unit BasicStats; (*------------------------------------------------------------------------------ Delphi Code formatter source code The Original Code is BasicStats, released May 2003. The Initial Developer of the Original Code is Anthony Steele. Portions created by Anthony Steele are Copyright (C) 1999-2008 Anthony Steele. All Rights Reserved. Contributor(s): Anthony Steele. The contents of this file are subject to the Mozilla Public License Version 1.1 (the "License"). you may not use this file except in compliance with the License. You may obtain a copy of the License at http://www.mozilla.org/NPL/ Software distributed under the License is distributed on an "AS IS" basis, WITHOUT WARRANTY OF ANY KIND, either express or implied. See the License for the specific language governing rights and limitations under the License. Alternatively, the contents of this file may be used under the terms of the GNU General Public License Version 2 or later (the "GPL") See http://www.gnu.org/licenses/gpl.html ------------------------------------------------------------------------------*) {*)} {$I JcfGlobal.inc} interface { AFS 25 March 03 Basic stats on the unit Proof of concept to do crude code analysis on the unit Since it doesn't alter anything and wants to read the entire unit it is not a switchable visitor } {(*} uses BaseVisitor; type TBasicStats = class(TBaseTreeNodeVisitor) private fiTotalTokens, fiTotalChars: integer; // tokens can be divided into 3 categories - comments, spaces&rets, code fiSpaceTokens, fiCommentTokens, fiSolidTokens: integer; fiSpaceChars, fiCommentChars, fiSolidChars: integer; fiLines: integer; fiConsts, fiTypes, fiClasses, fiInterfaces, fiAllProcs: integer; liInterfaceGlobalVars, liGlobalVars: integer; fiInterfaceProcs: integer; protected public constructor Create; override; procedure PreVisitParseTreeNode(const pcNode: TObject); override; function VisitSourceToken(const pcNode: TObject): Boolean; override; function FinalSummary(out psMessage: string): boolean; override; function IsIncludedInSettings: boolean; override; end; implementation uses { delphi } SysUtils, { JCF } JcfStringUtils, SourceToken, Tokens, ParseTreeNode, ParseTreeNodeType, TokenUtils, JcfRegistrySettings; function DisplayFloat(const ex: extended): string; begin // use the localised version for display Result := FloatToStrF(ex, ffNumber, 9, 2); end; function DisplayRatio(const exNum, exDenom: extended): string; begin if exDenom = 0 then Result := '-' else Result := DisplayFloat(exNum / exDenom); end; function DisplayPercent(const exNum, exDenom: extended): string; begin if exDenom = 0 then Result := '-' else Result := DisplayFloat(exNum * 100 / exDenom) + '%'; end; constructor TBasicStats.Create; begin inherited; HasPreVisit := True; HasPostVisit := False; HasSourceTokenVisit := True; end; procedure TBasicStats.PreVisitParseTreeNode(const pcNode: TObject); var lcNode: TParseTreeNode; begin lcNode := TParseTreeNode(pcNode); case lcNode.NodeType of nTypeDecl: Inc(fiTypes); nConstDecl: Inc(fiConsts); nClassType: Inc(fiClasses); nInterfaceType: Inc(fiInterfaces); else; // no nothing end; { procedure/fn/constructor/destructor } if (lcNode.NodeType in ProcedureNodes) and lcNode.HasChildNode(nBlock) then { if it has a block of code under it, it counts as a proc } Inc(fiAllProcs); { can only export a global procedure or function - not a constructor or destructor don't count procs in a class or itnerface def } if (lcNode.NodeType in [nFunctionHeading, nProcedureHeading]) and lcNode.HasParentNode(nInterfaceSection) and ( not lcNode.HasParentNode([nClassType, nInterfaceType, nProcedureType])) then Inc(fiInterfaceProcs); // find global vars if (lcNode.NodeType = nVarDecl) and ( not lcNode.HasParentNode(nClassType)) and ( not lcNode.HasParentNode(nblock)) then begin if lcNode.HasParentNode(nInterfaceSection) then liInterfaceGlobalVars := liInterfaceGlobalVars + VarIdentCount(lcNode) else liGlobalVars := liGlobalVars + VarIdentCount(lcNode); end; end; function TBasicStats.VisitSourceToken(const pcNode: TObject): Boolean; var lcSourceToken: TSourceToken; liLen: integer; begin Result := False; lcSourceToken := TSourceToken(pcNode); // a file with no returns has one line if (fiLines = 0) then fiLines := 1; Inc(fiTotalTokens); liLen := Length(lcSourceToken.SourceCode); fiTotalChars := fiTotalChars + liLen; case lcSourceToken.TokenType of ttComment: begin Inc(fiCommentTokens); fiCommentChars := fiCommentChars + liLen; fiLines := fiLines + StrStrCount(lcSourceToken.SourceCode, NativeLineBreak); end; ttReturn: begin Inc(fiLines); Inc(fiSpaceTokens); fiSpaceChars := fiSpaceChars + liLen; end; ttWhiteSpace: begin Inc(fiSpaceTokens); fiSpaceChars := fiSpaceChars + liLen; end; else begin Inc(fiSolidTokens); fiSolidChars := fiSolidChars + liLen; end; end; end; function TBasicStats.FinalSummary(out psMessage: string): boolean; begin Result := True; psMessage := NativeLineBreak + 'Basic numbers and averages: ' + NativeLineBreak + 'Unit is ' + IntToStr(fiLines) + ' lines long' + NativeLineBreak + 'Unit has ' + IntToStr(fiTotalTokens) + ' tokens in ' + IntToStr(fiTotalChars) + ' characters: ' + NativeLineBreak + DisplayRatio(fiTotalChars, fiTotalTokens) + ' chars per token' + NativeLineBreak + DisplayRatio(fiTotalChars, fiLines) + ' chars per line ' + NativeLineBreak + DisplayRatio(fiTotalTokens, fiLines) + ' tokens per line ' + NativeLineBreak + NativeLineBreak; psMessage := psMessage + IntToStr(fiCommentTokens) + ' comments in ' + IntToStr(fiCommentChars) + ' characters ' + NativeLineBreak + DisplayRatio(fiCommentChars, fiCommentTokens) + ' chars per comment' + NativeLineBreak + DisplayPercent(fiCommentChars, fiTotalChars) + ' of chars are comments ' + NativeLineBreak + NativeLineBreak; psMessage := psMessage + IntToStr(fiSpaceTokens) + ' spacing and return tokens in ' + IntToStr(fiSpaceChars) + ' characters ' + NativeLineBreak + DisplayRatio(fiSpaceChars, fiSpaceTokens) + ' chars per token' + NativeLineBreak + DisplayPercent(fiSpaceChars, fiTotalChars) + ' of chars are spacing ' + NativeLineBreak + NativeLineBreak; psMessage := psMessage + IntToStr(fiSolidTokens) + ' solid tokens in ' + IntToStr(fiSolidChars) + ' characters ' + NativeLineBreak + DisplayRatio(fiSolidChars, fiSolidTokens) + ' chars per token' + NativeLineBreak + DisplayPercent(fiSolidChars, fiTotalChars) + ' of chars are solid' + NativeLineBreak + DisplayPercent(fiSolidTokens, fiTotalTokens) + ' of tokens are solid' + NativeLineBreak + NativeLineBreak; psMessage := psMessage + IntToStr(fiConsts) + ' constants ' + NativeLineBreak + IntToStr(fiTypes) + ' types ' + NativeLineBreak + IntToStr(fiClasses) + ' classes ' + NativeLineBreak + IntToStr(fiInterfaces) + ' interfaces ' + NativeLineBreak + IntToStr(fiAllProcs) + ' procedures ' + NativeLineBreak + NativeLineBreak; psMessage := psMessage + IntToStr(liInterfaceGlobalVars) + ' global vars in interface ' + NativeLineBreak + IntToStr(liGlobalVars) + ' global vars in rest of unit ' + NativeLineBreak + IntToStr(fiInterfaceProcs) + ' procedures in interface ' + NativeLineBreak + NativeLineBreak; end; function TBasicStats.IsIncludedInSettings: boolean; begin Result := GetRegSettings.LogStats; end; end.