show/hide this revision's text 2 added 318 characters in body
  • Use PChar incrementing for speed of processing
  • If some tokens are not needed, only copy token data on demand
  • Copy PChar to local variable when actually scanning over whitespacethrough characters
  • Keep source data in a single buffer unless you must handle line by line, and even then, consider handling line processing as a separate token in the lexer recognizer
  • Consider processing a byte array buffer that has come straight from the file, if you definitely know the encoding; if using Delphi 2009, use PAnsiChar instead of PChar, unless of course you know the encoding is UTF16-LE.
  • If you know that the only whitespace is going to be #32 (ASCII space), or a similarly limited set of characters, there may be some clever bit manipulation hacks that can let you process 4 bytes at a time using Integer scanning. I wouldn't expect big wins here though, and the code will be as clear as mud.

Here's a sample lexer that should be pretty efficient, but it assumes that all source data is in a single string. Reworking it to handle buffers is moderately tricky due to very long tokens.

type
  TLexer = class
  private
    FData: string;
    FTokenStart: PChar;
    FCurrPos: PChar;
    function GetCurrentToken: string;
  public
    constructor Create(const AData: string);
    function GetNextToken: Boolean;
    property CurrentToken: string read GetCurrentToken;
  end;

{ TLexer }

constructor TLexer.Create(const AData: string);
begin
  FData := AData;
  FCurrPos := PChar(FData);
end;

function TLexer.GetCurrentToken: string;
begin
  SetString(Result, FTokenStart, FCurrPos - FTokenStart);
end;

function TLexer.GetNextToken: Boolean;
var
  cp: PChar;
begin
  cp := FCurrPos; // copy to local to permit register allocation

  // skip whitespace; this test could be converted to an unsigned int
  // subtraction and compare for only a single branch
  while (cp^ > #0) and (cp^ <= #32) do
    Inc(cp);

  // using null terminater for end of file
  Result := cp^ <> #0;

  if Result then
  begin
    FTokenStart := cp;
    Inc(cp);
    while cp^ > #32 do
      Inc(cp);
  end;

  FCurrPos := cp;
end;
show/hide this revision's text 1
  • Use PChar incrementing for speed of processing
  • If some tokens are not needed, only copy token data on demand
  • Copy PChar to local variable when actually scanning over whitespace
  • Keep source data in a single buffer unless you must handle line by line, and even then, consider handling line processing as a separate token in the lexer recognizer
  • Consider processing a byte array buffer that has come straight from the file, if you definitely know the encoding; if using Delphi 2009, use PAnsiChar instead of PChar, unless of course you know the encoding is UTF16-LE.

Here's a sample lexer that should be pretty efficient, but it assumes that all source data is in a single string. Reworking it to handle buffers is moderately tricky due to very long tokens.

type
  TLexer = class
  private
    FData: string;
    FTokenStart: PChar;
    FCurrPos: PChar;
    function GetCurrentToken: string;
  public
    constructor Create(const AData: string);
    function GetNextToken: Boolean;
    property CurrentToken: string read GetCurrentToken;
  end;

{ TLexer }

constructor TLexer.Create(const AData: string);
begin
  FData := AData;
  FCurrPos := PChar(FData);
end;

function TLexer.GetCurrentToken: string;
begin
  SetString(Result, FTokenStart, FCurrPos - FTokenStart);
end;

function TLexer.GetNextToken: Boolean;
var
  cp: PChar;
begin
  cp := FCurrPos; // copy to local to permit register allocation

  // skip whitespace
  while (cp^ > #0) and (cp^ <= #32) do
    Inc(cp);

  // using null terminater for end of file
  Result := cp^ <> #0;

  if Result then
  begin
    FTokenStart := cp;
    Inc(cp);
    while cp^ > #32 do
      Inc(cp);
  end;

  FCurrPos := cp;
end;