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// TODO-UNICODE
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(* ***** BEGIN LICENSE BLOCK *****
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* Version: MPL 1.1
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*
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* The contents of this file are subject to the Mozilla Public License Version
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* 1.1 (the "License"); you may not use this file except in compliance with
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* the License. You may obtain a copy of the License at
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* http://www.mozilla.org/MPL/
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*
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* Software distributed under the License is distributed on an "AS IS" basis,
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* WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License
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* for the specific language governing rights and limitations under the
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* License.
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*
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* The Original Code is TurboPower SysTools
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*
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* The Initial Developer of the Original Code is
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* TurboPower Software
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*
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* Portions created by the Initial Developer are Copyright (C) 1996-2002
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* the Initial Developer. All Rights Reserved.
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*
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* Contributor(s):
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*
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* ***** END LICENSE BLOCK ***** *)
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{*********************************************************}
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{* SysTools: StStrL.pas 4.04 *}
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{*********************************************************}
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{* SysTools: Long string routines *}
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{*********************************************************}
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{$I StDefine.inc}
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unit StStrL;
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interface
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uses
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Windows,
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Classes,
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SysUtils,
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StConst,
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StBase;
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{.Z+}
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type
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LStrRec = record
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AllocSize : Longint;
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RefCount : Longint;
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Length : Longint;
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end;
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const
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StrOffset = SizeOf(LStrRec);
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{.Z-}
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{-------- Numeric conversion -----------}
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function HexBL(B : Byte) : AnsiString;
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{-Return the hex string for a byte.}
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function HexWL(W : Word) : AnsiString;
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{-Return the hex string for a word.}
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function HexLL(L : LongInt) : AnsiString;
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{-Return the hex string for a long integer.}
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function HexPtrL(P : Pointer) : AnsiString;
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{-Return the hex string for a pointer.}
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function BinaryBL(B : Byte) : AnsiString;
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{-Return a binary string for a byte.}
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function BinaryWL(W : Word) : AnsiString;
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{-Return the binary string for a word.}
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function BinaryLL(L : LongInt) : AnsiString;
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{-Return the binary string for a long integer.}
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function OctalBL(B : Byte) : AnsiString;
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{-Return an octal string for a byte.}
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function OctalWL(W : Word) : AnsiString;
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{-Return an octal string for a word.}
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function OctalLL(L : LongInt) : AnsiString;
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{-Return an octal string for a long integer.}
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function Str2Int16L(const S : AnsiString; var I : SmallInt) : Boolean;
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{-Convert a string to an SmallInt.}
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function Str2WordL(const S : AnsiString; var I : Word) : Boolean;
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{-Convert a string to a word.}
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function Str2LongL(const S : AnsiString; var I : LongInt) : Boolean;
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{-Convert a string to a long integer.}
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{$IFDEF VER93}
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function Str2RealL(const S : AnsiString; var R : Double) : Boolean;
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{$ELSE}
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function Str2RealL(const S : AnsiString; var R : Real) : Boolean;
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{-Convert a string to a real.}
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{$ENDIF}
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function Str2ExtL(const S : AnsiString; var R : Extended) : Boolean;
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{-Convert a string to an extended.}
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function Long2StrL(L : LongInt) : String;
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{-Convert an integer type to a string.}
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function Real2StrL(R : Double; Width : Byte; Places : ShortInt) : String;
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{-Convert a real to a string.}
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function Ext2StrL(R : Extended; Width : Byte; Places : ShortInt) : String;
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{-Convert an extended to a string.}
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function ValPrepL(const S : String) : String;
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{-Prepares a string for calling Val.}
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{-------- General purpose string manipulation --------}
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function CharStrL(C : Char; Len : Cardinal) : String;
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{-Return a string filled with the specified character.}
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function PadChL(const S : String; C : Char; Len : Cardinal) : String;
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{-Pad a string on the right with a specified character.}
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function PadL(const S : String; Len : Cardinal) : String;
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{-Pad a string on the right with spaces.}
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function LeftPadChL(const S : String; C : Char; Len : Cardinal) : String;
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{-Pad a string on the left with a specified character.}
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function LeftPadL(const S : String; Len : Cardinal) : String;
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{-Pad a string on the left with spaces.}
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function TrimLeadL(const S : String) : String;
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{-Return a string with leading white space removed.}
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function TrimTrailL(const S : String) : String;
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{-Return a string with trailing white space removed.}
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function TrimL(const S : String) : String;
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{-Return a string with leading and trailing white space removed.}
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function TrimSpacesL(const S : String) : String;
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{-Return a string with leading and trailing spaces removed.}
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function CenterChL(const S : String; C : Char; Len : Cardinal) : String;
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{-Pad a string on the left and right with a specified character.}
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function CenterL(const S : String; Len : Cardinal) : String;
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{-Pad a string on the left and right with spaces.}
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function EntabL(const S : AnsiString; TabSize : Byte) : AnsiString;
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{-Convert blanks in a string to tabs.}
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function DetabL(const S : AnsiString; TabSize : Byte) : AnsiString;
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{-Expand tabs in a string to blanks.}
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function ScrambleL(const S, Key : AnsiString) : AnsiString;
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{-Encrypt / Decrypt string with enhanced XOR encryption.}
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function SubstituteL(const S, FromStr, ToStr : String) : String;
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{-Map the characters found in FromStr to the corresponding ones in ToStr.}
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function FilterL(const S, Filters : String) : String;
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{-Remove characters from a string. The characters to remove are specified in
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ChSet.}
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{--------------- Word / Char manipulation -------------------------}
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function CharExistsL(const S : String; C : Char) : Boolean;
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{-Determine whether a given character exists in a string. }
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function CharCountL(const S : String; C : Char) : Cardinal;
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{-Count the number of a given character in a string. }
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function WordCountL(const S, WordDelims : String) : Cardinal;
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{-Given an array of word delimiters, return the number of words in a string.}
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function WordPositionL(N : Cardinal; const S, WordDelims : String;
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var Pos : Cardinal) : Boolean;
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{-Given an array of word delimiters, set Pos to the start position of the
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N'th word in a string. Result indicates success/failure.}
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function ExtractWordL(N : Cardinal; const S, WordDelims : String) : String;
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{-Given an array of word delimiters, return the N'th word in a string.}
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function AsciiCountL(const S, WordDelims : String; Quote : Char) : Cardinal;
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{-Return the number of words in a string.}
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function AsciiPositionL(N : Cardinal; const S, WordDelims : String;
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Quote : Char; var Pos : Cardinal) : Boolean;
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{-Return the position of the N'th word in a string.}
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function ExtractAsciiL(N : Cardinal; const S, WordDelims : String;
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Quote : Char) : String;
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{-Given an array of word delimiters, return the N'th word in a string. Any
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text within Quote characters is counted as one word.}
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procedure WordWrapL(const InSt : String; var OutSt, Overlap : String;
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Margin : Cardinal; PadToMargin : Boolean);
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{-Wrap a text string at a specified margin.}
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{--------------- String comparison and searching -----------------}
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function CompStringL(const S1, S2 : String) : Integer;
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{-Compare two strings.}
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function CompUCStringL(const S1, S2 : String) : Integer;
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{-Compare two strings. This compare is not case sensitive.}
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function SoundexL(const S : AnsiString) : AnsiString;
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{-Return 4 character soundex of an input string.}
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function MakeLetterSetL(const S : AnsiString) : Longint;
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{-Return a bit-mapped long storing the individual letters contained in S.}
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{$IFDEF UNICODE}
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procedure BMMakeTableL(const MatchString : UnicodeString; var BT : BTable); overload;
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{$ELSE}
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procedure BMMakeTableL(const MatchString : AnsiString; var BT : BTable); overload;
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{$ENDIF}
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{-Build a Boyer-Moore link table}
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{$IFDEF UNICODE}
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function BMSearchL(var Buffer; BufLength: Cardinal; var BT: BTable;
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const MatchString : String; out Pos : Cardinal) : Boolean; overload;
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{$ELSE}
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function BMSearchL(var Buffer; BufLength : Cardinal; var BT : BTable;
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const MatchString : AnsiString; var Pos : Cardinal) : Boolean; overload;
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{$ENDIF}
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{-Use the Boyer-Moore search method to search a buffer for a string.}
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{$IFDEF UNICODE}
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function BMSearchUCL(var Buffer; BufLength : Cardinal; var BT : BTable;
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const MatchString : String ; var Pos : Cardinal) : Boolean;
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{$ELSE}
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function BMSearchUCL(var Buffer; BufLength : Cardinal; var BT : BTable;
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const MatchString : AnsiString ; var Pos : Cardinal) : Boolean;
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{$ENDIF}
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{-Use the Boyer-Moore search method to search a buffer for a string. This
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search is not case sensitive.}
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{--------------- DOS pathname parsing -----------------}
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function DefaultExtensionL(const Name, Ext : String) : String;
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{-Return a file name with a default extension attached.}
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function ForceExtensionL(const Name, Ext : String) : String;
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{-Force the specified extension onto the file name.}
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function JustFilenameL(const PathName : String) : String;
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{-Return just the filename and extension of a pathname.}
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function JustNameL(const PathName : String) : String;
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{-Return just the filename (no extension, path, or drive) of a pathname.}
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function JustExtensionL(const Name : String) : String;
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{-Return just the extension of a pathname.}
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function JustPathnameL(const PathName : String) : String;
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{-Return just the drive and directory portion of a pathname.}
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function AddBackSlashL(const DirName : String) : String;
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{-Add a default backslash to a directory name.}
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function CleanPathNameL(const PathName : String) : String;
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{-Return a pathname cleaned up as DOS does it.}
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function HasExtensionL(const Name : String; var DotPos : Cardinal) : Boolean;
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{-Determine if a pathname contains an extension and, if so, return the
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position of the dot in front of the extension.}
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{------------------ Formatting routines --------------------}
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function CommaizeL(L : LongInt) : String;
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{-Convert a long integer to a string with commas.}
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function CommaizeChL(L : Longint; Ch : Char) : String;
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{-Convert a long integer to a string with Ch in comma positions.}
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function FloatFormL(const Mask : String ; R : TstFloat ; const LtCurr,
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RtCurr : String ; Sep, DecPt : Char) : String;
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{-Return a formatted string with digits from R merged into mask.}
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function LongIntFormL(const Mask : String ; L : LongInt ; const LtCurr,
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RtCurr : String ; Sep : Char) : String;
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{-Return a formatted string with digits from L merged into mask.}
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function StrChPosL(const P : String; C : Char; var Pos : Cardinal) : Boolean;
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{-Return the position of a specified character within a string.}
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function StrStPosL(const P, S : String; var Pos : Cardinal) : Boolean;
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{-Return the position of a specified substring within a string.}
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function StrStCopyL(const S : String; Pos, Count : Cardinal) : String;
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{-Copy characters at a specified position in a string.}
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function StrChInsertL(const S : String; C : Char; Pos : Cardinal) : String;
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{-Insert a character into a string at a specified position.}
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function StrStInsertL(const S1, S2 : String; Pos : Cardinal) : String;
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{-Insert a string into another string at a specified position.}
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function StrChDeleteL(const S : String; Pos : Cardinal) : String;
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{-Delete the character at a specified position in a string.}
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function StrStDeleteL(const S : String; Pos, Count : Cardinal) : String;
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{-Delete characters at a specified position in a string.}
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{-------------------------- New Functions -----------------------------------}
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function ContainsOnlyL(const S, Chars : String;
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var BadPos : Cardinal) : Boolean;
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function ContainsOtherThanL(const S, Chars : String;
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var BadPos : Cardinal) : Boolean;
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function CopyLeftL(const S : String; Len : Cardinal) : String;
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{-Return the left Len characters of a string}
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function CopyMidL(const S : String; First, Len : Cardinal) : String;
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{-Return the mid part of a string}
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function CopyRightL(const S : String; First : Cardinal) : String;
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{-Return the right Len characters of a string}
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function CopyRightAbsL(const S : String; NumChars : Cardinal) : String;
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{-Return NumChar characters starting from end}
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function CopyFromNthWordL(const S, WordDelims : String;
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const AWord : String; N : Cardinal; {!!.02}
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var SubString : String) : Boolean;
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function CopyFromToWordL(const S, WordDelims, Word1, Word2 : String;
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N1, N2 : Cardinal;
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var SubString : String) : Boolean;
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function CopyWithinL(const S, Delimiter : String;
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Strip : Boolean) : String;
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function DeleteFromNthWordL(const S, WordDelims : String;
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const AWord : String; N : Cardinal; {!!.02}
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var SubString : String) : Boolean;
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function DeleteFromToWordL(const S, WordDelims, Word1, Word2 : String;
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N1, N2 : Cardinal;
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var SubString : String) : Boolean;
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function DeleteWithinL(const S, Delimiter : String) : String;
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function ExtractTokensL(const S, Delims: String;
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QuoteChar : Char;
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AllowNulls : Boolean;
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Tokens : TStrings) : Cardinal;
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function IsChAlphaL(C : Char) : Boolean;
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{-Returns true if Ch is an alpha}
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363 |
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function IsChNumericL(C : Char; const Numbers : String) : Boolean; {!!.02}
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{-Returns true if Ch in numeric set}
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function IsChAlphaNumericL(C : Char; const Numbers : String) : Boolean; {!!.02}
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{-Returns true if Ch is an alpha or numeric}
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369 |
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function IsStrAlphaL(const S : String) : Boolean;
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{-Returns true if all characters in string are an alpha}
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372 |
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function IsStrNumericL(const S, Numbers : String) : Boolean;
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{-Returns true if all characters in string are in numeric set}
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function IsStrAlphaNumericL(const S, Numbers : String) : Boolean;
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{-Returns true if all characters in string are alpha or numeric}
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378 |
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function KeepCharsL(const S, Chars : String) : String;
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380 |
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function LastWordL(const S, WordDelims, AWord : String;
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var Position : Cardinal) : Boolean;
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383 |
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function LastWordAbsL(const S, WordDelims : String;
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var Position : Cardinal) : Boolean;
|
386 |
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function LastStringL(const S, AString : String;
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var Position : Cardinal) : Boolean;
|
389 |
|
390 |
function LeftTrimCharsL(const S, Chars : String) : String;
|
391 |
|
392 |
function ReplaceWordL(const S, WordDelims, OldWord, NewWord : String;
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N : Cardinal;
|
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var Replacements : Cardinal) : String;
|
395 |
|
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function ReplaceWordAllL(const S, WordDelims, OldWord, NewWord : String;
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397 |
var Replacements : Cardinal) : String;
|
398 |
|
399 |
function ReplaceStringL(const S, OldString, NewString : String;
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N : Cardinal;
|
401 |
var Replacements : Cardinal) : String;
|
402 |
|
403 |
function ReplaceStringAllL(const S, OldString, NewString : String;
|
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var Replacements : Cardinal) : String;
|
405 |
|
406 |
function RepeatStringL(const RepeatString : String;
|
407 |
var Repetitions : Cardinal;
|
408 |
MaxLen : Cardinal) : String;
|
409 |
|
410 |
function RightTrimCharsL(const S, Chars : String) : String;
|
411 |
|
412 |
function StrWithinL(const S, SearchStr : string;
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413 |
Start : Cardinal;
|
414 |
var Position : Cardinal) : boolean;
|
415 |
{-finds the position of a substring within a string starting at a given point}
|
416 |
|
417 |
function TrimCharsL(const S, Chars : String) : String;
|
418 |
|
419 |
function WordPosL(const S, WordDelims, AWord : String;
|
420 |
N : Cardinal; var Position : Cardinal) : Boolean;
|
421 |
{-returns the Occurrence instance of a word within a string}
|
422 |
|
423 |
|
424 |
implementation
|
425 |
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426 |
{-------- Numeric conversion -----------}
|
427 |
|
428 |
function HexBL(B : Byte) : AnsiString;
|
429 |
{-Return the hex string for a byte.}
|
430 |
begin
|
431 |
SetLength(Result, 2);
|
432 |
Result[1] := StHexDigits[B shr 4];
|
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Result[2] := StHexDigits[B and $F];
|
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end;
|
435 |
|
436 |
function HexWL(W : Word) : AnsiString;
|
437 |
{-Return the hex string for a word.}
|
438 |
begin
|
439 |
SetLength(Result, 4);
|
440 |
Result[1] := StHexDigits[hi(W) shr 4];
|
441 |
Result[2] := StHexDigits[hi(W) and $F];
|
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Result[3] := StHexDigits[lo(W) shr 4];
|
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Result[4] := StHexDigits[lo(W) and $F];
|
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end;
|
445 |
|
446 |
function HexLL(L : LongInt) : AnsiString;
|
447 |
{-Return the hex string for a long integer.}
|
448 |
begin
|
449 |
SetLength(Result, 8);
|
450 |
Result := HexWL(HiWord(DWORD(L))) + HexWL(LoWord(DWORD(L))); {!!.02}
|
451 |
end;
|
452 |
|
453 |
function HexPtrL(P : Pointer) : AnsiString;
|
454 |
{-Return the hex string for a pointer.}
|
455 |
begin
|
456 |
SetLength(Result, 9);
|
457 |
Result := ':' + HexLL(LongInt(P));
|
458 |
end;
|
459 |
|
460 |
function BinaryBL(B : Byte) : AnsiString;
|
461 |
{-Return a binary string for a byte.}
|
462 |
var
|
463 |
I, N : Word;
|
464 |
begin
|
465 |
N := 1;
|
466 |
SetLength(Result, 8);
|
467 |
for I := 7 downto 0 do begin
|
468 |
Result[N] := StHexDigits[Ord(B and (1 shl I) <> 0)]; {0 or 1}
|
469 |
Inc(N);
|
470 |
end;
|
471 |
end;
|
472 |
|
473 |
function BinaryWL(W : Word) : AnsiString;
|
474 |
{-Return the binary string for a word.}
|
475 |
var
|
476 |
I, N : Word;
|
477 |
begin
|
478 |
N := 1;
|
479 |
SetLength(Result, 16);
|
480 |
for I := 15 downto 0 do begin
|
481 |
Result[N] := StHexDigits[Ord(W and (1 shl I) <> 0)]; {0 or 1}
|
482 |
Inc(N);
|
483 |
end;
|
484 |
end;
|
485 |
|
486 |
function BinaryLL(L : LongInt) : AnsiString;
|
487 |
{-Return the binary string for a long integer.}
|
488 |
var
|
489 |
I : Longint;
|
490 |
N : Byte;
|
491 |
begin
|
492 |
N := 1;
|
493 |
SetLength(Result, 32);
|
494 |
for I := 31 downto 0 do begin
|
495 |
Result[N] := StHexDigits[Ord(L and LongInt(1 shl I) <> 0)]; {0 or 1}
|
496 |
Inc(N);
|
497 |
end;
|
498 |
end;
|
499 |
|
500 |
function OctalBL(B : Byte) : AnsiString;
|
501 |
{-Return an octal string for a byte.}
|
502 |
var
|
503 |
I : Word;
|
504 |
begin
|
505 |
SetLength(Result, 3);
|
506 |
for I := 0 to 2 do begin
|
507 |
Result[3-I] := StHexDigits[B and 7];
|
508 |
B := B shr 3;
|
509 |
end;
|
510 |
end;
|
511 |
|
512 |
function OctalWL(W : Word) : AnsiString;
|
513 |
{-Return an octal string for a word.}
|
514 |
var
|
515 |
I : Word;
|
516 |
begin
|
517 |
SetLength(Result, 6);
|
518 |
for I := 0 to 5 do begin
|
519 |
Result[6-I] := StHexDigits[W and 7];
|
520 |
W := W shr 3;
|
521 |
end;
|
522 |
end;
|
523 |
|
524 |
function OctalLL(L : LongInt) : AnsiString;
|
525 |
{-Return an octal string for a long integer.}
|
526 |
var
|
527 |
I : Word;
|
528 |
begin
|
529 |
SetLength(Result, 12);
|
530 |
for I := 0 to 11 do begin
|
531 |
Result[12-I] := StHexDigits[L and 7];
|
532 |
L := L shr 3;
|
533 |
end;
|
534 |
end;
|
535 |
|
536 |
function Str2Int16L(const S : AnsiString; var I : SmallInt) : Boolean;
|
537 |
{-Convert a string to an SmallInt.}
|
538 |
|
539 |
var
|
540 |
ec : Integer;
|
541 |
begin
|
542 |
{note the automatic string conversion}
|
543 |
ValSmallint(S, I, ec);
|
544 |
if (ec = 0) then
|
545 |
Result := true
|
546 |
else begin
|
547 |
Result := false;
|
548 |
if (ec < 0) then
|
549 |
I := succ(length(S))
|
550 |
else
|
551 |
I := ec;
|
552 |
end;
|
553 |
end;
|
554 |
|
555 |
function Str2WordL(const S : AnsiString; var I : Word) : Boolean;
|
556 |
{-Convert a string to a word.}
|
557 |
|
558 |
var
|
559 |
ec : Integer;
|
560 |
begin
|
561 |
{note the automatic string conversion}
|
562 |
ValWord(S, I, ec);
|
563 |
if (ec = 0) then
|
564 |
Result := true
|
565 |
else begin
|
566 |
Result := false;
|
567 |
if (ec < 0) then
|
568 |
I := succ(length(S))
|
569 |
else
|
570 |
I := ec;
|
571 |
end;
|
572 |
end;
|
573 |
|
574 |
function Str2LongL(const S : AnsiString; var I : LongInt) : Boolean;
|
575 |
{-Convert a string to a long integer.}
|
576 |
|
577 |
var
|
578 |
ec : Integer;
|
579 |
begin
|
580 |
{note the automatic string conversion}
|
581 |
ValLongint(S, I, ec);
|
582 |
if (ec = 0) then
|
583 |
Result := true
|
584 |
else begin
|
585 |
Result := false;
|
586 |
if (ec < 0) then
|
587 |
I := succ(length(S))
|
588 |
else
|
589 |
I := ec;
|
590 |
end;
|
591 |
end;
|
592 |
|
593 |
{$IFDEF VER93}
|
594 |
function Str2RealL(const S : AnsiString; var R : Double) : Boolean;
|
595 |
{$ELSE}
|
596 |
function Str2RealL(const S : AnsiString; var R : Real) : Boolean;
|
597 |
{$ENDIF}
|
598 |
{-Convert a string to a real.}
|
599 |
var
|
600 |
Code : Integer;
|
601 |
St : AnsiString;
|
602 |
begin
|
603 |
Result := False;
|
604 |
if S = '' then Exit;
|
605 |
St := TrimTrailL(S);
|
606 |
if St = '' then Exit;
|
607 |
Val(ValPrepL(St), R, Code);
|
608 |
if Code <> 0 then begin
|
609 |
R := Code;
|
610 |
end else
|
611 |
Result := True;
|
612 |
end;
|
613 |
|
614 |
function Str2ExtL(const S : AnsiString; var R : Extended) : Boolean;
|
615 |
{-Convert a string to an extended.}
|
616 |
var
|
617 |
Code : Integer;
|
618 |
P : AnsiString;
|
619 |
begin
|
620 |
Result := False;
|
621 |
if S = '' then Exit;
|
622 |
P := TrimTrailL(S);
|
623 |
if P = '' then Exit;
|
624 |
Val(ValPrepL(P), R, Code);
|
625 |
if Code <> 0 then begin
|
626 |
R := Code - 1;
|
627 |
end else
|
628 |
Result := True;
|
629 |
end;
|
630 |
|
631 |
function Long2StrL(L : LongInt) : String;
|
632 |
{-Convert an integer type to a string.}
|
633 |
begin
|
634 |
Str(L, Result);
|
635 |
end;
|
636 |
|
637 |
function Real2StrL(R : Double; Width : Byte; Places : ShortInt) : String;
|
638 |
{-Convert a real to a string.}
|
639 |
begin
|
640 |
Str(R:Width:Places, Result);
|
641 |
end;
|
642 |
|
643 |
function Ext2StrL(R : Extended; Width : Byte; Places : ShortInt) : String;
|
644 |
{-Convert an extended to a string.}
|
645 |
begin
|
646 |
Str(R:Width:Places, Result);
|
647 |
end;
|
648 |
|
649 |
function ValPrepL(const S : String) : String;
|
650 |
{-Prepares a string for calling Val.}
|
651 |
var
|
652 |
P : Cardinal;
|
653 |
C : Longint;
|
654 |
begin
|
655 |
Result := TrimSpacesL(S);
|
656 |
if Result <> '' then begin
|
657 |
if StrChPosL(Result, {$IFDEF DELPHIXE2}FormatSettings.{$ENDIF}DecimalSeparator, P) then begin
|
658 |
C := P;
|
659 |
Result[C] := '.';
|
660 |
if C = Length(Result) then
|
661 |
SetLength(Result, Pred(C));
|
662 |
end;
|
663 |
end else
|
664 |
Result := '0';
|
665 |
end;
|
666 |
|
667 |
{-------- General purpose string manipulation --------}
|
668 |
|
669 |
function CharStrL(C : Char; Len : Cardinal) : String;
|
670 |
{-Return a string filled with the specified character.}
|
671 |
begin
|
672 |
Result := StringOfChar(C, Len)
|
673 |
end;
|
674 |
|
675 |
function PadChL(const S : String; C : Char; Len : Cardinal) : String;
|
676 |
{-Pad a string on the right with a specified character.}
|
677 |
{$IFDEF UNICODE}
|
678 |
begin
|
679 |
Result := S;
|
680 |
if Length(Result) < Len then
|
681 |
Result := Result + StringOfChar(C, Len - Length(Result));
|
682 |
end;
|
683 |
{$ELSE}
|
684 |
begin
|
685 |
if Length(S) >= LongInt(Len) then
|
686 |
Result := S
|
687 |
else begin
|
688 |
SetLength(Result, Len);
|
689 |
{ copy current contents (if any) of S to Result }
|
690 |
if (Length(S) > 0) then {!!.01}
|
691 |
Move(S[1], Result[1], Length(S));
|
692 |
|
693 |
{ add pad chars }
|
694 |
FillChar(Result[Succ(Length(S))], LongInt(Len)-Length(S), C);
|
695 |
end;
|
696 |
end;
|
697 |
{$ENDIF}
|
698 |
|
699 |
function PadL(const S : String; Len : Cardinal) : String;
|
700 |
{-Pad a string on the right with spaces.}
|
701 |
begin
|
702 |
Result := PadChL(S, ' ', Len);
|
703 |
end;
|
704 |
|
705 |
function LeftPadChL(const S : String; C : Char; Len : Cardinal) : String;
|
706 |
{-Pad a string on the left with a specified character.}
|
707 |
begin
|
708 |
{$IFDEF UNICODE}
|
709 |
if Length(S) > Len then
|
710 |
Result := S
|
711 |
else
|
712 |
Result := StringOfChar(C, Len - Length(S)) + S;
|
713 |
{$ELSE}
|
714 |
if Length(S) >= LongInt(Len) then
|
715 |
Result := S
|
716 |
else if Length(S) < MaxLongInt then begin
|
717 |
SetLength(Result, Len);
|
718 |
|
719 |
{ copy current contents (if any) of S to Result }
|
720 |
if (Length(S) > 0) then {!!.01}
|
721 |
Move(S[1], Result[Succ(Word(Len))-Length(S)], Length(S));
|
722 |
|
723 |
{ add pad chars }
|
724 |
FillChar(Result[1], LongInt(Len)-Length(S), C);
|
725 |
end;
|
726 |
{$ENDIF}
|
727 |
end;
|
728 |
|
729 |
function LeftPadL(const S : String; Len : Cardinal) : String;
|
730 |
{-Pad a string on the left with spaces.}
|
731 |
begin
|
732 |
Result := LeftPadChL(S, ' ', Len);
|
733 |
end;
|
734 |
|
735 |
function TrimLeadL(const S : String) : String;
|
736 |
{-Return a string with leading white space removed}
|
737 |
begin
|
738 |
Result := TrimLeft(S);
|
739 |
end;
|
740 |
|
741 |
function TrimTrailL(const S : String) : String;
|
742 |
{-Return a string with trailing white space removed.}
|
743 |
begin
|
744 |
Result := TrimRight(S);
|
745 |
end;
|
746 |
|
747 |
function TrimL(const S : String) : String;
|
748 |
{-Return a string with leading and trailing white space removed.}
|
749 |
var
|
750 |
I : Longint;
|
751 |
begin
|
752 |
Result := S;
|
753 |
while (Length(Result) > 0) and (Result[Length(Result)] <= ' ') do
|
754 |
SetLength(Result, Pred(Length(Result)));
|
755 |
|
756 |
I := 1;
|
757 |
while (I <= Length(Result)) and (Result[I] <= ' ') do
|
758 |
Inc(I);
|
759 |
Dec(I);
|
760 |
if I > 0 then
|
761 |
System.Delete(Result, 1, I);
|
762 |
end;
|
763 |
|
764 |
function TrimSpacesL(const S : String) : String;
|
765 |
{-Return a string with leading and trailing spaces removed.}
|
766 |
var
|
767 |
I : Longint;
|
768 |
begin
|
769 |
Result := S;
|
770 |
while (Length(Result) > 0) and (Result[Length(Result)] = ' ') do
|
771 |
SetLength(Result, Pred(Length(Result)));
|
772 |
I := 1;
|
773 |
while (I <= Length(Result)) and (S[I] = ' ') do
|
774 |
Inc(I);
|
775 |
Dec(I);
|
776 |
if I > 0 then
|
777 |
System.Delete(Result, 1, I);
|
778 |
end;
|
779 |
|
780 |
function CenterChL(const S : String; C : Char; Len : Cardinal) : String;
|
781 |
{-Pad a string on the left and right with a specified character.}
|
782 |
begin
|
783 |
if Length(S) >= LongInt(Len) then
|
784 |
Result := S
|
785 |
else if Length(S) < MaxLongInt then begin
|
786 |
// SetLength(Result, Len);
|
787 |
// FillChar(Result[1], Len, C);
|
788 |
Result := StringOfChar(C, Len);
|
789 |
if Length(S) > 0 then {!!.01}
|
790 |
Move(S[1], Result[Succ((LongInt(Len)-Length(S)) shr 1)], Length(S)*SizeOf(Char));
|
791 |
end;
|
792 |
end;
|
793 |
|
794 |
function CenterL(const S : String; Len : Cardinal) : String;
|
795 |
{-Pad a string on the left and right with spaces.}
|
796 |
begin
|
797 |
Result := CenterChL(S, ' ', Len);
|
798 |
end;
|
799 |
|
800 |
function EntabL(const S : AnsiString; TabSize : Byte) : AnsiString; //TODO-UNICODE
|
801 |
{-Convert blanks in a string to tabs.}
|
802 |
var
|
803 |
InLen, OutLen : Cardinal;
|
804 |
begin
|
805 |
if S = '' then Exit;
|
806 |
InLen := Length(S);
|
807 |
OutLen := 0;
|
808 |
SetLength(Result, InLen);
|
809 |
asm
|
810 |
push ebx { Save registers }
|
811 |
push edi
|
812 |
push esi
|
813 |
|
814 |
mov edi, [Result]
|
815 |
mov edi, [edi]
|
816 |
xor ecx, ecx
|
817 |
add cl, TabSize
|
818 |
jz @@Done
|
819 |
|
820 |
mov esi, S
|
821 |
xor ebx, ebx { Zero EBX and EDX }
|
822 |
xor edx, edx
|
823 |
inc edx { Set output length to 1 }
|
824 |
|
825 |
@@Next:
|
826 |
or ebx, ebx
|
827 |
je @@NoTab { Jump to NoTab if spacecount is zero }
|
828 |
mov eax, edx { IPos to EAX }
|
829 |
push edx
|
830 |
xor edx, edx
|
831 |
div ecx
|
832 |
cmp edx, 1 { Is mod = 1? }
|
833 |
pop edx
|
834 |
jne @@NoTab { If not, no tab }
|
835 |
|
836 |
sub edi, ebx
|
837 |
sub OutLen, ebx
|
838 |
inc OutLen
|
839 |
xor ebx, ebx { Reset spacecount }
|
840 |
mov byte ptr [edi], 9h { Store a tab }
|
841 |
inc edi
|
842 |
|
843 |
@@NoTab:
|
844 |
mov al, [esi] { Get next input character }
|
845 |
inc esi
|
846 |
cmp edx, InLen { End of string? }
|
847 |
jg @@Done { Yes, done }
|
848 |
inc ebx { Increment SpaceCount }
|
849 |
cmp al, 20h { Is character a space? }
|
850 |
jz @@Store { Yes, store it for now }
|
851 |
xor ebx, ebx { Reset SpaceCount }
|
852 |
cmp al, 27h { Is it a quote? }
|
853 |
jz @@Quotes { Yep, enter quote loop }
|
854 |
cmp al, 22h { Is it a doublequote? }
|
855 |
jnz @@Store { Nope, store it }
|
856 |
|
857 |
@@Quotes:
|
858 |
mov ah, al { Save quote start }
|
859 |
|
860 |
@@NextQ:
|
861 |
mov [edi], al { Store quoted character }
|
862 |
inc edi
|
863 |
inc OutLen
|
864 |
mov al, [esi] { Get next character }
|
865 |
inc esi
|
866 |
inc edx { Increment Ipos }
|
867 |
|
868 |
cmp edx, ecx { At end of line? }
|
869 |
jae @@Store { If so, exit quote loop }
|
870 |
|
871 |
cmp al, ah { Matching end quote? }
|
872 |
jnz @@NextQ { Nope, stay in quote loop }
|
873 |
|
874 |
cmp al, 27h { Single quote? }
|
875 |
jz @@Store { Exit quote loop }
|
876 |
|
877 |
cmp byte ptr [esi-2],'\' { Previous character an escape? }
|
878 |
jz @@NextQ { Stay in if so }
|
879 |
|
880 |
@@Store:
|
881 |
mov [edi], al { Store last character }
|
882 |
inc edi
|
883 |
inc OutLen
|
884 |
inc edx { Increment input position }
|
885 |
jmp @@Next { Repeat while characters left }
|
886 |
|
887 |
@@Done:
|
888 |
mov byte ptr [edi], 0h
|
889 |
pop esi
|
890 |
pop edi
|
891 |
pop ebx
|
892 |
end;
|
893 |
SetLength(Result, OutLen);
|
894 |
end;
|
895 |
|
896 |
function DetabL(const S : AnsiString; TabSize : Byte) : AnsiString; //TODO-UNICODE
|
897 |
{-Expand tabs in a string to blanks.}
|
898 |
var
|
899 |
NumTabs : Integer;
|
900 |
begin
|
901 |
Result := '';
|
902 |
if S = '' then Exit;
|
903 |
if TabSize = 0 then Exit;
|
904 |
Result := S;
|
905 |
NumTabs := CharCountL(S, #9);
|
906 |
if NumTabs = 0 then Exit;
|
907 |
SetLength(Result, Length(Result)+NumTabs*(Pred(TabSize)));
|
908 |
asm
|
909 |
push ebx { Save registers since we'll be changing them. }
|
910 |
push edi
|
911 |
push esi
|
912 |
|
913 |
mov edi, Result { EDI => output string. }
|
914 |
mov esi, S { ESI => input string. }
|
915 |
xor ebx, ebx
|
916 |
mov bl, TabSize
|
917 |
mov edi, [edi]
|
918 |
xor ecx, ecx { Default input length = 0. }
|
919 |
xor edx, edx { Zero EDX for output length }
|
920 |
xor eax, eax { Zero EAX }
|
921 |
mov ecx, [esi-StrOffset].LStrRec.Length { Get input length. }
|
922 |
or ebx, ebx { TabSize = 0? }
|
923 |
jnz @@DefLength
|
924 |
mov ecx, edx { Return zero length string if TabSize = 0. }
|
925 |
|
926 |
@@DefLength:
|
927 |
mov [edi-StrOffset].LStrRec.Length, ecx { Store default output length. }
|
928 |
or ecx, ecx
|
929 |
jz @@Done { Done if empty input string. }
|
930 |
|
931 |
@@Next:
|
932 |
mov al, [esi] { Next input character. }
|
933 |
inc esi
|
934 |
cmp al, 09h { Is it a tab? }
|
935 |
jz @@Tab { Yes, compute next tab stop. }
|
936 |
mov [edi], al { No, store to output. }
|
937 |
inc edi
|
938 |
inc edx { Increment output length. }
|
939 |
dec ecx { Decrement input length. }
|
940 |
jnz @@Next
|
941 |
jmp @@StoreLen { Loop termination. }
|
942 |
|
943 |
@@Tab:
|
944 |
push ecx { Save input length. }
|
945 |
push edx { Save output length. }
|
946 |
mov eax, edx { Get current output length in EDX:EAX. }
|
947 |
xor edx, edx
|
948 |
div ebx { Output length MOD TabSize in DX. }
|
949 |
mov ecx, ebx { Calc number of spaces to insert... }
|
950 |
sub ecx, edx { = TabSize - Mod value. }
|
951 |
pop edx
|
952 |
add edx, ecx { Add count of spaces into current output length. }
|
953 |
|
954 |
mov eax,$2020 { Blank in AH, Blank in AL. }
|
955 |
shr ecx, 1 { Store blanks. }
|
956 |
rep stosw
|
957 |
adc ecx, ecx
|
958 |
rep stosb
|
959 |
pop ecx { Restore input length. }
|
960 |
dec ecx
|
961 |
jnz @@Next
|
962 |
{jmp @@Next} { Back for next input. }
|
963 |
|
964 |
@@StoreLen:
|
965 |
xor ebx, ebx
|
966 |
mov [edi], bl { Store terminating null }
|
967 |
mov eax, edx
|
968 |
sub edi, eax
|
969 |
mov [edi-StrOffset].LStrRec.Length, edx { Store final length. }
|
970 |
|
971 |
@@Done:
|
972 |
pop esi
|
973 |
pop edi
|
974 |
pop ebx
|
975 |
end;
|
976 |
end;
|
977 |
|
978 |
function ScrambleL(const S, Key : AnsiString) : AnsiString;
|
979 |
{-Encrypt / Decrypt string with enhanced XOR encryption.}
|
980 |
var
|
981 |
I, J, LKey, LStr : Cardinal;
|
982 |
begin
|
983 |
Result := S;
|
984 |
if Key = '' then Exit;
|
985 |
if S = '' then Exit;
|
986 |
LKey := Length(Key);
|
987 |
LStr := Length(S);
|
988 |
I := 1;
|
989 |
J := LKey;
|
990 |
while I <= LStr do begin
|
991 |
if J = 0 then
|
992 |
J := LKey;
|
993 |
if (S[I] <> Key[J]) then
|
994 |
Result[I] := AnsiChar(Byte(S[I]) xor Byte(Key[J]));
|
995 |
Inc(I);
|
996 |
Dec(J);
|
997 |
end;
|
998 |
end;
|
999 |
|
1000 |
function SubstituteL(const S, FromStr, ToStr : String) : String;
|
1001 |
{-Map the characters found in FromStr to the corresponding ones in ToStr.}
|
1002 |
var
|
1003 |
I : Cardinal;
|
1004 |
P : Cardinal;
|
1005 |
begin
|
1006 |
Result := S;
|
1007 |
if Length(FromStr) = Length(ToStr) then
|
1008 |
for I := 1 to Length(Result) do begin
|
1009 |
{P := System.Pos(S[I], FromStr);}
|
1010 |
{if P <> 0 then}
|
1011 |
if StrChPosL(FromStr, S[I], P) then
|
1012 |
Result[I] := ToStr[P];
|
1013 |
end;
|
1014 |
end;
|
1015 |
|
1016 |
function FilterL(const S, Filters : String) : String;
|
1017 |
{-Remove characters from a string. The characters to remove are specified in
|
1018 |
ChSet.}
|
1019 |
var
|
1020 |
I : Cardinal;
|
1021 |
Len : Cardinal;
|
1022 |
begin
|
1023 |
Len := 0;
|
1024 |
SetLength(Result, Length(S));
|
1025 |
for I := 1 to Length(S) do
|
1026 |
if not CharExistsL(Filters, S[I]) then begin
|
1027 |
Inc(Len);
|
1028 |
Result[Len] := S[I];
|
1029 |
end;
|
1030 |
SetLength(Result, Len);
|
1031 |
end;
|
1032 |
|
1033 |
{--------------- Word / Char manipulation -------------------------}
|
1034 |
|
1035 |
function CharExistsL(const S : String; C : Char) : Boolean; register;
|
1036 |
{-Count the number of a given character in a string. }
|
1037 |
{$IFDEF UNICODE}
|
1038 |
var
|
1039 |
I: Integer;
|
1040 |
begin
|
1041 |
Result := False;
|
1042 |
for I := 1 to Length(S) do
|
1043 |
begin
|
1044 |
if S[I] = C then
|
1045 |
begin
|
1046 |
Result := True;
|
1047 |
Break;
|
1048 |
end;
|
1049 |
end;
|
1050 |
end;
|
1051 |
{$ELSE}
|
1052 |
asm
|
1053 |
push ebx
|
1054 |
xor ecx, ecx
|
1055 |
or eax, eax
|
1056 |
jz @@Done
|
1057 |
mov ebx, [eax-StrOffset].LStrRec.Length
|
1058 |
or ebx, ebx
|
1059 |
jz @@Done
|
1060 |
jmp @@5
|
1061 |
|
1062 |
@@Loop:
|
1063 |
cmp dl, [eax+3]
|
1064 |
jne @@1
|
1065 |
inc ecx
|
1066 |
jmp @@Done
|
1067 |
|
1068 |
@@1:
|
1069 |
cmp dl, [eax+2]
|
1070 |
jne @@2
|
1071 |
inc ecx
|
1072 |
jmp @@Done
|
1073 |
|
1074 |
@@2:
|
1075 |
cmp dl, [eax+1]
|
1076 |
jne @@3
|
1077 |
inc ecx
|
1078 |
jmp @@Done
|
1079 |
|
1080 |
@@3:
|
1081 |
cmp dl, [eax+0]
|
1082 |
jne @@4
|
1083 |
inc ecx
|
1084 |
jmp @@Done
|
1085 |
|
1086 |
@@4:
|
1087 |
add eax, 4
|
1088 |
sub ebx, 4
|
1089 |
|
1090 |
@@5:
|
1091 |
cmp ebx, 4
|
1092 |
jge @@Loop
|
1093 |
|
1094 |
cmp ebx, 3
|
1095 |
je @@1
|
1096 |
|
1097 |
cmp ebx, 2
|
1098 |
je @@2
|
1099 |
|
1100 |
cmp ebx, 1
|
1101 |
je @@3
|
1102 |
|
1103 |
@@Done:
|
1104 |
mov eax, ecx
|
1105 |
pop ebx
|
1106 |
end;
|
1107 |
{$ENDIF}
|
1108 |
|
1109 |
function CharCountL(const S : String; C : Char) : Cardinal; register;
|
1110 |
{-Count the number of a given character in a string. }
|
1111 |
{$IFDEF UNICODE}
|
1112 |
var
|
1113 |
I: Integer;
|
1114 |
begin
|
1115 |
Result := 0;
|
1116 |
for I := 1 to Length(S) do
|
1117 |
if S[I] = C then
|
1118 |
Inc(Result);
|
1119 |
end;
|
1120 |
{$ELSE}
|
1121 |
asm
|
1122 |
push ebx
|
1123 |
xor ecx, ecx
|
1124 |
or eax, eax
|
1125 |
jz @@Done
|
1126 |
mov ebx, [eax-StrOffset].LStrRec.Length
|
1127 |
or ebx, ebx
|
1128 |
jz @@Done
|
1129 |
jmp @@5
|
1130 |
|
1131 |
@@Loop:
|
1132 |
cmp dl, [eax+3]
|
1133 |
jne @@1
|
1134 |
inc ecx
|
1135 |
|
1136 |
@@1:
|
1137 |
cmp dl, [eax+2]
|
1138 |
jne @@2
|
1139 |
inc ecx
|
1140 |
|
1141 |
@@2:
|
1142 |
cmp dl, [eax+1]
|
1143 |
jne @@3
|
1144 |
inc ecx
|
1145 |
|
1146 |
@@3:
|
1147 |
cmp dl, [eax+0]
|
1148 |
jne @@4
|
1149 |
inc ecx
|
1150 |
|
1151 |
@@4:
|
1152 |
add eax, 4
|
1153 |
sub ebx, 4
|
1154 |
|
1155 |
@@5:
|
1156 |
cmp ebx, 4
|
1157 |
jge @@Loop
|
1158 |
|
1159 |
cmp ebx, 3
|
1160 |
je @@1
|
1161 |
|
1162 |
cmp ebx, 2
|
1163 |
je @@2
|
1164 |
|
1165 |
cmp ebx, 1
|
1166 |
je @@3
|
1167 |
|
1168 |
@@Done:
|
1169 |
mov eax, ecx
|
1170 |
pop ebx
|
1171 |
end;
|
1172 |
{$ENDIF}
|
1173 |
|
1174 |
function WordCountL(const S, WordDelims : String) : Cardinal;
|
1175 |
{-Given an array of word delimiters, return the number of words in a string.}
|
1176 |
var
|
1177 |
I : Cardinal;
|
1178 |
SLen : Cardinal;
|
1179 |
begin
|
1180 |
Result := 0;
|
1181 |
I := 1;
|
1182 |
SLen := Length(S);
|
1183 |
|
1184 |
while I <= SLen do begin
|
1185 |
{skip over delimiters}
|
1186 |
while (I <= SLen) and CharExistsL(WordDelims, S[I]) do
|
1187 |
Inc(I);
|
1188 |
|
1189 |
{if we're not beyond end of S, we're at the start of a word}
|
1190 |
if I <= SLen then
|
1191 |
Inc(Result);
|
1192 |
|
1193 |
{find the end of the current word}
|
1194 |
while (I <= SLen) and not CharExistsL(WordDelims, S[I]) do
|
1195 |
Inc(I);
|
1196 |
end;
|
1197 |
end;
|
1198 |
|
1199 |
function WordPositionL(N : Cardinal; const S, WordDelims : String;
|
1200 |
var Pos : Cardinal) : Boolean;
|
1201 |
{-Given an array of word delimiters, set Pos to the start position of the
|
1202 |
N'th word in a string. Result indicates success/failure.}
|
1203 |
var
|
1204 |
Count : Longint;
|
1205 |
I : Longint;
|
1206 |
begin
|
1207 |
Count := 0;
|
1208 |
I := 1;
|
1209 |
Result := False;
|
1210 |
|
1211 |
while (I <= Length(S)) and (Count <> LongInt(N)) do begin
|
1212 |
{skip over delimiters}
|
1213 |
while (I <= Length(S)) and CharExistsL(WordDelims, S[I]) do
|
1214 |
Inc(I);
|
1215 |
|
1216 |
{if we're not beyond end of S, we're at the start of a word}
|
1217 |
if I <= Length(S) then
|
1218 |
Inc(Count);
|
1219 |
|
1220 |
{if not finished, find the end of the current word}
|
1221 |
if Count <> LongInt(N) then
|
1222 |
while (I <= Length(S)) and not CharExistsL(WordDelims, S[I]) do
|
1223 |
Inc(I)
|
1224 |
else begin
|
1225 |
Pos := I;
|
1226 |
Result := True;
|
1227 |
end;
|
1228 |
end;
|
1229 |
end;
|
1230 |
|
1231 |
function ExtractWordL(N : Cardinal; const S, WordDelims : String) : String;
|
1232 |
{-Given an array of word delimiters, return the N'th word in a string.}
|
1233 |
var
|
1234 |
C : Cardinal;
|
1235 |
I, J : Longint;
|
1236 |
begin
|
1237 |
Result := '';
|
1238 |
if WordPositionL(N, S, WordDelims, C) then begin
|
1239 |
I := C;
|
1240 |
{find the end of the current word}
|
1241 |
J := I;
|
1242 |
while (I <= Length(S)) and not
|
1243 |
CharExistsL(WordDelims, S[I]) do
|
1244 |
Inc(I);
|
1245 |
SetLength(Result, I-J);
|
1246 |
Move(S[J], Result[1], (I-J) * SizeOf(Char));
|
1247 |
end;
|
1248 |
end;
|
1249 |
|
1250 |
|
1251 |
function AsciiCountL(const S, WordDelims : String; Quote : Char) : Cardinal;
|
1252 |
{-Return the number of words in a string.}
|
1253 |
var
|
1254 |
I : Longint;
|
1255 |
InQuote : Boolean;
|
1256 |
begin
|
1257 |
Result := 0;
|
1258 |
I := 1;
|
1259 |
InQuote := False;
|
1260 |
while I <= Length(S) do begin
|
1261 |
{skip over delimiters}
|
1262 |
while (I <= Length(S)) and (S[I] <> Quote)
|
1263 |
and CharExistsL(WordDelims, S[I]) do
|
1264 |
Inc(I);
|
1265 |
{if we're not beyond end of S, we're at the start of a word}
|
1266 |
if I <= Length(S) then
|
1267 |
Inc(Result);
|
1268 |
{find the end of the current word}
|
1269 |
while (I <= Length(S)) and
|
1270 |
(InQuote or not CharExistsL(WordDelims, S[I])) do begin
|
1271 |
if S[I] = Quote then
|
1272 |
InQuote := not InQuote;
|
1273 |
Inc(I);
|
1274 |
end;
|
1275 |
end;
|
1276 |
end;
|
1277 |
|
1278 |
function AsciiPositionL(N : Cardinal; const S, WordDelims : String;
|
1279 |
Quote : Char; var Pos : Cardinal) : Boolean;
|
1280 |
{-Return the position of the N'th word in a string.}
|
1281 |
var
|
1282 |
Count, I : Longint;
|
1283 |
InQuote : Boolean;
|
1284 |
begin
|
1285 |
Count := 0;
|
1286 |
InQuote := False;
|
1287 |
Result := False;
|
1288 |
I := 1;
|
1289 |
while (I <= Length(S)) and (Count <> LongInt(N)) do begin
|
1290 |
{skip over delimiters}
|
1291 |
while (I <= Length(S)) and (S[I] <> Quote) and
|
1292 |
CharExistsL(WordDelims, S[I]) do
|
1293 |
Inc(I);
|
1294 |
{if we're not beyond end of S, we're at the start of a word}
|
1295 |
if I <= Length(S) then
|
1296 |
Inc(Count);
|
1297 |
{if not finished, find the end of the current word}
|
1298 |
if Count <> LongInt(N) then
|
1299 |
while (I <= Length(S)) and (InQuote or not
|
1300 |
CharExistsL(WordDelims, S[I])) do begin
|
1301 |
if S[I] = Quote then
|
1302 |
InQuote := not InQuote;
|
1303 |
Inc(I);
|
1304 |
end
|
1305 |
else begin
|
1306 |
Pos := I;
|
1307 |
Result := True;
|
1308 |
end;
|
1309 |
end;
|
1310 |
end;
|
1311 |
|
1312 |
function ExtractAsciiL(N : Cardinal; const S, WordDelims : String;
|
1313 |
Quote : Char) : String;
|
1314 |
{-Given an array of word delimiters, return the N'th word in a string. Any
|
1315 |
text within Quote characters is counted as one word.}
|
1316 |
var
|
1317 |
C : Cardinal;
|
1318 |
I, J : Longint;
|
1319 |
InQuote : Boolean;
|
1320 |
begin
|
1321 |
InQuote := False;
|
1322 |
if AsciiPositionL(N, S, WordDelims, Quote, C) then begin
|
1323 |
I := C;
|
1324 |
J := I;
|
1325 |
{find the end of the current word}
|
1326 |
while (I <= Length(S)) and ((InQuote)
|
1327 |
or not CharExistsL(WordDelims, S[I])) do begin
|
1328 |
if S[I] = Quote then
|
1329 |
InQuote := not(InQuote);
|
1330 |
Inc(I);
|
1331 |
end;
|
1332 |
SetLength(Result, I-J);
|
1333 |
Move(S[J], Result[1], I-J);
|
1334 |
end;
|
1335 |
end;
|
1336 |
|
1337 |
procedure WordWrapL(const InSt : String; var OutSt, Overlap : String;
|
1338 |
Margin : Cardinal; PadToMargin : Boolean);
|
1339 |
{-Wrap a text string at a specified margin.}
|
1340 |
var
|
1341 |
InStLen : Cardinal;
|
1342 |
EOS, BOS : Cardinal;
|
1343 |
Len : Integer; {!!.02}
|
1344 |
begin
|
1345 |
InStLen := Length(InSt);
|
1346 |
|
1347 |
{!!.02 - Added }
|
1348 |
{ handle empty string on input }
|
1349 |
if InStLen = 0 then begin
|
1350 |
OutSt := '';
|
1351 |
Overlap := '';
|
1352 |
Exit;
|
1353 |
end;
|
1354 |
{!!.02 - End Added }
|
1355 |
|
1356 |
{find the end of the output string}
|
1357 |
if InStLen > Margin then begin
|
1358 |
{find the end of the word at the margin, if any}
|
1359 |
EOS := Margin;
|
1360 |
while (EOS <= InStLen) and (InSt[EOS] <> ' ') do
|
1361 |
Inc(EOS);
|
1362 |
if EOS > InStLen then
|
1363 |
EOS := InStLen;
|
1364 |
|
1365 |
{trim trailing blanks}
|
1366 |
while (EOS > 0) and (InSt[EOS] = ' ') do {!!.04}
|
1367 |
Dec(EOS);
|
1368 |
|
1369 |
if EOS > Margin then begin
|
1370 |
{look for the space before the current word}
|
1371 |
while (EOS > 0) and (InSt[EOS] <> ' ') do
|
1372 |
Dec(EOS);
|
1373 |
|
1374 |
{if EOS = 0 then we can't wrap it}
|
1375 |
if EOS = 0 then
|
1376 |
EOS := Margin
|
1377 |
else
|
1378 |
{trim trailing blanks}
|
1379 |
while (EOS > 0) and (InSt[EOS] = ' ') do {!!.04}
|
1380 |
Dec(EOS);
|
1381 |
end;
|
1382 |
end else
|
1383 |
EOS := InStLen;
|
1384 |
|
1385 |
{copy the unwrapped portion of the line}
|
1386 |
if EOS > 0 then begin {!!.04}
|
1387 |
SetLength(OutSt, EOS);
|
1388 |
Move(InSt[1], OutSt[1], Length(OutSt) * SizeOf(Char));
|
1389 |
end; {!!.04}
|
1390 |
|
1391 |
{find the start of the next word in the line}
|
1392 |
BOS := Succ(EOS);
|
1393 |
while (BOS <= InStLen) and (InSt[BOS] = ' ') do
|
1394 |
Inc(BOS);
|
1395 |
|
1396 |
if BOS > InStLen then
|
1397 |
SetLength(OverLap, 0)
|
1398 |
else begin
|
1399 |
{copy from the start of the next word to the end of the line}
|
1400 |
|
1401 |
SetLength(OverLap, InStLen);
|
1402 |
Move(InSt[BOS], Overlap[1], Succ(InStLen-BOS) * SizeOf(Char));
|
1403 |
SetLength(OverLap, Succ(InStLen-BOS));
|
1404 |
end;
|
1405 |
|
1406 |
{pad the end of the output string if requested}
|
1407 |
{!!.02 - Rewritten}
|
1408 |
Len := Length(OutSt);
|
1409 |
if PadToMargin and (Len < LongInt(Margin)) then begin
|
1410 |
// SetLength(OutSt, Margin);
|
1411 |
// FillChar(OutSt[Succ(Len)], LongInt(Margin)-Length(OutSt), ' ');
|
1412 |
OutSt := OutSt + StringOfChar(' ', Margin - Length(OutSt));
|
1413 |
end;
|
1414 |
{!!.02 - End Rewritten}
|
1415 |
end;
|
1416 |
|
1417 |
{--------------- String comparison and searching -----------------}
|
1418 |
function CompStringL(const S1, S2 : String) : Integer; register;
|
1419 |
{-Compare two strings.}
|
1420 |
{$IFDEF UNICODE}
|
1421 |
begin
|
1422 |
Result := AnsiCompareStr(S1, S2);
|
1423 |
end;
|
1424 |
{$ELSE}
|
1425 |
asm
|
1426 |
push edi
|
1427 |
mov edi, edx { EDI points to S2 }
|
1428 |
push esi
|
1429 |
mov esi, eax { ESI points to S1 }
|
1430 |
|
1431 |
xor edx, edx
|
1432 |
xor ecx, ecx
|
1433 |
|
1434 |
or edi, edi
|
1435 |
jz @@1
|
1436 |
mov edx, [edi-StrOffset].LStrRec.Length
|
1437 |
|
1438 |
@@1:
|
1439 |
or esi, esi
|
1440 |
jz @@2
|
1441 |
mov ecx, [esi-StrOffset].LStrRec.Length
|
1442 |
|
1443 |
@@2:
|
1444 |
or eax, -1 { EAX holds temporary result }
|
1445 |
|
1446 |
cmp ecx, edx { Compare lengths }
|
1447 |
je @@EqLen { Lengths equal? }
|
1448 |
jb @@Comp { Jump if S1 shorter than S1 }
|
1449 |
|
1450 |
inc eax { S1 longer than S2 }
|
1451 |
mov ecx, edx { Length(S2) in CL }
|
1452 |
|
1453 |
@@EqLen:
|
1454 |
inc eax { Equal or greater }
|
1455 |
|
1456 |
@@Comp:
|
1457 |
or ecx, ecx
|
1458 |
jz @@Done { Done if either is empty }
|
1459 |
|
1460 |
repe cmpsb { Compare until no match or ECX = 0 }
|
1461 |
je @@Done { If Equal, result ready based on length }
|
1462 |
|
1463 |
mov eax, 1
|
1464 |
ja @@Done { S1 Greater? Return 1 }
|
1465 |
or eax, -1 { Else S1 Less, Return -1 }
|
1466 |
|
1467 |
@@Done:
|
1468 |
pop esi
|
1469 |
pop edi
|
1470 |
end;
|
1471 |
{$ENDIF}
|
1472 |
|
1473 |
function CompUCStringL(const S1, S2 : String) : Integer; register;
|
1474 |
{-Compare two strings. This compare is not case sensitive.}
|
1475 |
{$IFDEF UNICODE}
|
1476 |
begin
|
1477 |
Result := AnsiCompareText(S1, S2);
|
1478 |
end;
|
1479 |
{$ELSE}
|
1480 |
asm
|
1481 |
push ebx { Save registers }
|
1482 |
push edi
|
1483 |
push esi
|
1484 |
|
1485 |
mov edi, edx { EDI points to S2 }
|
1486 |
mov esi, eax { ESI points to S1 }
|
1487 |
|
1488 |
xor eax, eax
|
1489 |
xor ecx, ecx
|
1490 |
xor edx, edx { DL chars from S2 }
|
1491 |
or ebx, -1
|
1492 |
|
1493 |
or edi, edi
|
1494 |
jz @@1
|
1495 |
mov eax, [edi-StrOffset].LStrRec.Length
|
1496 |
|
1497 |
@@1:
|
1498 |
or esi, esi
|
1499 |
jz @@2
|
1500 |
mov ecx, [esi-StrOffset].LStrRec.Length
|
1501 |
|
1502 |
@@2:
|
1503 |
cmp ecx, eax { Compare lengths }
|
1504 |
je @@EqLen { Lengths equal? }
|
1505 |
jb @@Comp { Jump if S1 shorter than S1 }
|
1506 |
|
1507 |
inc ebx { S1 longer than S2 }
|
1508 |
mov ecx, eax { Shorter length in ECX }
|
1509 |
|
1510 |
@@EqLen:
|
1511 |
inc ebx { Equal or greater }
|
1512 |
|
1513 |
@@Comp:
|
1514 |
or ecx, ecx
|
1515 |
jz @@Done { Done if lesser string is empty }
|
1516 |
|
1517 |
@@Start:
|
1518 |
xor eax, eax { EAX holds chars from S1 }
|
1519 |
mov al, [esi] { S1[?] into AL }
|
1520 |
inc esi
|
1521 |
|
1522 |
push ecx { Save registers }
|
1523 |
push edx
|
1524 |
push eax { Push Char onto stack for CharUpper }
|
1525 |
call CharUpper
|
1526 |
pop edx { Restore registers }
|
1527 |
pop ecx
|
1528 |
|
1529 |
mov dl, [edi] { S2[?] into DL }
|
1530 |
inc edi { Point EDI to next char in S2 }
|
1531 |
mov dh, al
|
1532 |
mov al, dl
|
1533 |
mov dl, dh
|
1534 |
|
1535 |
push ecx { Save registers }
|
1536 |
push edx
|
1537 |
push eax { Push Char onto stack for CharUpper }
|
1538 |
call CharUpper
|
1539 |
pop edx { Restore registers }
|
1540 |
pop ecx
|
1541 |
|
1542 |
cmp dl, al { Compare until no match }
|
1543 |
jne @@Output
|
1544 |
dec ecx
|
1545 |
jnz @@Start
|
1546 |
|
1547 |
je @@Done { If Equal, result ready based on length }
|
1548 |
|
1549 |
@@Output:
|
1550 |
mov ebx, 1
|
1551 |
ja @@Done { S1 Greater? Return 1 }
|
1552 |
or ebx, -1 { Else S1 Less, Return -1 }
|
1553 |
|
1554 |
@@Done:
|
1555 |
mov eax, ebx { Result into EAX }
|
1556 |
pop esi { Restore Registers }
|
1557 |
pop edi
|
1558 |
pop ebx
|
1559 |
end;
|
1560 |
{$ENDIF}
|
1561 |
|
1562 |
function SoundexL(const S : AnsiString) : AnsiString;
|
1563 |
{-Return 4 character soundex of an input string}
|
1564 |
const
|
1565 |
SoundexTable : array[0..255] of Char =
|
1566 |
(#0, #0, #0, #0, #0, #0, #0, #0, #0, #0,
|
1567 |
#0, #0, #0, #0, #0, #0, #0, #0, #0, #0,
|
1568 |
#0, #0, #0, #0, #0, #0, #0, #0, #0, #0,
|
1569 |
#0, #0, #0, #0, #0, #0, #0, #0, #0, #0,
|
1570 |
#0, #0, #0, #0, #0, #0, #0, #0, #0, #0,
|
1571 |
#0, #0, #0, #0, #0, #0, #0, #0, #0, #0,
|
1572 |
#0, #0, #0, #0, #0,
|
1573 |
{ A B C D E F G H I J K L M }
|
1574 |
#0, '1', '2', '3', #0, '1', '2', #0, #0, '2', '2', '4', '5',
|
1575 |
{ N O P Q R S T U V W X Y X }
|
1576 |
'5', #0, '1', '2', '6', '2', '3', #0, '1', #0, '2', #0, '2',
|
1577 |
#0, #0, #0, #0, #0, #0,
|
1578 |
{ a b c d e f g h i j k l m }
|
1579 |
#0, '1', '2', '3', #0, '1', '2', #0, #0, '2', '2', '4', '5',
|
1580 |
{ n o p q r s t u v w x y x }
|
1581 |
'5', #0, '1', '2', '6', '2', '3', #0, '1', #0, '2', #0, '2',
|
1582 |
#0, #0, #0, #0, #0, #0, #0, #0, #0, #0,
|
1583 |
#0, #0, #0, #0, #0, #0, #0, #0, #0, #0,
|
1584 |
#0, #0, #0, #0, #0, #0, #0, #0, #0, #0,
|
1585 |
#0, #0, #0, #0, #0, #0, #0, #0, #0, #0,
|
1586 |
#0, #0, #0, #0, #0, #0, #0, #0, #0, #0,
|
1587 |
#0, #0, #0, #0, #0, #0, #0, #0, #0, #0,
|
1588 |
#0, #0, #0, #0, #0, #0, #0, #0, #0, #0,
|
1589 |
#0, #0, #0, #0, #0, #0, #0, #0, #0, #0,
|
1590 |
#0, #0, #0, #0, #0, #0, #0, #0, #0, #0,
|
1591 |
#0, #0, #0, #0, #0, #0, #0, #0, #0, #0,
|
1592 |
#0, #0, #0, #0, #0, #0, #0, #0, #0, #0,
|
1593 |
#0, #0, #0, #0, #0, #0, #0, #0, #0, #0,
|
1594 |
#0, #0, #0, #0, #0, #0, #0, #0, #0, #0,
|
1595 |
#0, #0, #0);
|
1596 |
begin
|
1597 |
if S = '' then Exit;
|
1598 |
SetLength(Result, 4);
|
1599 |
asm
|
1600 |
push edi
|
1601 |
mov edi, [Result] { EDI => output string. }
|
1602 |
mov edi, [edi]
|
1603 |
push ebx
|
1604 |
push esi
|
1605 |
|
1606 |
mov esi, S { ESI => input string. }
|
1607 |
mov dword ptr [edi], '0000' { Initialize output string to '0000'. }
|
1608 |
xor eax, eax
|
1609 |
mov [edi+4], al { Set null at end of string. }
|
1610 |
|
1611 |
mov ecx, [esi-StrOffset].LStrRec.Length
|
1612 |
or ecx, ecx { Exit if null string. }
|
1613 |
jz @@Done
|
1614 |
|
1615 |
mov al, [esi] { Get first character of input string. }
|
1616 |
inc esi
|
1617 |
|
1618 |
push ecx { Save ECX across call to CharUpper. }
|
1619 |
push eax { Push Char onto stack for CharUpper. }
|
1620 |
call CharUpper { Uppercase AL. }
|
1621 |
pop ecx { Restore saved register. }
|
1622 |
|
1623 |
mov [edi], al { Store first output character. }
|
1624 |
inc edi
|
1625 |
|
1626 |
dec ecx { One input character used. }
|
1627 |
jz @@Done { Was input string one char long?. }
|
1628 |
|
1629 |
mov bh, 03h { Output max 3 chars beyond first. }
|
1630 |
mov edx, offset SoundexTable { EDX => Soundex table. }
|
1631 |
xor eax, eax { Prepare for address calc. }
|
1632 |
xor bl, bl { BL will be used to store 'previous char'. }
|
1633 |
|
1634 |
@@Next:
|
1635 |
mov al, [esi] { Get next char in AL. }
|
1636 |
inc esi
|
1637 |
mov al, [edx+eax] { Get soundex code into AL. }
|
1638 |
or al, al { Is AL zero? }
|
1639 |
jz @@NoStore { If yes, skip this char. }
|
1640 |
cmp bl, al { Is it the same as the previous stored char? }
|
1641 |
je @@NoStore { If yes, skip this char. }
|
1642 |
mov [edi], al { Store char to Dest. }
|
1643 |
inc edi
|
1644 |
dec bh { Decrement output counter. }
|
1645 |
jz @@Done { If zero, we're done. }
|
1646 |
mov bl, al { New previous character. }
|
1647 |
|
1648 |
@@NoStore:
|
1649 |
dec ecx { Decrement input counter. }
|
1650 |
jnz @@Next
|
1651 |
|
1652 |
@@Done:
|
1653 |
pop esi
|
1654 |
pop ebx
|
1655 |
pop edi
|
1656 |
end;
|
1657 |
end;
|
1658 |
|
1659 |
function MakeLetterSetL(const S : AnsiString) : Longint; register;
|
1660 |
{-Return a bit-mapped long storing the individual letters contained in S.}
|
1661 |
asm
|
1662 |
push ebx { Save registers }
|
1663 |
push esi
|
1664 |
|
1665 |
mov esi, eax { ESI => string }
|
1666 |
xor ecx, ecx { Zero ECX }
|
1667 |
xor edx, edx { Zero EDX }
|
1668 |
{or edx, edx}
|
1669 |
or eax, eax
|
1670 |
jz @@Exit
|
1671 |
xor eax, eax { Zero EAX }
|
1672 |
add ecx, [esi-StrOffset].LStrRec.Length
|
1673 |
jz @@Exit { Done if ECX is 0 }
|
1674 |
|
1675 |
@@Next:
|
1676 |
mov al, [esi] { EAX has next char in S }
|
1677 |
inc esi
|
1678 |
|
1679 |
push ecx { Save registers }
|
1680 |
push edx
|
1681 |
push eax { Push Char onto stack for CharUpper }
|
1682 |
call CharUpper
|
1683 |
pop edx { Restore registers }
|
1684 |
pop ecx
|
1685 |
|
1686 |
sub eax, 'A' { Convert to bit number }
|
1687 |
cmp eax, 'Z'-'A' { Was char in range 'A'..'Z'? }
|
1688 |
ja @@Skip { Skip it if not }
|
1689 |
|
1690 |
mov ebx, eax { Exchange EAX and ECX }
|
1691 |
mov eax, ecx
|
1692 |
mov ecx, ebx
|
1693 |
ror edx, cl
|
1694 |
or edx, 01h { Set appropriate bit }
|
1695 |
rol edx, cl
|
1696 |
mov ebx, eax { Exchange EAX and ECX }
|
1697 |
mov eax, ecx
|
1698 |
mov ecx, ebx
|
1699 |
|
1700 |
@@Skip:
|
1701 |
dec ecx
|
1702 |
jnz @@Next { Get next character }
|
1703 |
|
1704 |
@@Exit:
|
1705 |
mov eax, edx { Move EDX to result }
|
1706 |
pop esi { Restore registers }
|
1707 |
pop ebx
|
1708 |
end;
|
1709 |
|
1710 |
{$IFDEF UNICODE}
|
1711 |
procedure BMMakeTableL(const MatchString : UnicodeString; var BT : BTable);
|
1712 |
begin
|
1713 |
// Do nothing until BMSearchL is fixed
|
1714 |
{var
|
1715 |
I: Integer;
|
1716 |
Len: Byte;
|
1717 |
begin
|
1718 |
Len := Length(MatchString);
|
1719 |
if Len > 255 then
|
1720 |
Len := 255;
|
1721 |
|
1722 |
FillChar(BT, SizeOf(BT), Len);
|
1723 |
for I := 1 to Length(MatchString) - 1 do
|
1724 |
BT[Word(MatchString[I])] := Len - I; }
|
1725 |
end;
|
1726 |
{$ELSE}
|
1727 |
procedure BMMakeTableL(const MatchString : AnsiString; var BT : BTable); register;
|
1728 |
{-Build a Boyer-Moore link table}
|
1729 |
asm
|
1730 |
push edi { Save registers because they will be changed }
|
1731 |
push esi
|
1732 |
mov esi, eax { Move EAX to ESI }
|
1733 |
push ebx
|
1734 |
|
1735 |
or eax, eax
|
1736 |
jz @@MTDone
|
1737 |
|
1738 |
xor eax, eax { Zero EAX }
|
1739 |
mov ecx, [esi-StrOffset].LStrRec.Length
|
1740 |
cmp ecx, 0FFh { If ECX > 255, force to 255 }
|
1741 |
jbe @@1
|
1742 |
mov ecx, 0FFh
|
1743 |
|
1744 |
@@1:
|
1745 |
mov ch, cl { Duplicate CL in CH }
|
1746 |
mov eax, ecx { Fill each byte in EAX with length }
|
1747 |
shl eax, 16
|
1748 |
mov ax, cx
|
1749 |
mov edi, edx { Point to the table }
|
1750 |
mov ecx, 64 { Fill table bytes with length }
|
1751 |
rep stosd
|
1752 |
cmp al, 1 { If length <= 1, we're done }
|
1753 |
jbe @@MTDone
|
1754 |
mov edi, edx { Reset EDI to beginning of table }
|
1755 |
xor ebx, ebx { Zero EBX }
|
1756 |
mov cl, al { Restore CL to length of string }
|
1757 |
dec ecx
|
1758 |
|
1759 |
@@MTNext:
|
1760 |
mov al, [esi] { Load table with positions of letters }
|
1761 |
mov bl, al { that exist in the search string }
|
1762 |
inc esi
|
1763 |
mov [edi+ebx], cl
|
1764 |
dec cl
|
1765 |
jnz @@MTNext
|
1766 |
|
1767 |
@@MTDone:
|
1768 |
pop ebx { Restore registers }
|
1769 |
pop esi
|
1770 |
pop edi
|
1771 |
end;
|
1772 |
{$ENDIF}
|
1773 |
|
1774 |
{$IFDEF UNICODE}
|
1775 |
function BMSearchL(var Buffer; BufLength: Cardinal; var BT: BTable; // TODO-UNICODE
|
1776 |
const MatchString : String; out Pos : Cardinal) : Boolean;
|
1777 |
var
|
1778 |
BufPtr: PChar;
|
1779 |
// s: string;
|
1780 |
// Len: Integer;
|
1781 |
// I,J,K: Integer;
|
1782 |
begin
|
1783 |
// the commented code doesn't work correctly, so use a simple Pos for now
|
1784 |
BufPtr := PChar(@Buffer);
|
1785 |
Pos := System.Pos(MatchString, BufPtr);
|
1786 |
Exit(Pos <> 0);
|
1787 |
|
1788 |
|
1789 |
(* BufPtr := PChar(@Buffer);
|
1790 |
s := bufptr;
|
1791 |
Len := Length(MatchString);
|
1792 |
// if Len > 255 then
|
1793 |
// Len := 255;
|
1794 |
|
1795 |
// Check to see if we have a trivial case
|
1796 |
if Len = 0 then
|
1797 |
begin
|
1798 |
Pos := 0;
|
1799 |
Exit(False);
|
1800 |
end
|
1801 |
else if Len = 1 then
|
1802 |
begin
|
1803 |
Pos := System.Pos(MatchString, BufPtr);
|
1804 |
Exit(Pos <> 0);
|
1805 |
end
|
1806 |
else
|
1807 |
begin
|
1808 |
I := Len;
|
1809 |
while I < BufLength do
|
1810 |
begin
|
1811 |
J := 0; // Matched letter count
|
1812 |
while J < Len do
|
1813 |
begin
|
1814 |
if s[I - J - 1] = MatchString[Len - J] then
|
1815 |
Inc(J)
|
1816 |
else
|
1817 |
Break;
|
1818 |
end;
|
1819 |
if J = Len then
|
1820 |
begin
|
1821 |
Pos := J;
|
1822 |
Exit(True);
|
1823 |
end;
|
1824 |
Inc(I, BT[Word(s[I])]);
|
1825 |
end;
|
1826 |
end; *)
|
1827 |
|
1828 |
end;
|
1829 |
{$ELSE}
|
1830 |
function BMSearchL(var Buffer; BufLength : Cardinal; var BT : BTable;
|
1831 |
const MatchString : AnsiString; var Pos : Cardinal) : Boolean; register;
|
1832 |
{-Use the Boyer-Moore search method to search a buffer for a string.}
|
1833 |
var
|
1834 |
BufPtr : Pointer;
|
1835 |
asm
|
1836 |
push edi { Save registers since we will be changing }
|
1837 |
push esi
|
1838 |
push ebx
|
1839 |
|
1840 |
mov BufPtr, eax { Copy Buffer to local variable and ESI }
|
1841 |
mov esi, MatchString { Set ESI to beginning of MatchString }
|
1842 |
or esi, esi
|
1843 |
jz @@BMSNotFound
|
1844 |
mov edi, eax
|
1845 |
mov ebx, ecx { Copy BT ptr to EBX }
|
1846 |
mov ecx, edx { Length of buffer to ECX }
|
1847 |
xor eax, eax { Zero EAX }
|
1848 |
|
1849 |
mov edx, [esi-StrOffset].LStrRec.Length
|
1850 |
cmp edx, 0FFh { If EDX > 255, force to 255 }
|
1851 |
jbe @@1
|
1852 |
mov edx, 0FFh
|
1853 |
|
1854 |
@@1:
|
1855 |
cmp dl, 1 { Check to see if we have a trivial case }
|
1856 |
ja @@BMSInit { If Length(MatchString) > 1 do BM search }
|
1857 |
jb @@BMSNotFound { If Length(MatchString) = 0 we're done }
|
1858 |
|
1859 |
mov al,[esi] { If Length(MatchString) = 1 do a REPNE SCASB }
|
1860 |
mov ebx, edi
|
1861 |
repne scasb
|
1862 |
jne @@BMSNotFound { No match during REP SCASB }
|
1863 |
mov esi, Pos { Set position in Pos }
|
1864 |
{dec edi} { Found, calculate position }
|
1865 |
sub edi, ebx
|
1866 |
mov eax, 1 { Set result to True }
|
1867 |
mov [esi], edi
|
1868 |
jmp @@BMSDone { We're done }
|
1869 |
|
1870 |
@@BMSInit:
|
1871 |
dec edx { Set up for BM Search }
|
1872 |
add esi, edx { Set ESI to end of MatchString }
|
1873 |
add ecx, edi { Set ECX to end of buffer }
|
1874 |
add edi, edx { Set EDI to first check point }
|
1875 |
std { Backward string ops }
|
1876 |
mov dh, [esi] { Set DH to character we'll be looking for }
|
1877 |
dec esi { Dec ESI in prep for BMSFound loop }
|
1878 |
jmp @@BMSComp { Jump to first comparison }
|
1879 |
|
1880 |
@@BMSNext:
|
1881 |
mov al, [ebx+eax] { Look up skip distance from table }
|
1882 |
add edi, eax { Skip EDI ahead to next check point }
|
1883 |
|
1884 |
@@BMSComp:
|
1885 |
cmp edi, ecx { Have we reached end of buffer? }
|
1886 |
jae @@BMSNotFound { If so, we're done }
|
1887 |
mov al, [edi] { Move character from buffer into AL for comparison }
|
1888 |
cmp dh, al { Compare }
|
1889 |
jne @@BMSNext { If not equal, go to next checkpoint }
|
1890 |
|
1891 |
push ecx { Save ECX }
|
1892 |
dec edi
|
1893 |
xor ecx, ecx { Zero ECX }
|
1894 |
mov cl, dl { Move Length(MatchString) to ECX }
|
1895 |
repe cmpsb { Compare MatchString to buffer }
|
1896 |
je @@BMSFound { If equal, string is found }
|
1897 |
|
1898 |
mov al, dl { Move Length(MatchString) to AL }
|
1899 |
sub al, cl { Calculate offset that string didn't match }
|
1900 |
add esi, eax { Move ESI back to end of MatchString }
|
1901 |
add edi, eax { Move EDI to pre-string compare location }
|
1902 |
inc edi
|
1903 |
mov al, dh { Move character back to AL }
|
1904 |
pop ecx { Restore ECX }
|
1905 |
jmp @@BMSNext { Do another compare }
|
1906 |
|
1907 |
@@BMSFound: { EDI points to start of match }
|
1908 |
mov edx, BufPtr { Move pointer to buffer into EDX }
|
1909 |
mov esi, Pos
|
1910 |
sub edi, edx { Calculate position of match }
|
1911 |
mov eax, edi
|
1912 |
inc eax
|
1913 |
inc eax
|
1914 |
mov [esi], eax { Set Pos to position of match }
|
1915 |
mov eax, 1 { Set result to True }
|
1916 |
pop ecx { Restore ESP }
|
1917 |
jmp @@BMSDone
|
1918 |
|
1919 |
@@BMSNotFound:
|
1920 |
xor eax, eax { Set result to False }
|
1921 |
|
1922 |
@@BMSDone:
|
1923 |
cld { Restore direction flag }
|
1924 |
pop ebx { Restore registers }
|
1925 |
pop esi
|
1926 |
pop edi
|
1927 |
end;
|
1928 |
{$ENDIF}
|
1929 |
|
1930 |
{$IFDEF UNICODE}
|
1931 |
function BMSearchUCL(var Buffer; BufLength : Cardinal; var BT : BTable; // TODO-UNICODE
|
1932 |
const MatchString : String ; var Pos : Cardinal) : Boolean; register;
|
1933 |
var
|
1934 |
BufPtr: PChar;
|
1935 |
begin
|
1936 |
BufPtr := PChar(@Buffer);
|
1937 |
Pos := System.Pos(AnsiUpperCase(MatchString), AnsiUpperCase(BufPtr));
|
1938 |
Exit(Pos <> 0);
|
1939 |
end;
|
1940 |
{$ELSE}
|
1941 |
|
1942 |
function BMSearchUCL(var Buffer; BufLength : Cardinal; var BT : BTable;
|
1943 |
const MatchString : AnsiString ; var Pos : Cardinal) : Boolean; register;
|
1944 |
{-Use the Boyer-Moore search method to search a buffer for a string. This
|
1945 |
search is not case sensitive.}
|
1946 |
var
|
1947 |
BufPtr : Pointer;
|
1948 |
asm
|
1949 |
push edi { Save registers since we will be changing }
|
1950 |
push esi
|
1951 |
push ebx
|
1952 |
|
1953 |
mov BufPtr, eax { Copy Buffer to local variable and ESI }
|
1954 |
mov esi, MatchString { Set ESI to beginning of MatchString }
|
1955 |
or esi, esi
|
1956 |
jz @@BMSNotFound
|
1957 |
mov edi, eax
|
1958 |
mov ebx, ecx { Copy BT ptr to EBX }
|
1959 |
mov ecx, edx { Length of buffer to ECX }
|
1960 |
xor eax, eax { Zero EAX }
|
1961 |
|
1962 |
mov edx, [esi-StrOffset].LStrRec.Length
|
1963 |
cmp edx, 0FFh { If EDX > 255, force to 255 }
|
1964 |
jbe @@1
|
1965 |
mov edx, 0FFh
|
1966 |
|
1967 |
@@1:
|
1968 |
or dl, dl { Check to see if we have a trivial case }
|
1969 |
jz @@BMSNotFound { If Length(MatchString) = 0 we're done }
|
1970 |
|
1971 |
@@BMSInit:
|
1972 |
dec edx { Set up for BM Search }
|
1973 |
add esi, edx { Set ESI to end of MatchString }
|
1974 |
add ecx, edi { Set ECX to end of buffer }
|
1975 |
add edi, edx { Set EDI to first check point }
|
1976 |
mov dh, [esi] { Set DH to character we'll be looking for }
|
1977 |
dec esi { Dec ESI in prep for BMSFound loop }
|
1978 |
jmp @@BMSComp { Jump to first comparison }
|
1979 |
|
1980 |
@@BMSNext:
|
1981 |
mov al, [ebx+eax] { Look up skip distance from table }
|
1982 |
add edi, eax { Skip EDI ahead to next check point }
|
1983 |
|
1984 |
@@BMSComp:
|
1985 |
cmp edi, ecx { Have we reached end of buffer? }
|
1986 |
jae @@BMSNotFound { If so, we're done }
|
1987 |
|
1988 |
push ebx { Save registers }
|
1989 |
push ecx
|
1990 |
push edx
|
1991 |
mov al, [edi] { Move character from buffer into AL for comparison }
|
1992 |
push eax { Push Char onto stack for CharUpper }
|
1993 |
call CharUpper
|
1994 |
pop edx { Restore registers }
|
1995 |
pop ecx
|
1996 |
pop ebx
|
1997 |
|
1998 |
cmp dh, al { Compare }
|
1999 |
jne @@BMSNext { If not equal, go to next checkpoint }
|
2000 |
|
2001 |
push ecx { Save ECX }
|
2002 |
dec edi
|
2003 |
xor ecx, ecx { Zero ECX }
|
2004 |
mov cl, dl { Move Length(MatchString) to ECX }
|
2005 |
jecxz @@BMSFound { If ECX is zero, string is found }
|
2006 |
|
2007 |
@@StringComp:
|
2008 |
xor eax, eax
|
2009 |
mov al, [edi] { Get char from buffer }
|
2010 |
dec edi { Dec buffer index }
|
2011 |
|
2012 |
push ebx { Save registers }
|
2013 |
push ecx
|
2014 |
push edx
|
2015 |
push eax { Push Char onto stack for CharUpper }
|
2016 |
call CharUpper
|
2017 |
pop edx { Restore registers }
|
2018 |
pop ecx
|
2019 |
pop ebx
|
2020 |
|
2021 |
mov ah, al { Move buffer char to AH }
|
2022 |
mov al, [esi] { Get MatchString char }
|
2023 |
dec esi
|
2024 |
cmp ah, al { Compare }
|
2025 |
loope @@StringComp { OK? Get next character }
|
2026 |
je @@BMSFound { Matched! }
|
2027 |
|
2028 |
xor ah, ah { Zero AH }
|
2029 |
mov al, dl { Move Length(MatchString) to AL }
|
2030 |
sub al, cl { Calculate offset that string didn't match }
|
2031 |
add esi, eax { Move ESI back to end of MatchString }
|
2032 |
add edi, eax { Move EDI to pre-string compare location }
|
2033 |
inc edi
|
2034 |
mov al, dh { Move character back to AL }
|
2035 |
pop ecx { Restore ECX }
|
2036 |
jmp @@BMSNext { Do another compare }
|
2037 |
|
2038 |
@@BMSFound: { EDI points to start of match }
|
2039 |
mov edx, BufPtr { Move pointer to buffer into EDX }
|
2040 |
mov esi, Pos
|
2041 |
sub edi, edx { Calculate position of match }
|
2042 |
mov eax, edi
|
2043 |
inc eax
|
2044 |
inc eax
|
2045 |
mov [esi], eax { Set Pos to position of match }
|
2046 |
mov eax, 1 { Set result to True }
|
2047 |
pop ecx { Restore ESP }
|
2048 |
jmp @@BMSDone
|
2049 |
|
2050 |
@@BMSNotFound:
|
2051 |
xor eax, eax { Set result to False }
|
2052 |
|
2053 |
@@BMSDone:
|
2054 |
pop ebx { Restore registers }
|
2055 |
pop esi
|
2056 |
pop edi
|
2057 |
end;
|
2058 |
{$ENDIF}
|
2059 |
|
2060 |
{--------------- DOS pathname parsing -----------------}
|
2061 |
|
2062 |
function DefaultExtensionL(const Name, Ext : String) : String;
|
2063 |
{-Return a file name with a default extension attached.}
|
2064 |
var
|
2065 |
DotPos : Cardinal;
|
2066 |
begin
|
2067 |
if HasExtensionL(Name, DotPos) then
|
2068 |
Result := Name
|
2069 |
else if Name = '' then
|
2070 |
Result := ''
|
2071 |
else
|
2072 |
Result := Name + '.' + Ext;
|
2073 |
end;
|
2074 |
|
2075 |
function ForceExtensionL(const Name, Ext : String) : String;
|
2076 |
{-Force the specified extension onto the file name.}
|
2077 |
var
|
2078 |
DotPos : Cardinal;
|
2079 |
begin
|
2080 |
if HasExtensionL(Name, DotPos) then
|
2081 |
Result := System.Copy(Name, 1, DotPos) + Ext
|
2082 |
else if Name = '' then
|
2083 |
Result := ''
|
2084 |
else
|
2085 |
Result := Name + '.' + Ext;
|
2086 |
end;
|
2087 |
|
2088 |
function JustFilenameL(const PathName : String) : String;
|
2089 |
{-Return just the filename and extension of a pathname.}
|
2090 |
var
|
2091 |
I : Cardinal;
|
2092 |
begin
|
2093 |
Result := '';
|
2094 |
if PathName = '' then Exit;
|
2095 |
I := Succ(Cardinal(Length(PathName)));
|
2096 |
repeat
|
2097 |
Dec(I);
|
2098 |
until (I = 0) or (PathName[I] in DosDelimSet); {!!.01}
|
2099 |
Result := System.Copy(PathName, Succ(I), StMaxFileLen);
|
2100 |
end;
|
2101 |
|
2102 |
function JustNameL(const PathName : String) : String;
|
2103 |
{-Return just the filename (no extension, path, or drive) of a pathname.}
|
2104 |
var
|
2105 |
DotPos : Cardinal;
|
2106 |
S : AnsiString;
|
2107 |
begin
|
2108 |
S := JustFileNameL(PathName);
|
2109 |
if HasExtensionL(S, DotPos) then
|
2110 |
S := System.Copy(S, 1, DotPos-1);
|
2111 |
Result := S;
|
2112 |
end;
|
2113 |
|
2114 |
function JustExtensionL(const Name : String) : String;
|
2115 |
{-Return just the extension of a pathname.}
|
2116 |
var
|
2117 |
DotPos : Cardinal;
|
2118 |
begin
|
2119 |
if HasExtensionL(Name, DotPos) then
|
2120 |
Result := System.Copy(Name, Succ(DotPos), StMaxFileLen)
|
2121 |
else
|
2122 |
Result := '';
|
2123 |
end;
|
2124 |
|
2125 |
function JustPathnameL(const PathName : String) : String;
|
2126 |
{-Return just the drive and directory portion of a pathname.}
|
2127 |
var
|
2128 |
I : Cardinal;
|
2129 |
begin
|
2130 |
if PathName = '' then Exit;
|
2131 |
|
2132 |
I := Succ(Cardinal(Length(PathName)));
|
2133 |
repeat
|
2134 |
Dec(I);
|
2135 |
until (I = 0) or (PathName[I] in DosDelimSet); {!!.01}
|
2136 |
|
2137 |
if I = 0 then
|
2138 |
{Had no drive or directory name}
|
2139 |
SetLength(Result, 0)
|
2140 |
else if I = 1 then
|
2141 |
{Either the root directory of default drive or invalid pathname}
|
2142 |
Result := PathName[1]
|
2143 |
else if (PathName[I] = '\') then begin
|
2144 |
if PathName[Pred(I)] = ':' then
|
2145 |
{Root directory of a drive, leave trailing backslash}
|
2146 |
Result := System.Copy(PathName, 1, I)
|
2147 |
else
|
2148 |
{Subdirectory, remove the trailing backslash}
|
2149 |
Result := System.Copy(PathName, 1, Pred(I));
|
2150 |
end else
|
2151 |
{Either the default directory of a drive or invalid pathname}
|
2152 |
Result := System.Copy(PathName, 1, I);
|
2153 |
end;
|
2154 |
|
2155 |
function AddBackSlashL(const DirName : String) : String;
|
2156 |
{-Add a default backslash to a directory name}
|
2157 |
begin
|
2158 |
Result := DirName;
|
2159 |
if (Length(Result) = 0) then
|
2160 |
Exit;
|
2161 |
if ((Length(Result) = 2) and (Result[2] = ':')) or
|
2162 |
((Length(Result) > 2) and (Result[Length(Result)] <> '\')) then
|
2163 |
Result := Result + '\';
|
2164 |
end;
|
2165 |
|
2166 |
function CleanFileNameL(const FileName : AnsiString) : AnsiString;
|
2167 |
{-Return filename with at most 8 chars of name and 3 of extension}
|
2168 |
var
|
2169 |
DotPos : Cardinal;
|
2170 |
NameLen : Word;
|
2171 |
begin
|
2172 |
if HasExtensionL(FileName, DotPos) then begin
|
2173 |
{Take the first 8 chars of name and first 3 chars of extension}
|
2174 |
NameLen := Pred(DotPos);
|
2175 |
if NameLen > 8 then
|
2176 |
NameLen := 8;
|
2177 |
Result := System.Copy(FileName, 1, NameLen)+System.Copy(FileName, DotPos, 4);
|
2178 |
end else
|
2179 |
{Take the first 8 chars of name}
|
2180 |
Result := System.Copy(FileName, 1, 8);
|
2181 |
end;
|
2182 |
|
2183 |
function CleanPathNameL(const PathName : String) : String;
|
2184 |
{-Return a pathname cleaned up as DOS does it.}
|
2185 |
var
|
2186 |
I : Cardinal;
|
2187 |
S : String;
|
2188 |
begin
|
2189 |
SetLength(Result, 0);
|
2190 |
S := PathName;
|
2191 |
|
2192 |
I := Succ(Cardinal(Length(S)));
|
2193 |
repeat
|
2194 |
dec(I);
|
2195 |
if I > 2 then
|
2196 |
if (S[I] = '\') and (S[I-1] = '\') then
|
2197 |
if (S[I-2] <> ':') then
|
2198 |
System.Delete(S, I, 1);
|
2199 |
until I <= 0;
|
2200 |
|
2201 |
I := Succ(Cardinal(Length(S)));
|
2202 |
repeat
|
2203 |
{Get the next directory or drive portion of pathname}
|
2204 |
repeat
|
2205 |
Dec(I);
|
2206 |
until (I = 0) or (S[I] in DosDelimSet); {!!.02}
|
2207 |
|
2208 |
{Clean it up and prepend it to output string}
|
2209 |
Result := CleanFileNameL(System.Copy(S, Succ(I), StMaxFileLen)) + Result;
|
2210 |
if I > 0 then begin
|
2211 |
Result := S[I] + Result;
|
2212 |
System.Delete(S, I, 255);
|
2213 |
end;
|
2214 |
until I <= 0;
|
2215 |
|
2216 |
end;
|
2217 |
|
2218 |
function HasExtensionL(const Name : String; var DotPos : Cardinal) : Boolean;
|
2219 |
{-Determine if a pathname contains an extension and, if so, return the
|
2220 |
position of the dot in front of the extension.}
|
2221 |
var
|
2222 |
I : Cardinal;
|
2223 |
begin
|
2224 |
DotPos := 0;
|
2225 |
for I := Length(Name) downto 1 do
|
2226 |
if (Name[I] = '.') and (DotPos = 0) then
|
2227 |
DotPos := I;
|
2228 |
Result := (DotPos > 0)
|
2229 |
and not CharExistsL(System.Copy(Name, Succ(DotPos), StMaxFileLen), '\');
|
2230 |
end;
|
2231 |
|
2232 |
{------------------ Formatting routines --------------------}
|
2233 |
|
2234 |
|
2235 |
function CommaizeChL(L : Longint; Ch : Char) : String;
|
2236 |
{-Convert a long integer to a string with Ch in comma positions}
|
2237 |
var
|
2238 |
Temp : string;
|
2239 |
NumCommas, I, Len : Cardinal;
|
2240 |
Neg : Boolean;
|
2241 |
begin
|
2242 |
SetLength(Temp, 1);
|
2243 |
Temp[1] := Ch;
|
2244 |
if L < 0 then begin
|
2245 |
Neg := True;
|
2246 |
L := Abs(L);
|
2247 |
end else
|
2248 |
Neg := False;
|
2249 |
Result := Long2StrL(L);
|
2250 |
Len := Length(Result);
|
2251 |
NumCommas := (Pred(Len)) div 3;
|
2252 |
for I := 1 to NumCommas do
|
2253 |
System.Insert(Temp, Result, Succ(Len-(I * 3)));
|
2254 |
if Neg then
|
2255 |
System.Insert('-', Result, 1);
|
2256 |
end;
|
2257 |
|
2258 |
function CommaizeL(L : LongInt) : String;
|
2259 |
{-Convert a long integer to a string with commas}
|
2260 |
begin
|
2261 |
Result := CommaizeChL(L, ',');
|
2262 |
end;
|
2263 |
|
2264 |
function FormPrimL(const Mask : String; R : TstFloat; const LtCurr, RtCurr : String;
|
2265 |
Sep, DecPt : Char; AssumeDP : Boolean) : String;
|
2266 |
{-Returns a formatted string with digits from R merged into the Mask}
|
2267 |
const
|
2268 |
Blank = 0;
|
2269 |
Asterisk = 1;
|
2270 |
Zero = 2;
|
2271 |
const
|
2272 |
{$IFOPT N+}
|
2273 |
MaxPlaces = 18;
|
2274 |
{$ELSE}
|
2275 |
MaxPlaces = 11;
|
2276 |
{$ENDIF}
|
2277 |
FormChars : string = '#@*$-+,.';
|
2278 |
PlusArray : array[Boolean] of Char = ('+', '-');
|
2279 |
MinusArray : array[Boolean] of Char = (' ', '-');
|
2280 |
FillArray : array[Blank..Zero] of Char = (' ', '*', '0');
|
2281 |
var
|
2282 |
S : string; {temporary string}
|
2283 |
Filler : Integer; {char for unused digit slots: ' ', '*', '0'}
|
2284 |
WontFit, {true if number won't fit in the mask}
|
2285 |
AddMinus, {true if minus sign needs to be added}
|
2286 |
Dollar, {true if floating dollar sign is desired}
|
2287 |
Negative : Boolean; {true if B is negative}
|
2288 |
StartF, {starting point of the numeric field}
|
2289 |
EndF : Longint; {end of numeric field}
|
2290 |
RtChars, {# of chars to add to right}
|
2291 |
LtChars, {# of chars to add to left}
|
2292 |
DotPos, {position of '.' in Mask}
|
2293 |
Digits, {total # of digits}
|
2294 |
Blanks, {# of blanks returned by Str}
|
2295 |
Places, {# of digits after the '.'}
|
2296 |
FirstDigit, {pos. of first digit returned by Str}
|
2297 |
Extras, {# of extra digits needed for special cases}
|
2298 |
DigitPtr : Byte; {pointer into temporary string of digits}
|
2299 |
I : Cardinal;
|
2300 |
label
|
2301 |
EndFound,
|
2302 |
RedoCase,
|
2303 |
Done;
|
2304 |
begin
|
2305 |
{assume decimal point at end?}
|
2306 |
Result := Mask;
|
2307 |
if (not AssumeDP) and (not CharExistsL(Result, '.')) then
|
2308 |
AssumeDP := true;
|
2309 |
if AssumeDP and (Result <> '') then begin
|
2310 |
SetLength(Result, Succ(Length(Result)));
|
2311 |
Result[Length(Result)] := '.';
|
2312 |
end;
|
2313 |
|
2314 |
RtChars := 0;
|
2315 |
LtChars := 0;
|
2316 |
|
2317 |
{check for empty string}
|
2318 |
if Length(Result) = 0 then
|
2319 |
goto Done;
|
2320 |
|
2321 |
{initialize variables}
|
2322 |
Filler := Blank;
|
2323 |
DotPos := 0;
|
2324 |
Places := 0;
|
2325 |
Digits := 0;
|
2326 |
Dollar := False;
|
2327 |
AddMinus := True;
|
2328 |
StartF := 1;
|
2329 |
|
2330 |
{store the sign of the real and make it positive}
|
2331 |
Negative := (R < 0);
|
2332 |
R := Abs(R);
|
2333 |
|
2334 |
{strip and count c's}
|
2335 |
for I := Length(Result) downto 1 do begin
|
2336 |
if Result[I] = 'C' then begin
|
2337 |
Inc(RtChars);
|
2338 |
System.Delete(Result, I, 1);
|
2339 |
end else if Result[I] = 'c' then begin
|
2340 |
Inc(LtChars);
|
2341 |
System.Delete(Result, I, 1);
|
2342 |
end;
|
2343 |
end;
|
2344 |
|
2345 |
{find the starting point for the field}
|
2346 |
while (StartF <= Length(Result))
|
2347 |
{and (System.Pos(Result[StartF], FormChars) = 0) do}
|
2348 |
and not CharExistsL(FormChars, Result[StartF]) do
|
2349 |
Inc(StartF);
|
2350 |
if StartF > Length(Result) then
|
2351 |
goto Done;
|
2352 |
|
2353 |
{find the end point for the field}
|
2354 |
EndF := StartF;
|
2355 |
for I := StartF to Length(Result) do begin
|
2356 |
EndF := I;
|
2357 |
case Result[EndF] of
|
2358 |
'*' : Filler := Asterisk;
|
2359 |
'@' : Filler := Zero;
|
2360 |
'$' : Dollar := True;
|
2361 |
'-',
|
2362 |
'+' : AddMinus := False;
|
2363 |
'#' : {ignore} ;
|
2364 |
',',
|
2365 |
'.' : DotPos := EndF;
|
2366 |
else
|
2367 |
goto EndFound;
|
2368 |
end;
|
2369 |
{Inc(EndF);}
|
2370 |
end;
|
2371 |
|
2372 |
{if we get here at all, the last char was part of the field}
|
2373 |
Inc(EndF);
|
2374 |
|
2375 |
EndFound:
|
2376 |
{if we jumped to here instead, it wasn't}
|
2377 |
Dec(EndF);
|
2378 |
|
2379 |
{disallow Dollar if Filler is Zero}
|
2380 |
if Filler = Zero then
|
2381 |
Dollar := False;
|
2382 |
|
2383 |
{we need an extra slot if Dollar is True}
|
2384 |
Extras := Ord(Dollar);
|
2385 |
|
2386 |
{get total # of digits and # after the decimal point}
|
2387 |
for I := StartF to EndF do
|
2388 |
case Result[I] of
|
2389 |
'#', '@',
|
2390 |
'*', '$' :
|
2391 |
begin
|
2392 |
Inc(Digits);
|
2393 |
if (I > DotPos) and (DotPos <> 0) then
|
2394 |
Inc(Places);
|
2395 |
end;
|
2396 |
end;
|
2397 |
|
2398 |
{need one more 'digit' if Places > 0}
|
2399 |
Inc(Digits, Ord(Places > 0));
|
2400 |
|
2401 |
{also need an extra blank if (1) Negative is true, and (2) Filler is Blank,
|
2402 |
and (3) AddMinus is true}
|
2403 |
if Negative and AddMinus and (Filler = Blank) then
|
2404 |
Inc(Extras)
|
2405 |
else
|
2406 |
AddMinus := False;
|
2407 |
|
2408 |
{translate the real to a string}
|
2409 |
Str(R:Digits:Places, S);
|
2410 |
|
2411 |
{add zeros that Str may have left out}
|
2412 |
if Places > MaxPlaces then begin
|
2413 |
I := Length(S);
|
2414 |
// SetLength(S, LongInt(I) + (Places-MaxPlaces));
|
2415 |
// FillChar(S[Succ(I)], Places-MaxPlaces, '0');
|
2416 |
S := StringOfChar('0', Places-MaxPlaces) + S;
|
2417 |
while (Length(S) > Digits) and (S[1] = ' ') do
|
2418 |
System.Delete(S, 1, 1);
|
2419 |
end;
|
2420 |
|
2421 |
{count number of initial blanks}
|
2422 |
Blanks := 1;
|
2423 |
while S[Blanks] = ' ' do
|
2424 |
Inc(Blanks);
|
2425 |
FirstDigit := Blanks;
|
2426 |
Dec(Blanks);
|
2427 |
|
2428 |
{the number won't fit if (a) S is longer than Digits or (b) the number of
|
2429 |
initial blanks is less than Extras}
|
2430 |
WontFit := (Length(S) > Digits) or (Blanks < Extras);
|
2431 |
|
2432 |
{if it won't fit, fill decimal slots with '*'}
|
2433 |
if WontFit then begin
|
2434 |
for I := StartF to EndF do
|
2435 |
case Result[I] of
|
2436 |
'#', '@', '*', '$' : Result[I] := '*';
|
2437 |
'+' : Result[I] := PlusArray[Negative];
|
2438 |
'-' : Result[I] := MinusArray[Negative];
|
2439 |
end;
|
2440 |
goto Done;
|
2441 |
end;
|
2442 |
|
2443 |
{fill initial blanks in S with Filler; insert floating dollar sign}
|
2444 |
if Blanks > 0 then begin
|
2445 |
//FillChar(S[1], Blanks, FillArray[Filler]);
|
2446 |
Delete(S, 1, Blanks);
|
2447 |
S := StringOfChar(FillArray[Filler], Blanks) + S;
|
2448 |
|
2449 |
{put floating dollar sign in last blank slot if necessary}
|
2450 |
if Dollar then begin
|
2451 |
S[Blanks] := LtCurr[1];
|
2452 |
Dec(Blanks);
|
2453 |
end;
|
2454 |
|
2455 |
{insert a minus sign if necessary}
|
2456 |
if AddMinus then
|
2457 |
S[Blanks] := '-';
|
2458 |
end;
|
2459 |
|
2460 |
{put in the digits / signs}
|
2461 |
DigitPtr := Length(S);
|
2462 |
for I := EndF downto StartF do begin
|
2463 |
RedoCase:
|
2464 |
case Result[I] of
|
2465 |
'#', '@', '*', '$' :
|
2466 |
if DigitPtr <> 0 then begin
|
2467 |
Result[I] := S[DigitPtr];
|
2468 |
Dec(DigitPtr);
|
2469 |
if (DigitPtr <> 0) and (S[DigitPtr] = '.') then {!!.01}
|
2470 |
Dec(DigitPtr);
|
2471 |
end
|
2472 |
else
|
2473 |
Result[I] := FillArray[Filler];
|
2474 |
',' :
|
2475 |
begin
|
2476 |
Result[I] := Sep;
|
2477 |
if (I < DotPos) and (DigitPtr < FirstDigit) then begin
|
2478 |
Result[I] := '#';
|
2479 |
goto RedoCase;
|
2480 |
end;
|
2481 |
end;
|
2482 |
'.' :
|
2483 |
begin
|
2484 |
Result[I] := DecPt;
|
2485 |
if (I < DotPos) and (DigitPtr < FirstDigit) then begin
|
2486 |
Result[I] := '#';
|
2487 |
goto RedoCase;
|
2488 |
end;
|
2489 |
end;
|
2490 |
'+' : Result[I] := PlusArray[Negative];
|
2491 |
'-' : Result[I] := MinusArray[Negative];
|
2492 |
end;
|
2493 |
end;
|
2494 |
|
2495 |
Done:
|
2496 |
if AssumeDP then
|
2497 |
SetLength(Result, Pred(Length(Result)));
|
2498 |
if RtChars > 0 then begin
|
2499 |
S := RtCurr;
|
2500 |
if Length(S) > RtChars then
|
2501 |
SetLength(S, RtChars)
|
2502 |
else
|
2503 |
S := LeftPadL(S, RtChars);
|
2504 |
Result := Result + S;
|
2505 |
end;
|
2506 |
if LtChars > 0 then begin
|
2507 |
S := LtCurr;
|
2508 |
if Length(S) > LtChars then
|
2509 |
SetLength(S, LtChars)
|
2510 |
else
|
2511 |
S := PadL(S, LtChars);
|
2512 |
Result := S + Result;
|
2513 |
end;
|
2514 |
end;
|
2515 |
|
2516 |
function FloatFormL(const Mask : String ; R : TstFloat ; const LtCurr,
|
2517 |
RtCurr : String ; Sep, DecPt : Char) : String;
|
2518 |
{-Return a formatted string with digits from R merged into mask.}
|
2519 |
begin
|
2520 |
Result := FormPrimL(Mask, R, LtCurr, RtCurr, Sep, DecPt, False);
|
2521 |
end;
|
2522 |
|
2523 |
function LongIntFormL(const Mask : String ; L : LongInt ; const LtCurr,
|
2524 |
RtCurr : String ; Sep : Char) : String;
|
2525 |
{-Return a formatted string with digits from L merged into mask.}
|
2526 |
begin
|
2527 |
Result := FormPrimL(Mask, L, LtCurr, RtCurr, Sep, '.', True);
|
2528 |
end;
|
2529 |
|
2530 |
function StrChPosL(const P : String; C : Char; var Pos : Cardinal) : Boolean;
|
2531 |
{-Return the position of a specified character within a string.}
|
2532 |
{$IFDEF UNICODE}
|
2533 |
begin
|
2534 |
Pos := System.Pos(C, P);
|
2535 |
Result := Pos <> 0;
|
2536 |
end;
|
2537 |
{$ELSE}
|
2538 |
asm
|
2539 |
push ebx { Save registers }
|
2540 |
push edi
|
2541 |
|
2542 |
or eax, eax { Protect against null string }
|
2543 |
jz @@NotFound
|
2544 |
|
2545 |
xor edi, edi { Zero counter }
|
2546 |
mov ebx, [eax-StrOffset].LStrRec.Length { Get input length }
|
2547 |
|
2548 |
@@Loop:
|
2549 |
inc edi { Increment counter }
|
2550 |
cmp [eax], dl { Did we find it? }
|
2551 |
jz @@Found
|
2552 |
inc eax { Increment pointer }
|
2553 |
|
2554 |
cmp edi, ebx { End of string? }
|
2555 |
jnz @@Loop { If not, loop }
|
2556 |
|
2557 |
@@NotFound:
|
2558 |
xor eax, eax { Not found, zero EAX for False }
|
2559 |
mov [ecx], eax
|
2560 |
jmp @@Done
|
2561 |
|
2562 |
@@Found:
|
2563 |
mov [ecx], edi { Set Pos }
|
2564 |
mov eax, 1 { Set EAX to True }
|
2565 |
|
2566 |
@@Done:
|
2567 |
pop edi { Restore registers }
|
2568 |
pop ebx
|
2569 |
end;
|
2570 |
{$ENDIF}
|
2571 |
|
2572 |
function StrStPosL(const P, S : String; var Pos : Cardinal) : Boolean;
|
2573 |
{-Return the position of a specified substring within a string.}
|
2574 |
begin
|
2575 |
Pos := System.Pos(S, P);
|
2576 |
Result := Pos <> 0;
|
2577 |
end;
|
2578 |
|
2579 |
function StrStCopyL(const S : String; Pos, Count : Cardinal) : String;
|
2580 |
{-Copy characters at a specified position in a string.}
|
2581 |
begin
|
2582 |
Result := System.Copy(S, Pos, Count);
|
2583 |
end;
|
2584 |
|
2585 |
function StrChInsertL(const S : String; C : Char; Pos : Cardinal) : String;
|
2586 |
var
|
2587 |
Temp : string;
|
2588 |
begin
|
2589 |
SetLength(Temp, 1);
|
2590 |
Temp[1] := C;
|
2591 |
Result := S;
|
2592 |
System.Insert(Temp, Result, Pos);
|
2593 |
end;
|
2594 |
|
2595 |
function StrStInsertL(const S1, S2 : String; Pos : Cardinal) : String;
|
2596 |
{-Insert a string into another string at a specified position.}
|
2597 |
begin
|
2598 |
Result := S1;
|
2599 |
System.Insert(S2, Result, Pos);
|
2600 |
end;
|
2601 |
|
2602 |
function StrChDeleteL(const S : String; Pos : Cardinal) : String;
|
2603 |
{-Delete the character at a specified position in a string.}
|
2604 |
begin
|
2605 |
Result := S;
|
2606 |
System.Delete(Result, Pos, 1);
|
2607 |
end;
|
2608 |
|
2609 |
function StrStDeleteL(const S : String; Pos, Count : Cardinal) : String;
|
2610 |
{-Delete characters at a specified position in a string.}
|
2611 |
begin
|
2612 |
Result := S;
|
2613 |
System.Delete(Result, Pos, Count);
|
2614 |
end;
|
2615 |
|
2616 |
|
2617 |
{----------------------------------------------------------------------------}
|
2618 |
|
2619 |
function CopyLeftL(const S : String; Len : Cardinal) : String;
|
2620 |
{-Return the left Len characters of a string}
|
2621 |
begin
|
2622 |
if (Len < 1) or (S = '') then
|
2623 |
Result := ''
|
2624 |
else
|
2625 |
Result := Copy(S, 1, Len);
|
2626 |
end;
|
2627 |
|
2628 |
{----------------------------------------------------------------------------}
|
2629 |
|
2630 |
function CopyMidL(const S : String; First, Len : Cardinal) : String;
|
2631 |
{-Return the mid part of a string}
|
2632 |
begin
|
2633 |
if (LongInt(First) > Length(S)) or (LongInt(Len) < 1) or (S = '') then
|
2634 |
Result := ''
|
2635 |
else
|
2636 |
Result := Copy(S, First, Len);
|
2637 |
end;
|
2638 |
|
2639 |
{----------------------------------------------------------------------------}
|
2640 |
|
2641 |
function CopyRightL(const S : String; First : Cardinal) : String;
|
2642 |
{-Return the right Len characters of a string}
|
2643 |
begin
|
2644 |
if (LongInt(First) > Length(S)) or (First < 1) or (S = '') then
|
2645 |
Result := ''
|
2646 |
else
|
2647 |
Result := Copy(S, First, Length(S));
|
2648 |
end;
|
2649 |
|
2650 |
{----------------------------------------------------------------------------}
|
2651 |
|
2652 |
function CopyRightAbsL(const S : String; NumChars : Cardinal) : String;
|
2653 |
{-Return NumChar characters starting from end}
|
2654 |
begin
|
2655 |
if (Cardinal(Length(S)) > NumChars) then
|
2656 |
Result := Copy(S, (Cardinal(Length(S)) - NumChars)+1, NumChars)
|
2657 |
else
|
2658 |
Result := S;
|
2659 |
end;
|
2660 |
|
2661 |
{----------------------------------------------------------------------------}
|
2662 |
|
2663 |
function WordPosL(const S, WordDelims, AWord : String;
|
2664 |
N : Cardinal; var Position : Cardinal) : Boolean;
|
2665 |
{-returns the Nth instance of a given word within a string}
|
2666 |
var
|
2667 |
TmpStr : String;
|
2668 |
Len,
|
2669 |
I,
|
2670 |
P1,
|
2671 |
P2 : Cardinal;
|
2672 |
begin
|
2673 |
if (S = '') or (AWord = '') or (pos(AWord, S) = 0) or (N < 1) then begin
|
2674 |
Result := False;
|
2675 |
Position := 0;
|
2676 |
Exit;
|
2677 |
end;
|
2678 |
|
2679 |
Result := False;
|
2680 |
Position := 0;
|
2681 |
|
2682 |
TmpStr := S;
|
2683 |
I := 0;
|
2684 |
Len := Length(AWord);
|
2685 |
P1 := pos(AWord, TmpStr);
|
2686 |
|
2687 |
while (P1 > 0) and (Length(TmpStr) > 0) do begin
|
2688 |
P2 := P1 + pred(Len);
|
2689 |
if (P1 = 1) then begin
|
2690 |
if (pos(TmpStr[P2+1], WordDelims) > 0) then begin
|
2691 |
Inc(I);
|
2692 |
end else
|
2693 |
System.Delete(TmpStr, 1, P2);
|
2694 |
end else if (pos(TmpStr[P1-1], WordDelims) > 0) and
|
2695 |
// ((pos(TmpStr[P2+1], WordDelims) > 0) or {!!.02}
|
2696 |
// (LongInt(P2+1) = Length(TmpStr))) then begin {!!.02}
|
2697 |
((LongInt(P2+1) >= Length(TmpStr)) or {!!.02}
|
2698 |
(pos(TmpStr[P2+1], WordDelims) > 0)) then begin {!!.02}
|
2699 |
Inc(I);
|
2700 |
end else if ((LongInt(P1 + pred(Len))) = Length(TmpStr)) then begin
|
2701 |
if (P1 > 1) and (pos(TmpStr[P1-1], WordDelims) > 0) then
|
2702 |
Inc(I);
|
2703 |
end;
|
2704 |
|
2705 |
if (I = N) then begin
|
2706 |
Result := True;
|
2707 |
Position := Position + P1;
|
2708 |
Exit;
|
2709 |
end;
|
2710 |
System.Delete(TmpStr, 1, P2);
|
2711 |
Position := Position + P2;
|
2712 |
P1 := pos(AWord, TmpStr);
|
2713 |
end;
|
2714 |
end;
|
2715 |
|
2716 |
|
2717 |
{----------------------------------------------------------------------------}
|
2718 |
|
2719 |
function CopyFromNthWordL(const S, WordDelims : String;
|
2720 |
const AWord : String; N : Cardinal; {!!.02}
|
2721 |
var SubString : String) : Boolean;
|
2722 |
var
|
2723 |
P : Cardinal;
|
2724 |
begin
|
2725 |
if (WordPosL(S, WordDelims, AWord, N, P)) then begin
|
2726 |
SubString := Copy(S, P, Length(S));
|
2727 |
Result := True;
|
2728 |
end else begin
|
2729 |
SubString := '';
|
2730 |
Result := False;
|
2731 |
end;
|
2732 |
end;
|
2733 |
|
2734 |
{----------------------------------------------------------------------------}
|
2735 |
|
2736 |
function DeleteFromNthWordL(const S, WordDelims : String;
|
2737 |
const AWord : String; N : Cardinal; {!!.02}
|
2738 |
var SubString : String) : Boolean;
|
2739 |
var
|
2740 |
P : Cardinal;
|
2741 |
begin
|
2742 |
SubString := S;
|
2743 |
if (WordPosL(S, WordDelims, AWord, N, P)) then begin
|
2744 |
Result := True;
|
2745 |
SubString := Copy(S, 1, P-1);
|
2746 |
end else begin
|
2747 |
Result := False;
|
2748 |
SubString := '';
|
2749 |
end;
|
2750 |
end;
|
2751 |
|
2752 |
{----------------------------------------------------------------------------}
|
2753 |
|
2754 |
function CopyFromToWordL(const S, WordDelims, Word1, Word2 : String;
|
2755 |
N1, N2 : Cardinal;
|
2756 |
var SubString : String) : Boolean;
|
2757 |
var
|
2758 |
P1,
|
2759 |
P2 : Cardinal;
|
2760 |
begin
|
2761 |
if (WordPosL(S, WordDelims, Word1, N1, P1)) then begin
|
2762 |
if (WordPosL(S, WordDelims, Word2, N2, P2)) then begin
|
2763 |
Dec(P2);
|
2764 |
if (P2 > P1) then begin
|
2765 |
Result := True;
|
2766 |
SubString := Copy(S, P1, P2-P1);
|
2767 |
end else begin
|
2768 |
Result := False;
|
2769 |
SubString := '';
|
2770 |
end;
|
2771 |
end else begin
|
2772 |
Result := False;
|
2773 |
SubString := '';
|
2774 |
end;
|
2775 |
end else begin
|
2776 |
Result := False;
|
2777 |
SubString := '';
|
2778 |
end;
|
2779 |
end;
|
2780 |
|
2781 |
{----------------------------------------------------------------------------}
|
2782 |
|
2783 |
function DeleteFromToWordL(const S, WordDelims, Word1, Word2 : String;
|
2784 |
N1, N2 : Cardinal;
|
2785 |
var SubString : String) : Boolean;
|
2786 |
var
|
2787 |
P1,
|
2788 |
P2 : Cardinal;
|
2789 |
begin
|
2790 |
SubString := S;
|
2791 |
if (WordPosL(S, WordDelims, Word1, N1, P1)) then begin
|
2792 |
if (WordPosL(S, WordDelims, Word2, N2, P2)) then begin
|
2793 |
Dec(P2);
|
2794 |
if (P2 > P1) then begin
|
2795 |
Result := True;
|
2796 |
System.Delete(SubString, P1, P2-P1+1);
|
2797 |
end else begin
|
2798 |
Result := False;
|
2799 |
SubString := '';
|
2800 |
end;
|
2801 |
end else begin
|
2802 |
Result := False;
|
2803 |
SubString := '';
|
2804 |
end;
|
2805 |
end else begin
|
2806 |
Result := False;
|
2807 |
SubString := '';
|
2808 |
end;
|
2809 |
end;
|
2810 |
|
2811 |
{----------------------------------------------------------------------------}
|
2812 |
|
2813 |
function CopyWithinL(const S, Delimiter : String;
|
2814 |
Strip : Boolean) : String;
|
2815 |
var
|
2816 |
P1,
|
2817 |
P2 : Cardinal;
|
2818 |
TmpStr : String;
|
2819 |
begin
|
2820 |
if (S = '') or (Delimiter = '') or (pos(Delimiter, S) = 0) then
|
2821 |
Result := ''
|
2822 |
else begin
|
2823 |
if (StrStPosL(S, Delimiter, P1)) then begin
|
2824 |
TmpStr := Copy(S, LongInt(P1) + Length(Delimiter), Length(S));
|
2825 |
if StrStPosL(TmpStr, Delimiter, P2) then begin
|
2826 |
Result := Copy(TmpStr, 1, P2-1);
|
2827 |
if (not Strip) then
|
2828 |
Result := Delimiter + Result + Delimiter;
|
2829 |
end else begin
|
2830 |
Result := TmpStr;
|
2831 |
if (not Strip) then
|
2832 |
Result := Delimiter + Result;
|
2833 |
end;
|
2834 |
end;
|
2835 |
end;
|
2836 |
end;
|
2837 |
|
2838 |
{----------------------------------------------------------------------------}
|
2839 |
|
2840 |
function DeleteWithinL(const S, Delimiter : String) : String;
|
2841 |
var
|
2842 |
P1,
|
2843 |
P2 : Cardinal;
|
2844 |
TmpStr : String;
|
2845 |
begin
|
2846 |
if (S = '') or (Delimiter = '') or (pos(Delimiter, S) = 0) then
|
2847 |
Result := ''
|
2848 |
else begin
|
2849 |
if (StrStPosL(S, Delimiter, P1)) then begin
|
2850 |
TmpStr := Copy(S, LongInt(P1) + Length(Delimiter), Length(S));
|
2851 |
if (pos(Delimiter, TmpStr) = 0) then
|
2852 |
Result := Copy(S, 1, P1-1)
|
2853 |
else begin
|
2854 |
if (StrStPosL(TmpStr, Delimiter, P2)) then begin
|
2855 |
Result := S;
|
2856 |
P2 := LongInt(P2) + (2*Length(Delimiter));
|
2857 |
System.Delete(Result, P1, P2);
|
2858 |
end;
|
2859 |
end;
|
2860 |
end;
|
2861 |
end;
|
2862 |
end;
|
2863 |
|
2864 |
{----------------------------------------------------------------------------}
|
2865 |
|
2866 |
function ReplaceWordL(const S, WordDelims, OldWord, NewWord : String;
|
2867 |
N : Cardinal;
|
2868 |
var Replacements : Cardinal) : String;
|
2869 |
var
|
2870 |
I,
|
2871 |
C,
|
2872 |
P1 : Cardinal;
|
2873 |
begin
|
2874 |
if (S = '') or (WordDelims = '') or (OldWord = '') or
|
2875 |
(pos(OldWord, S) = 0) then begin
|
2876 |
Result := S;
|
2877 |
Replacements := 0;
|
2878 |
Exit;
|
2879 |
end;
|
2880 |
|
2881 |
if (WordPosL(S, WordDelims, OldWord, N, P1)) then begin
|
2882 |
Result := S;
|
2883 |
System.Delete(Result, P1, Length(OldWord));
|
2884 |
|
2885 |
C := 0;
|
2886 |
for I := 1 to Replacements do begin
|
2887 |
if ((Length(NewWord)) + Length(Result)) < MaxLongInt then begin
|
2888 |
Inc(C);
|
2889 |
System.Insert(NewWord, Result, P1);
|
2890 |
Inc(P1, Length(NewWord) + 1);
|
2891 |
end else begin
|
2892 |
Replacements := C;
|
2893 |
Exit;
|
2894 |
end;
|
2895 |
end;
|
2896 |
end else begin
|
2897 |
Result := S;
|
2898 |
Replacements := 0;
|
2899 |
end;
|
2900 |
end;
|
2901 |
|
2902 |
|
2903 |
function ReplaceWordAllL(const S, WordDelims, OldWord, NewWord : String;
|
2904 |
var Replacements : Cardinal) : String;
|
2905 |
var
|
2906 |
I,
|
2907 |
C,
|
2908 |
P1 : Cardinal;
|
2909 |
begin
|
2910 |
if (S = '') or (WordDelims = '') or (OldWord = '') or
|
2911 |
(Pos(OldWord, S) = 0) then begin
|
2912 |
Result := S;
|
2913 |
Replacements := 0;
|
2914 |
end else begin
|
2915 |
Result := S;
|
2916 |
C := 0;
|
2917 |
while (WordPosL(Result, WordDelims, OldWord, 1, P1)) do begin
|
2918 |
System.Delete(Result, P1, Length(OldWord));
|
2919 |
for I := 1 to Replacements do begin
|
2920 |
if ((Length(NewWord) + Length(Result)) < MaxLongInt) then begin
|
2921 |
Inc(C);
|
2922 |
System.Insert(NewWord, Result, P1);
|
2923 |
end else begin
|
2924 |
Replacements := C;
|
2925 |
Exit;
|
2926 |
end;
|
2927 |
end;
|
2928 |
end;
|
2929 |
Replacements := C;
|
2930 |
end;
|
2931 |
end;
|
2932 |
|
2933 |
|
2934 |
{----------------------------------------------------------------------------}
|
2935 |
|
2936 |
function ReplaceStringL(const S, OldString, NewString : String;
|
2937 |
N : Cardinal;
|
2938 |
var Replacements : Cardinal) : String;
|
2939 |
var
|
2940 |
I,
|
2941 |
C,
|
2942 |
P1 : Cardinal;
|
2943 |
TmpStr : String;
|
2944 |
begin
|
2945 |
if (S = '') or (OldString = '') or (pos(OldString, S) = 0) then begin
|
2946 |
Result := S;
|
2947 |
Replacements := 0;
|
2948 |
Exit;
|
2949 |
end;
|
2950 |
TmpStr := S;
|
2951 |
|
2952 |
I := 1;
|
2953 |
P1 := pos(OldString, TmpStr);
|
2954 |
C := P1;
|
2955 |
while (I < N) and (LongInt(C) < Length(TmpStr)) do begin
|
2956 |
Inc(I);
|
2957 |
System.Delete(TmpStr, 1, LongInt(P1) + Length(OldString));
|
2958 |
Inc(C, LongInt(P1) + Length(OldString));
|
2959 |
end;
|
2960 |
Result := S;
|
2961 |
System.Delete(Result, C, Length(OldString));
|
2962 |
|
2963 |
C := 0;
|
2964 |
for I := 1 to Replacements do begin
|
2965 |
if (((Length(NewString)) + Length(Result)) < MaxLongInt) then begin
|
2966 |
Inc(C);
|
2967 |
System.Insert(NewString, Result, P1);
|
2968 |
Inc(P1, Length(NewString) + 1);
|
2969 |
end else begin
|
2970 |
Replacements := C;
|
2971 |
Exit;
|
2972 |
end;
|
2973 |
end;
|
2974 |
end;
|
2975 |
|
2976 |
|
2977 |
function ReplaceStringAllL(const S, OldString, NewString : String;
|
2978 |
var Replacements : Cardinal) : String;
|
2979 |
var
|
2980 |
I,
|
2981 |
C : Cardinal;
|
2982 |
P1 : longint;
|
2983 |
Tmp: String;
|
2984 |
begin
|
2985 |
if (S = '') or (OldString = '') or (Pos(OldString, S) = 0) then
|
2986 |
begin
|
2987 |
Result := S;
|
2988 |
Replacements := 0;
|
2989 |
end
|
2990 |
else begin
|
2991 |
Tmp := S;
|
2992 |
P1 := AnsiPos(OldString, S);
|
2993 |
if (P1 > 0) then begin
|
2994 |
Result := Copy(Tmp, 1, P1-1);
|
2995 |
C := 0;
|
2996 |
while (P1 > 0) do begin
|
2997 |
for I := 1 to Replacements do begin
|
2998 |
Inc(C);
|
2999 |
Result := Result + NewString;
|
3000 |
end;
|
3001 |
Tmp := Copy(Tmp, P1+Length(OldString), MaxLongInt);
|
3002 |
P1 := AnsiPos(OldString, Tmp);
|
3003 |
if (P1 > 0) then begin
|
3004 |
Result := Result + Copy(Tmp, 1, P1-1);
|
3005 |
end else
|
3006 |
Result := Result + Tmp;
|
3007 |
end;
|
3008 |
Replacements := C;
|
3009 |
end else begin
|
3010 |
Result := S;
|
3011 |
Replacements := 0;
|
3012 |
end;
|
3013 |
end;
|
3014 |
end;
|
3015 |
|
3016 |
|
3017 |
function LastWordL(const S, WordDelims, AWord : String;
|
3018 |
var Position : Cardinal) : Boolean;
|
3019 |
var
|
3020 |
TmpStr : String;
|
3021 |
I : Cardinal;
|
3022 |
begin
|
3023 |
if (S = '') or (WordDelims = '') or
|
3024 |
(AWord = '') or (pos(AWord, S) = 0) then begin
|
3025 |
Result := False;
|
3026 |
Position := 0;
|
3027 |
Exit;
|
3028 |
end;
|
3029 |
|
3030 |
TmpStr := S;
|
3031 |
I := Length(TmpStr);
|
3032 |
while (pos(TmpStr[I], WordDelims) > 0) do begin
|
3033 |
System.Delete(TmpStr, I, 1);
|
3034 |
I := Length(TmpStr);
|
3035 |
end;
|
3036 |
|
3037 |
Position := Length(TmpStr);
|
3038 |
repeat
|
3039 |
while (pos(TmpStr[Position], WordDelims) = 0) and (Position > 1) do
|
3040 |
Dec(Position);
|
3041 |
if (Copy(TmpStr, Position + 1, Length(AWord)) = AWord) then begin
|
3042 |
Inc(Position);
|
3043 |
Result := True;
|
3044 |
Exit;
|
3045 |
end;
|
3046 |
System.Delete(TmpStr, Position, Length(TmpStr));
|
3047 |
Position := Length(TmpStr);
|
3048 |
until (Length(TmpStr) = 0);
|
3049 |
Result := False;
|
3050 |
Position := 0;
|
3051 |
end;
|
3052 |
|
3053 |
|
3054 |
|
3055 |
function LastWordAbsL(const S, WordDelims : String;
|
3056 |
var Position : Cardinal) : Boolean;
|
3057 |
begin
|
3058 |
if (S = '') or (WordDelims = '') then begin
|
3059 |
Result := False;
|
3060 |
Position := 0;
|
3061 |
Exit;
|
3062 |
end;
|
3063 |
|
3064 |
{find first non-delimiter character, if any. If not a "one-word wonder"}
|
3065 |
Position := Length(S);
|
3066 |
while (Position > 0) and (pos(S[Position], WordDelims) > 0) do
|
3067 |
Dec(Position);
|
3068 |
|
3069 |
if (Position = 0) then begin
|
3070 |
Result := True;
|
3071 |
Position := 1;
|
3072 |
Exit;
|
3073 |
end;
|
3074 |
|
3075 |
{find next delimiter character}
|
3076 |
while (Position > 0) and (pos(S[Position], WordDelims) = 0) do
|
3077 |
Dec(Position);
|
3078 |
Inc(Position);
|
3079 |
Result := True;
|
3080 |
end;
|
3081 |
|
3082 |
|
3083 |
|
3084 |
function LastStringL(const S, AString : String;
|
3085 |
var Position : Cardinal) : Boolean;
|
3086 |
var
|
3087 |
TmpStr : String;
|
3088 |
I, C : Cardinal;
|
3089 |
begin
|
3090 |
if (S = '') or (AString = '') or (pos(AString, S) = 0) then begin
|
3091 |
Result := False;
|
3092 |
Position := 0;
|
3093 |
Exit;
|
3094 |
end;
|
3095 |
|
3096 |
TmpStr := S;
|
3097 |
C := 0;
|
3098 |
I := pos(AString, TmpStr);
|
3099 |
while (I > 0) do begin
|
3100 |
Inc(C, LongInt(I) + Length(AString));
|
3101 |
System.Delete(TmpStr, 1, LongInt(I) + Length(AString));
|
3102 |
I := pos(AString, TmpStr);
|
3103 |
end;
|
3104 |
{Go back the length of AString since the while loop deletes the last instance}
|
3105 |
Dec(C, Length(AString));
|
3106 |
Position := C;
|
3107 |
Result := True;
|
3108 |
end;
|
3109 |
|
3110 |
|
3111 |
|
3112 |
function KeepCharsL(const S, Chars : String) : String;
|
3113 |
var
|
3114 |
FromInx : Cardinal;
|
3115 |
ToInx : Cardinal;
|
3116 |
begin
|
3117 |
{if either the input string or the list of acceptable chars is empty
|
3118 |
the destination string will also be empty}
|
3119 |
if (S = '') or (Chars = '') then begin
|
3120 |
Result := '';
|
3121 |
Exit;
|
3122 |
end;
|
3123 |
|
3124 |
{set the maximum length of the result string (it could be less than
|
3125 |
this, of course}
|
3126 |
SetLength(Result, length(S));
|
3127 |
|
3128 |
{start off the to index}
|
3129 |
ToInx := 0;
|
3130 |
|
3131 |
{in a loop, copy over the chars that match the list}
|
3132 |
for FromInx := 1 to length(S) do
|
3133 |
if CharExistsL(Chars, S[FromInx]) then begin
|
3134 |
inc(ToInx);
|
3135 |
Result[ToInx] := S[FromInx];
|
3136 |
end;
|
3137 |
|
3138 |
{make sure that the length of the result string is correct}
|
3139 |
SetLength(Result, ToInx);
|
3140 |
end;
|
3141 |
|
3142 |
|
3143 |
|
3144 |
function RepeatStringL(const RepeatString : String;
|
3145 |
var Repetitions : Cardinal;
|
3146 |
MaxLen : Cardinal) : String;
|
3147 |
var
|
3148 |
i : Cardinal;
|
3149 |
Len : Cardinal;
|
3150 |
ActualReps : Cardinal;
|
3151 |
begin
|
3152 |
Result := '';
|
3153 |
if (MaxLen <> 0) and
|
3154 |
(Repetitions <> 0) and
|
3155 |
(RepeatString <> '') then begin
|
3156 |
Len := length(RepeatString);
|
3157 |
ActualReps := MaxLen div Len;
|
3158 |
if (ActualReps > Repetitions) then
|
3159 |
ActualReps := Repetitions
|
3160 |
else
|
3161 |
Repetitions := ActualReps;
|
3162 |
if (ActualReps > 0) then begin
|
3163 |
SetLength(Result, ActualReps * Len);
|
3164 |
for i := 0 to pred(ActualReps) do
|
3165 |
Move(RepeatString[1], Result[i * Len + 1], Len * SizeOf(Char));
|
3166 |
end;
|
3167 |
end;
|
3168 |
end;
|
3169 |
|
3170 |
|
3171 |
|
3172 |
function TrimCharsL(const S, Chars : String) : String;
|
3173 |
begin
|
3174 |
Result := RightTrimCharsL(S, Chars);
|
3175 |
Result := LeftTrimCharsL(Result, Chars);
|
3176 |
end;
|
3177 |
|
3178 |
|
3179 |
|
3180 |
function RightTrimCharsL(const S, Chars : String) : String;
|
3181 |
var
|
3182 |
CutOff : integer;
|
3183 |
begin
|
3184 |
CutOff := length(S);
|
3185 |
while (CutOff > 0) do begin
|
3186 |
if not CharExistsL(Chars, S[CutOff]) then
|
3187 |
Break;
|
3188 |
dec(CutOff);
|
3189 |
end;
|
3190 |
if (CutOff = 0) then
|
3191 |
Result := ''
|
3192 |
else
|
3193 |
Result := Copy(S, 1, CutOff);
|
3194 |
end;
|
3195 |
|
3196 |
|
3197 |
|
3198 |
function LeftTrimCharsL(const S, Chars : String) : String;
|
3199 |
var
|
3200 |
CutOff : integer;
|
3201 |
LenS : integer;
|
3202 |
begin
|
3203 |
LenS := length(S);
|
3204 |
CutOff := 1;
|
3205 |
while (CutOff <= LenS) do begin
|
3206 |
if not CharExistsL(Chars, S[CutOff]) then
|
3207 |
Break;
|
3208 |
inc(CutOff);
|
3209 |
end;
|
3210 |
if (CutOff > LenS) then
|
3211 |
Result := ''
|
3212 |
else
|
3213 |
Result := Copy(S, CutOff, LenS - CutOff + 1);
|
3214 |
end;
|
3215 |
|
3216 |
|
3217 |
|
3218 |
function ExtractTokensL(const S, Delims: String;
|
3219 |
QuoteChar : Char;
|
3220 |
AllowNulls : Boolean;
|
3221 |
Tokens : TStrings) : Cardinal; overload;
|
3222 |
var
|
3223 |
State : (ScanStart,
|
3224 |
ScanQuotedToken,
|
3225 |
ScanQuotedTokenEnd,
|
3226 |
ScanNormalToken,
|
3227 |
ScanNormalTokenWithQuote);
|
3228 |
CurChar : Char;
|
3229 |
TokenStart : integer;
|
3230 |
Inx : integer;
|
3231 |
begin
|
3232 |
{Notes: this routine implements the following state machine
|
3233 |
start ----> ScanStart
|
3234 |
ScanStart-----quote----->ScanQuotedToken
|
3235 |
ScanStart-----delim----->ScanStart (1)
|
3236 |
ScanStart-----other----->ScanNormalToken
|
3237 |
ScanQuotedToken-----quote----->ScanQuotedTokenEnd
|
3238 |
ScanQuotedToken-----other----->ScanQuotedToken
|
3239 |
ScanQuotedTokenEnd-----quote----->ScanNormalTokenWithQuote
|
3240 |
ScanQuotedTokenEnd-----delim----->ScanStart (2)
|
3241 |
ScanQuotedTokenEnd-----other----->ScanNormalToken
|
3242 |
ScanNormalToken-----quote----->ScanNormalTokenWithQuote
|
3243 |
ScanNormalToken-----delim----->ScanStart (3)
|
3244 |
ScanNormalToken-----other----->ScanNormalToken
|
3245 |
ScanNormalTokenWithQuote-----quote----->ScanNormalTokenWithQuote
|
3246 |
ScanNormalTokenWithQuote-----other----->ScanNormalToken
|
3247 |
|
3248 |
(1) output a null token if allowed
|
3249 |
(2) output a token, stripping quotes (if the dequoted token is
|
3250 |
empty, output a null token if allowed)
|
3251 |
(3) output a token; no quote stripping
|
3252 |
|
3253 |
If the quote character is #0, it's taken to mean that the routine
|
3254 |
should not check for quoted substrings.}
|
3255 |
|
3256 |
{clear the tokens string list, set the return value to zero}
|
3257 |
Tokens.Clear;
|
3258 |
Result := 0;
|
3259 |
|
3260 |
{if the input string is empty or the delimiter list is empty or
|
3261 |
the quote character is found in the delimiter list, return zero
|
3262 |
tokens found}
|
3263 |
if (S = '') or
|
3264 |
(Delims = '') or
|
3265 |
CharExistsL(Delims, QuoteChar) then
|
3266 |
Exit;
|
3267 |
|
3268 |
{start off in the normal scanning state}
|
3269 |
State := ScanStart;
|
3270 |
|
3271 |
{the first token starts at position 1}
|
3272 |
TokenStart := 1;
|
3273 |
|
3274 |
{read through the entire string}
|
3275 |
for Inx := 1 to length(S) do begin
|
3276 |
|
3277 |
{get the current character}
|
3278 |
CurChar := S[Inx];
|
3279 |
|
3280 |
{process the character according to the current state}
|
3281 |
case State of
|
3282 |
ScanStart :
|
3283 |
begin
|
3284 |
{if the current char is the quote character, switch states}
|
3285 |
if (QuoteChar <> #0) and (CurChar = QuoteChar) then
|
3286 |
State := ScanQuotedToken
|
3287 |
|
3288 |
{if the current char is a delimiter, output a null token}
|
3289 |
else if CharExistsL(Delims, CurChar) then begin
|
3290 |
|
3291 |
{if allowed to, output a null token}
|
3292 |
if AllowNulls then begin
|
3293 |
Tokens.Add('');
|
3294 |
inc(Result);
|
3295 |
end;
|
3296 |
|
3297 |
{set the start of the next token to be one character after
|
3298 |
this delimiter}
|
3299 |
TokenStart := succ(Inx);
|
3300 |
end
|
3301 |
|
3302 |
{otherwise, the current char is starting a normal token, so
|
3303 |
switch states}
|
3304 |
else
|
3305 |
State := ScanNormalToken
|
3306 |
end;
|
3307 |
|
3308 |
ScanQuotedToken :
|
3309 |
begin
|
3310 |
{if the current char is the quote character, switch states}
|
3311 |
if (CurChar = QuoteChar) then
|
3312 |
State := ScanQuotedTokenEnd
|
3313 |
end;
|
3314 |
|
3315 |
ScanQuotedTokenEnd :
|
3316 |
begin
|
3317 |
{if the current char is the quote character, we have a token
|
3318 |
consisting of two (or more) quoted substrings, so switch
|
3319 |
states}
|
3320 |
if (CurChar = QuoteChar) then
|
3321 |
State := ScanNormalTokenWithQuote
|
3322 |
|
3323 |
{if the current char is a delimiter, output the token
|
3324 |
without the quotes}
|
3325 |
else if CharExistsL(Delims, CurChar) then begin
|
3326 |
|
3327 |
{if the token is empty without the quotes, output a null
|
3328 |
token only if allowed to}
|
3329 |
if ((Inx - TokenStart) = 2) then begin
|
3330 |
if AllowNulls then begin
|
3331 |
Tokens.Add('');
|
3332 |
inc(Result);
|
3333 |
end
|
3334 |
end
|
3335 |
|
3336 |
{else output the token without the quotes}
|
3337 |
else begin
|
3338 |
Tokens.Add(Copy(S, succ(TokenStart), Inx - TokenStart - 2));
|
3339 |
inc(Result);
|
3340 |
end;
|
3341 |
|
3342 |
{set the start of the next token to be one character after
|
3343 |
this delimiter}
|
3344 |
TokenStart := succ(Inx);
|
3345 |
|
3346 |
{switch states back to the start state}
|
3347 |
State := ScanStart;
|
3348 |
end
|
3349 |
|
3350 |
{otherwise it's a (complex) normal token, so switch states}
|
3351 |
else
|
3352 |
State := ScanNormalToken
|
3353 |
end;
|
3354 |
|
3355 |
ScanNormalToken :
|
3356 |
begin
|
3357 |
{if the current char is the quote character, we have a
|
3358 |
complex token with at least one quoted substring, so switch
|
3359 |
states}
|
3360 |
if (QuoteChar <> #0) and (CurChar = QuoteChar) then
|
3361 |
State := ScanNormalTokenWithQuote
|
3362 |
|
3363 |
{if the current char is a delimiter, output the token}
|
3364 |
else if CharExistsL(Delims, CurChar) then begin
|
3365 |
Tokens.Add(Copy(S, TokenStart, Inx - TokenStart));
|
3366 |
inc(Result);
|
3367 |
|
3368 |
{set the start of the next token to be one character after
|
3369 |
this delimiter}
|
3370 |
TokenStart := succ(Inx);
|
3371 |
|
3372 |
{switch states back to the start state}
|
3373 |
State := ScanStart;
|
3374 |
end;
|
3375 |
end;
|
3376 |
|
3377 |
ScanNormalTokenWithQuote :
|
3378 |
begin
|
3379 |
{if the current char is the quote character, switch states
|
3380 |
back to scanning a normal token}
|
3381 |
if (CurChar = QuoteChar) then
|
3382 |
State := ScanNormalToken;
|
3383 |
end;
|
3384 |
|
3385 |
end;
|
3386 |
end;
|
3387 |
|
3388 |
{we need to process the (possible) final token: first assume that
|
3389 |
the current character index is just beyond the end of the string}
|
3390 |
Inx := succ(length(S));
|
3391 |
|
3392 |
{if we are in the scanning quoted token state, we've read an opening
|
3393 |
quote, but no closing one; increment the token start value}
|
3394 |
if (State = ScanQuotedToken) then
|
3395 |
inc(TokenStart)
|
3396 |
|
3397 |
{if we've finished scanning a quoted token, we've read both quotes;
|
3398 |
increment the token start value, and decrement the current index}
|
3399 |
else if (State = ScanQuotedTokenEnd) then begin
|
3400 |
inc(TokenStart);
|
3401 |
dec(Inx);
|
3402 |
end;
|
3403 |
|
3404 |
{if the final token is not empty, output the token}
|
3405 |
if (TokenStart < Inx) then begin
|
3406 |
Tokens.Add(Copy(S, TokenStart, Inx - TokenStart));
|
3407 |
inc(Result);
|
3408 |
end
|
3409 |
{otherwise the final token is empty, so output a null token if
|
3410 |
allowed to}
|
3411 |
else if AllowNulls then begin
|
3412 |
Tokens.Add('');
|
3413 |
inc(Result);
|
3414 |
end;
|
3415 |
end;
|
3416 |
|
3417 |
function ContainsOnlyL(const S, Chars : String;
|
3418 |
var BadPos : Cardinal) : Boolean;
|
3419 |
var
|
3420 |
I : Cardinal;
|
3421 |
begin
|
3422 |
if (S = '') then begin
|
3423 |
Result := False;
|
3424 |
BadPos := 0;
|
3425 |
end else begin
|
3426 |
for I := 1 to Length(S) do begin
|
3427 |
if (not CharExistsL(Chars, S[I])) then begin
|
3428 |
BadPos := I;
|
3429 |
Result := False;
|
3430 |
Exit;
|
3431 |
end;
|
3432 |
end;
|
3433 |
Result := True;
|
3434 |
BadPos := 0;
|
3435 |
end;
|
3436 |
end;
|
3437 |
|
3438 |
|
3439 |
|
3440 |
function ContainsOtherThanL(const S, Chars : String;
|
3441 |
var BadPos : Cardinal) : Boolean;
|
3442 |
var
|
3443 |
I : Cardinal;
|
3444 |
begin
|
3445 |
if (S = '') then begin
|
3446 |
Result := False;
|
3447 |
BadPos := 0;
|
3448 |
end else begin
|
3449 |
for I := 1 to Length(S) do begin
|
3450 |
if (CharExistsL(Chars, S[I])) then begin
|
3451 |
BadPos := I;
|
3452 |
Result := True;
|
3453 |
Exit;
|
3454 |
end;
|
3455 |
end;
|
3456 |
Result := False;
|
3457 |
BadPos := 0;
|
3458 |
end;
|
3459 |
end;
|
3460 |
|
3461 |
|
3462 |
|
3463 |
function IsChAlphaL(C : Char) : Boolean;
|
3464 |
{-Returns true if Ch is an alpha}
|
3465 |
begin
|
3466 |
Result := Windows.IsCharAlpha(C);
|
3467 |
end;
|
3468 |
|
3469 |
|
3470 |
|
3471 |
function IsChNumericL(C : Char; const Numbers : String) : Boolean; {!!.02}
|
3472 |
{-Returns true if Ch in numeric set}
|
3473 |
begin
|
3474 |
Result := CharExistsL(Numbers, C);
|
3475 |
end;
|
3476 |
|
3477 |
|
3478 |
|
3479 |
function IsChAlphaNumericL(C : Char; const Numbers : String) : Boolean; {!!.02}
|
3480 |
{-Returns true if Ch is an alpha or numeric}
|
3481 |
begin
|
3482 |
Result := Windows.IsCharAlpha(C) or CharExistsL(Numbers, C);
|
3483 |
end;
|
3484 |
|
3485 |
|
3486 |
|
3487 |
function IsStrAlphaL(const S : String) : Boolean;
|
3488 |
{-Returns true if all characters in string are an alpha}
|
3489 |
var
|
3490 |
I : Cardinal;
|
3491 |
begin
|
3492 |
Result := false;
|
3493 |
if (length(S) > 0) then begin
|
3494 |
for I := 1 to Length(S) do
|
3495 |
if not Windows.IsCharAlpha(S[I]) then
|
3496 |
Exit;
|
3497 |
Result := true;
|
3498 |
end;
|
3499 |
end;
|
3500 |
|
3501 |
|
3502 |
|
3503 |
function IsStrNumericL(const S, Numbers : String) : Boolean;
|
3504 |
{-Returns true if all characters in string are in numeric set}
|
3505 |
var
|
3506 |
i : Cardinal;
|
3507 |
begin
|
3508 |
Result := false;
|
3509 |
if (length(S) > 0) then begin
|
3510 |
for i := 1 to Length(S) do
|
3511 |
if not CharExistsL(Numbers, S[i]) then
|
3512 |
Exit;
|
3513 |
Result := true;
|
3514 |
end;
|
3515 |
end;
|
3516 |
|
3517 |
|
3518 |
|
3519 |
function IsStrAlphaNumericL(const S, Numbers : String) : Boolean;
|
3520 |
{-Returns true if all characters in string are alpha or numeric}
|
3521 |
var
|
3522 |
i : Cardinal;
|
3523 |
begin
|
3524 |
Result := false;
|
3525 |
if (length(S) > 0) then begin
|
3526 |
for I := 1 to Length(S) do
|
3527 |
if (not Windows.IsCharAlpha(S[i])) and
|
3528 |
(not CharExistsL(Numbers, S[i])) then
|
3529 |
Exit;
|
3530 |
Result := true;
|
3531 |
end;
|
3532 |
end;
|
3533 |
|
3534 |
|
3535 |
function StrWithinL(const S, SearchStr : string;
|
3536 |
Start : Cardinal;
|
3537 |
var Position : Cardinal) : boolean;
|
3538 |
var
|
3539 |
TmpStr : string;
|
3540 |
begin
|
3541 |
TmpStr := S;
|
3542 |
if (Start > 1) then
|
3543 |
System.Delete(TmpStr, 1, Start-1);
|
3544 |
Position := pos(SearchStr, TmpStr);
|
3545 |
if (Position > 0) then begin
|
3546 |
Position := Position + Start - 1;
|
3547 |
Result := True;
|
3548 |
end else
|
3549 |
Result := False;
|
3550 |
end;
|
3551 |
|
3552 |
|
3553 |
end.
|