin
1246     QueueToken(token);
1247     ReleaseQueue(token);
1248     end;
1249     end;
1250     FState := stInit;
1251     end;
1252    
1253     stInBlock:
1254     begin
1255     case token of
1256 tony 348 sqltBegin,
1257     sqltCase:
1258 tony 263 Inc(FNested);
1259    
1260     sqltEnd:
1261     begin
1262     Dec(FNested);
1263     if FNested = 0 then
1264     FState := stInit;
1265     end;
1266     end;
1267     end;
1268    
1269     stInArrayDim:
1270     begin
1271     if token = sqltCloseSquareBracket then
1272     FState := stInit;
1273     end;
1274     end;
1275    
1276     Result := (FState <> stInParam);
1277     end;
1278    
1279     { TSQLTokeniser }
1280    
1281     function TSQLTokeniser.GetNext: TSQLTokens;
1282     var C: AnsiChar;
1283     begin
1284     if EOF then
1285     Result := sqltEOF
1286     else
1287     begin
1288     C := GetChar;
1289     case C of
1290     #0:
1291     Result := sqltEOF;
1292     ' ',TAB:
1293     Result := sqltSpace;
1294     '0'..'9':
1295     Result := sqltNumberString;
1296     ';':
1297     Result := sqltSemiColon;
1298     '?':
1299     Result := sqltPlaceholder;
1300     '|':
1301     Result := sqltPipe;
1302     '"':
1303     Result := sqltDoubleQuotes;
1304     '''':
1305     Result := sqltSingleQuotes;
1306     '/':
1307     Result := sqltForwardSlash;
1308 tony 270 '\':
1309     Result := sqltBackslash;
1310 tony 263 '*':
1311     Result := sqltAsterisk;
1312     '(':
1313     Result := sqltOpenBracket;
1314     ')':
1315     Result := sqltCloseBracket;
1316     ':':
1317     Result := sqltColon;
1318     ',':
1319     Result := sqltComma;
1320     '.':
1321     Result := sqltPeriod;
1322     '=':
1323     Result := sqltEquals;
1324     '[':
1325     Result := sqltOpenSquareBracket;
1326     ']':
1327     Result := sqltCloseSquareBracket;
1328 tony 287 '-':
1329     Result := sqltMinus;
1330 tony 263 '<':
1331     Result := sqltLT;
1332     '>':
1333     Result := sqltGT;
1334     CR:
1335     Result := sqltCR;
1336     LF:
1337     Result := sqltEOL;
1338     else
1339     if C in ValidSQLIdentifierChars then
1340     Result := sqltIdentifier
1341     else
1342     Result := sqltOtherCharacter;
1343     end;
1344     FLastChar := C
1345     end;
1346     FNextToken := Result;
1347     end;
1348    
1349     procedure TSQLTokeniser.PopQueue(var token: TSQLTokens);
1350     begin
1351     if FQFirst = FQLast then
1352     IBError(ibxeTokenQueueUnderflow,[]);
1353     token := FTokenQueue[FQFirst].token;
1354     FString := FTokenQueue[FQFirst].text;
1355     Inc(FQFirst);
1356     if FQFirst = FQLast then
1357     FQueueState := tsHold;
1358     end;
1359    
1360     procedure TSQLTokeniser.Assign(source: TSQLTokeniser);
1361     begin
1362     FString := source.FString;
1363     FNextToken := source.FNextToken;
1364     FTokenQueue := source.FTokenQueue;
1365     FQueueState := source.FQueueState;
1366     FQFirst := source.FQFirst;
1367     FQLast := source.FQLast;
1368     end;
1369    
1370     function TSQLTokeniser.TokenFound(var token: TSQLTokens): boolean;
1371     begin
1372     Result := (FState = stDefault);
1373     if Result and (token = sqltIdentifier) then
1374     FindReservedWord(FString,token);
1375     end;
1376    
1377     procedure TSQLTokeniser.QueueToken(token: TSQLTokens; text: AnsiString);
1378     begin
1379     if FQLast > TokenQueueMaxSize then
1380     IBError(ibxeTokenQueueOverflow,[]);
1381     FTokenQueue[FQLast].token := token;
1382     FTokenQueue[FQLast].text := text;
1383     Inc(FQLast);
1384     end;
1385    
1386     procedure TSQLTokeniser.QueueToken(token: TSQLTokens);
1387     begin
1388     QueueToken(token,TokenText);
1389     end;
1390    
1391     procedure TSQLTokeniser.ResetQueue;
1392     begin
1393     FQFirst := 0;
1394     FQLast := 0;
1395     FQueueState := tsHold;
1396     end;
1397    
1398     procedure TSQLTokeniser.ResetQueue(token: TSQLTokens; text: AnsiString);
1399     begin
1400     ResetQueue;
1401     QueueToken(token,text);
1402     end;
1403    
1404     procedure TSQLTokeniser.ResetQueue(token: TSQLTokens);
1405     begin
1406     ResetQueue;
1407     QueueToken(token);
1408     end;
1409    
1410     procedure TSQLTokeniser.ReleaseQueue(var token: TSQLTokens);
1411     begin
1412     FQueueState := tsRelease;
1413     PopQueue(token);
1414     end;
1415    
1416     procedure TSQLTokeniser.ReleaseQueue;
1417     begin
1418     FQueueState := tsRelease;
1419     end;
1420    
1421     function TSQLTokeniser.GetQueuedText: AnsiString;
1422     var i: integer;
1423     begin
1424     Result := '';
1425     for i := FQFirst to FQLast do
1426     Result := Result + FTokenQueue[i].text;
1427     end;
1428    
1429     procedure TSQLTokeniser.SetTokenText(text: AnsiString);
1430     begin
1431     FString := text;
1432     end;
1433    
1434     constructor TSQLTokeniser.Create;
1435     begin
1436     inherited Create;
1437     Reset;
1438     end;
1439    
1440     destructor TSQLTokeniser.Destroy;
1441     begin
1442     Reset;
1443     inherited Destroy;
1444     end;
1445    
1446     procedure TSQLTokeniser.Reset;
1447     begin
1448     FNextToken := sqltInit;
1449     FState := stDefault;
1450     FString := '';
1451     FEOF := false;
1452     ResetQueue;
1453     end;
1454    
1455 tony 359 function TSQLTokeniser.ReadCharacters(NumOfChars: integer): AnsiString;
1456     var i: integer;
1457     begin
1458     Result := FLastChar;
1459     for i := 2 to NumOfChars do
1460     begin
1461     if GetNext = sqltEOF then break;
1462     Result := Result + FLastChar;
1463     end;
1464     end;
1465    
1466 tony 263 function TSQLTokeniser.GetNextToken: TSQLTokens;
1467     begin
1468     if FQueueState = tsRelease then
1469     repeat
1470     PopQueue(Result);
1471     FEOF := Result = sqltEOF;
1472     if TokenFound(Result) then
1473     Exit;
1474     until FQueueState <> tsRelease;
1475    
1476     Result := InternalGetNextToken;
1477     end;
1478    
1479     {a simple lookahead one algorithm to extra the next symbol}
1480    
1481     function TSQLTokeniser.InternalGetNextToken: TSQLTokens;
1482     var C: AnsiChar;
1483     begin
1484     Result := sqltEOF;
1485    
1486     if FNextToken = sqltInit then
1487     GetNext;
1488    
1489     repeat
1490 tony 353 if FSkipNext then
1491     begin
1492     FSkipNext := false;
1493     GetNext;
1494     end;
1495    
1496 tony 263 Result := FNextToken;
1497     C := FLastChar;
1498     GetNext;
1499    
1500 tony 353 if (Result = sqltCR) and (FNextToken = sqltEOL) then
1501 tony 263 begin
1502 tony 353 FSkipNext := true;
1503     Result := sqltEOL;
1504     C := LF;
1505 tony 263 end;
1506    
1507     case FState of
1508     stInComment:
1509     begin
1510     if (Result = sqltAsterisk) and (FNextToken = sqltForwardSlash) then
1511     begin
1512     FState := stDefault;
1513     Result := sqltComment;
1514     GetNext;
1515     end
1516     else
1517 tony 353 if Result = sqltEOL then
1518     FString := FString + LineEnding
1519     else
1520 tony 263 FString := FString + C;
1521     end;
1522    
1523     stInCommentLine:
1524     begin
1525     case Result of
1526     sqltEOL:
1527     begin
1528     FState := stDefault;
1529     Result := sqltCommentLine;
1530     end;
1531    
1532     else
1533     FString := FString + C;
1534     end;
1535     end;
1536    
1537     stSingleQuoted:
1538     begin
1539     if (Result = sqltSingleQuotes) then
1540     begin
1541     if (FNextToken = sqltSingleQuotes) then
1542     begin
1543     FSkipNext := true;
1544     FString := FString + C;
1545     end
1546     else
1547     begin
1548     Result := sqltQuotedString;
1549     FState := stDefault;
1550     end;
1551     end
1552     else
1553 tony 353 if Result = sqltEOL then
1554     FString := FString + LineEnding
1555     else
1556 tony 263 FString := FString + C;
1557     end;
1558    
1559     stDoubleQuoted:
1560     begin
1561     if (Result = sqltDoubleQuotes) then
1562     begin
1563     if (FNextToken = sqltDoubleQuotes) then
1564     begin
1565     FSkipNext := true;
1566     FString := FString + C;
1567     end
1568     else
1569     begin
1570     Result := sqltIdentifierInDoubleQuotes;
1571     FState := stDefault;
1572     end;
1573     end
1574     else
1575 tony 353 if Result = sqltEOL then
1576     FString := FString + LineEnding
1577     else
1578 tony 263 FString := FString + C;
1579     end;
1580    
1581     stInIdentifier:
1582     begin
1583     FString := FString + C;
1584     Result := sqltIdentifier;
1585     if not (FNextToken in [sqltIdentifier,sqltNumberString]) then
1586     FState := stDefault
1587     end;
1588    
1589     stInNumeric:
1590     begin
1591     FString := FString + C;
1592     if (Result = sqltPeriod) and (FNextToken = sqltPeriod) then
1593     begin
1594     {malformed decimal}
1595     FState := stInIdentifier;
1596     Result := sqltIdentifier
1597     end
1598     else
1599     begin
1600     if not (FNextToken in [sqltNumberString,sqltPeriod]) then
1601     FState := stDefault;
1602     Result := sqltNumberString;
1603     end;
1604     end;
1605    
1606     else {stDefault}
1607     begin
1608     FString := C;
1609     case Result of
1610    
1611     sqltPipe:
1612     if FNextToken = sqltPipe then
1613     begin
1614     Result := sqltConcatSymbol;
1615     FString := C + FLastChar;
1616     GetNext;
1617     end;
1618    
1619     sqltForwardSlash:
1620     begin
1621     if FNextToken = sqltAsterisk then
1622     begin
1623     FString := '';
1624     GetNext;
1625     FState := stInComment;
1626     end
1627 tony 287 end;
1628    
1629     sqltMinus:
1630     begin
1631     if FNextToken = sqltMinus then
1632 tony 263 begin
1633     FString := '';
1634     GetNext;
1635     FState := stInCommentLine;
1636     end;
1637     end;
1638    
1639     sqltSingleQuotes:
1640     begin
1641     FString := '';
1642     FState := stSingleQuoted;
1643     end;
1644    
1645     sqltDoubleQuotes:
1646     begin
1647     FString := '';
1648     FState := stDoubleQuoted;
1649     end;
1650    
1651     sqltIdentifier:
1652 tony 265 if FNextToken in [sqltIdentifier,sqltNumberString] then
1653 tony 263 FState := stInIdentifier;
1654    
1655     sqltNumberString:
1656     if FNextToken in [sqltNumberString,sqltPeriod] then
1657     FState := stInNumeric;
1658 tony 353
1659     sqltEOL:
1660     FString := LineEnding;
1661 tony 263 end;
1662     end;
1663     end;
1664    
1665     // writeln(FString);
1666     FEOF := Result = sqltEOF;
1667     until TokenFound(Result) or EOF;
1668     end;
1669    
1670 tony 315 function ParseDateTimeTZString(aDateTimeStr: Ansistring; var aDateTime: TDateTime;
1671     var aTimezone: AnsiString; TimeOnly: boolean): boolean;
1672     {$IF declared(TFormatSettings)}
1673     begin
1674     {$IF declared(DefaultFormatSettings)}
1675     Result := ParseDateTimeTZString(aDateTimeStr,aDateTime,aTimeZone,DefaultFormatSettings,TimeOnly);
1676     {$ELSE}
1677     {$IF declared(FormatSettings)}
1678     Result := ParseDateTimeTZString(aDateTimeStr,aDateTime,aTimeZone,FormatSettings,TimeOnly);
1679     {$IFEND} {$IFEND}
1680     end;
1681    
1682     function ParseDateTimeTZString(aDateTimeStr: Ansistring; var aDateTime: TDateTime;
1683     var aTimezone: AnsiString; aFormatSettings: TFormatSettings; TimeOnly: boolean=false): boolean;
1684     {$IFEND}
1685     const
1686     whitespacechars = [' ',#$09,#$0A,#$0D];
1687     var i,j,l: integer;
1688     aTime: TDateTime;
1689     DMs: longint;
1690     begin
1691     Result := false;
1692     aTimezone := '';
1693     if aDateTimeStr <> '' then
1694     {$if declared(TFormatSettings)}
1695     with aFormatSettings do
1696     {$IFEND}
1697     begin
1698     aDateTime := 0;
1699     {Parse to get time zone info}
1700     i := 1;
1701     while (i <= length(aDateTimeStr)) and (aDateTimeStr[i] in whitespacechars) do inc(i); {skip white space}
1702     if not TimeOnly then
1703     begin
1704     {decode date}
1705     j := i;
1706     while (j <= length(aDateTimeStr)) and (aDateTimeStr[j] in ['0'..'9',DateSeparator]) do inc(j);
1707     if TryStrToDate(system.copy(aDateTimeStr,i,j-i),aDateTime) then
1708     i := j; {otherwise start again i.e. assume time only}
1709     end;
1710    
1711     while (i <= length(aDateTimeStr)) and (aDateTimeStr[i] in whitespacechars) do inc(i); {skip white space}
1712     {decode time}
1713     j := i;
1714     while (j <= length(aDateTimeStr)) and (aDateTimeStr[j] in ['0'..'9',TimeSeparator]) do inc(j);
1715     Result := TryStrToTime(system.copy(aDateTimeStr,i,j-i),aTime);
1716     if not Result then Exit;
1717     aDateTime := aDateTime + aTime;
1718     i := j;
1719    
1720     {is there a factional second part}
1721     if (i <= length(aDateTimeStr)) and (aDateTimeStr[i] = '.') then
1722     begin
1723     inc(i);
1724     inc(j);
1725     while (j <= Length(aDateTimeStr)) and (aDateTimeStr[j] in ['0'..'9']) do inc(j);
1726     if j > i then
1727     begin
1728     l := j-i;
1729     if l > 4 then l := 4;
1730     Result := TryStrToInt(system.copy(aDateTimeStr,i,l),DMs);
1731     if not Result then Exit;
1732    
1733     {adjust for number of significant digits}
1734     case l of
1735     3: DMs := DMs * 10;
1736     2: DMs := DMs * 100;
1737     1: DMs := DMs * 1000;
1738     end;
1739     aDateTime := aDateTime + (DMs / (MsecsPerDay*10));
1740     end;
1741     end;
1742     i := j;
1743    
1744     while (i <= length(aDateTimeStr)) and (aDateTimeStr[i] in whitespacechars) do inc(i); {skip white space}
1745     {decode time zone}
1746     if i < length(aDateTimeStr) then
1747     begin
1748     j := i;
1749     while (j <= length(aDateTimeStr)) and not (aDateTimeStr[j] in whitespacechars) do inc(j);
1750     aTimezone := system.copy(aDateTimeStr,i,j-i);
1751     end;
1752     Result := true;
1753     end
1754     end;
1755    
1756     {The following is similar to FPC DecodeTime except that the Firebird standard
1757     decimilliseconds is used instead of milliseconds for fractional seconds}
1758    
1759     procedure FBDecodeTime(aTime: TDateTime; var Hour, Minute, Second: word;
1760     var DeciMillisecond: cardinal);
1761     var D : Double;
1762     l : cardinal;
1763     begin
1764     {conversion to decimilliseconds hacked from FPC DateTimeToTimeStamp}
1765     D := aTime * MSecsPerDay *10;
1766     if D < 0 then
1767     D := D - 0.5
1768     else
1769     D := D + 0.5;
1770     {rest hacked from FPC DecodeTIme}
1771     l := Abs(Trunc(D)) Mod (MSecsPerDay*10);
1772     Hour := l div 36000000;
1773     l := l mod 36000000;
1774     Minute := l div 600000;
1775     l := l mod 600000;
1776     Second := l div 10000;
1777     DeciMillisecond := l mod 10000;
1778     end;
1779    
1780     {The following is similar to FPC EncodeTime except that the Firebird standard
1781     decimilliseconds is used instead of milliseconds for fractional seconds}
1782    
1783     function FBEncodeTime(Hour, Minute, Second, DeciMillisecond: cardinal): TDateTime;
1784     const DMSecsPerDay = MSecsPerDay*10;
1785     var DMs: cardinal;
1786     D: Double;
1787     begin
1788     if (Hour<24) and (Minute<60) and (Second<60) and (DeciMillisecond<10000) then
1789     begin
1790     DMs := Hour*36000000+Minute*600000+Second*10000+DeciMillisecond;
1791     D := DMs/DMSecsPerDay;
1792     Result:=TDateTime(d)
1793     end
1794     else
1795     IBError(ibxeBadTimeSpecification,[Hour, Minute, Second, DeciMillisecond]);
1796     end;
1797    
1798     {The following is similar to FPC FormatDateTime except that it additionally
1799     allows the timstamp to have a fractional seconds component with a resolution
1800     of four decimal places. This is appended to the result for FormatDateTime
1801     if the format string contains a "zzzz' string.}
1802    
1803     function FBFormatDateTime(fmt: AnsiString; aDateTime: TDateTime): AnsiString;
1804     var Hour, Minute, Second: word;
1805     DeciMillisecond: cardinal;
1806     begin
1807     if Pos('zzzz',fmt) > 0 then
1808     begin
1809     FBDecodeTime(aDateTime, Hour, Minute, Second, DeciMillisecond);
1810     fmt := StringReplace(fmt, 'zzzz', Format('%.4d',[DeciMillisecond]), [rfReplaceAll]);
1811     end;
1812     Result := FormatDateTime(fmt,aDateTime);
1813     end;
1814    
1815     function FormatTimeZoneOffset(EffectiveTimeOffsetMins: integer): AnsiString;
1816     begin
1817     if EffectiveTimeOffsetMins > 0 then
1818     Result := Format('+%.2d:%.2d',[EffectiveTimeOffsetMins div 60,abs(EffectiveTimeOffsetMins mod 60)])
1819     else
1820     Result := Format('%.2d:%.2d',[EffectiveTimeOffsetMins div 60,abs(EffectiveTimeOffsetMins mod 60)]);
1821     end;
1822    
1823     function DecodeTimeZoneOffset(TZOffset: AnsiString; var dstOffset: integer): boolean;
1824     var i: integer;
1825     begin
1826     Result := false;
1827     TZOffset := Trim(TZOffset);
1828     for i := 1 to Length(TZOffset) do
1829     if not (TZOffset[i] in ['0'..'9','-','+',':']) then Exit;
1830    
1831     Result := true;
1832     i := Pos(':',TZOffset);
1833     if i > 0 then
1834     dstOffset := StrToInt(copy(TZOffset,1,i-1)) * 60 + StrToInt(copy(TZOffset,i + 1))
1835     else
1836     dstOffset := StrToInt(TZOffset) * 60;
1837     end;
1838    
1839     function StripLeadingZeros(Value: AnsiString): AnsiString;
1840     var i: Integer;
1841     start: integer;
1842     begin
1843     Result := '';
1844     start := 1;
1845     if (Length(Value) > 0) and (Value[1] = '-') then
1846     begin
1847     Result := '-';
1848     start := 2;
1849     end;
1850     for i := start to Length(Value) do
1851     if Value[i] <> '0' then
1852     begin
1853     Result := Result + system.copy(Value, i, MaxInt);
1854     Exit;
1855     end;
1856     end;
1857    
1858 tony 353 function TryStrToNumeric(S: Ansistring; out Value: int64; out scale: integer): boolean;
1859     var i: integer;
1860     ds: integer;
1861     exponent: integer;
1862     begin
1863     Result := false;
1864     ds := 0;
1865     exponent := 0;
1866     S := Trim(S);
1867     Value := 0;
1868     scale := 0;
1869     if Length(S) = 0 then
1870     Exit;
1871     {$IF declared(DefaultFormatSettings)}
1872     with DefaultFormatSettings do
1873     {$ELSE}
1874     {$IF declared(FormatSettings)}
1875     with FormatSettings do
1876     {$IFEND}
1877     {$IFEND}
1878     begin
1879     for i := length(S) downto 1 do
1880     begin
1881     if S[i] = AnsiChar(DecimalSeparator) then
1882     begin
1883     if ds <> 0 then Exit; {only one allowed}
1884 tony 356 ds := i;
1885 tony 353 dec(exponent);
1886     system.Delete(S,i,1);
1887     end
1888     else
1889 tony 354 if S[i] in ['+','-'] then
1890     begin
1891     if (i > 1) and not (S[i-1] in ['e','E']) then
1892     Exit; {malformed}
1893     end
1894 tony 353 else
1895     if S[i] in ['e','E'] then {scientific notation}
1896     begin
1897     if ds <> 0 then Exit; {not permitted in exponent}
1898     if exponent <> 0 then Exit; {only one allowed}
1899     exponent := i;
1900     end
1901     else
1902     if not (S[i] in ['0'..'9']) then
1903 tony 356 {Note: ThousandSeparator not allowed by Delphi specs}
1904 tony 353 Exit; {bad character}
1905     end;
1906    
1907     if exponent > 0 then
1908     begin
1909     Result := TryStrToInt(system.copy(S,exponent+1,maxint),Scale);
1910     if Result then
1911     begin
1912     {adjust scale for decimal point}
1913 tony 356 if ds <> 0 then
1914     Scale := Scale - (exponent - ds);
1915 tony 353 Result := TryStrToInt64(system.copy(S,1,exponent-1),Value);
1916     end;
1917     end
1918     else
1919     begin
1920     if ds <> 0 then
1921 tony 356 scale := ds - Length(S) - 1;
1922 tony 353 Result := TryStrToInt64(S,Value);
1923     end;
1924     end;
1925     end;
1926    
1927     function NumericToDouble(aValue: Int64; aScale: integer): double;
1928     begin
1929     Result := aValue * IntPower(10,aScale)
1930     end;
1931    
1932 tony 45 end.