function [] = OPLogConvert(varargin) %% Define indices and arrays of structures to hold data % THIS FILE IS AUTOMATICALLY GENERATED. outputType='mat'; %Default output is a .mat file checkCRC = false; wrongSyncByte=0; wrongMessageByte=0; lastWrongSyncByte=0; lastWrongMessageByte=0; str1=[]; str2=[]; str3=[]; str4=[]; str5=[]; fprintf('\n\n***OpenPilot log parser***\n\n'); global crc_table; crc_table = [ ... hex2dec('00'),hex2dec('07'),hex2dec('0e'),hex2dec('09'),hex2dec('1c'),hex2dec('1b'),hex2dec('12'),hex2dec('15'),hex2dec('38'),hex2dec('3f'),hex2dec('36'),hex2dec('31'),hex2dec('24'),hex2dec('23'),hex2dec('2a'),hex2dec('2d'), ... hex2dec('70'),hex2dec('77'),hex2dec('7e'),hex2dec('79'),hex2dec('6c'),hex2dec('6b'),hex2dec('62'),hex2dec('65'),hex2dec('48'),hex2dec('4f'),hex2dec('46'),hex2dec('41'),hex2dec('54'),hex2dec('53'),hex2dec('5a'),hex2dec('5d'), ... hex2dec('e0'),hex2dec('e7'),hex2dec('ee'),hex2dec('e9'),hex2dec('fc'),hex2dec('fb'),hex2dec('f2'),hex2dec('f5'),hex2dec('d8'),hex2dec('df'),hex2dec('d6'),hex2dec('d1'),hex2dec('c4'),hex2dec('c3'),hex2dec('ca'),hex2dec('cd'), ... hex2dec('90'),hex2dec('97'),hex2dec('9e'),hex2dec('99'),hex2dec('8c'),hex2dec('8b'),hex2dec('82'),hex2dec('85'),hex2dec('a8'),hex2dec('af'),hex2dec('a6'),hex2dec('a1'),hex2dec('b4'),hex2dec('b3'),hex2dec('ba'),hex2dec('bd'), ... hex2dec('c7'),hex2dec('c0'),hex2dec('c9'),hex2dec('ce'),hex2dec('db'),hex2dec('dc'),hex2dec('d5'),hex2dec('d2'),hex2dec('ff'),hex2dec('f8'),hex2dec('f1'),hex2dec('f6'),hex2dec('e3'),hex2dec('e4'),hex2dec('ed'),hex2dec('ea'), ... hex2dec('b7'),hex2dec('b0'),hex2dec('b9'),hex2dec('be'),hex2dec('ab'),hex2dec('ac'),hex2dec('a5'),hex2dec('a2'),hex2dec('8f'),hex2dec('88'),hex2dec('81'),hex2dec('86'),hex2dec('93'),hex2dec('94'),hex2dec('9d'),hex2dec('9a'), ... hex2dec('27'),hex2dec('20'),hex2dec('29'),hex2dec('2e'),hex2dec('3b'),hex2dec('3c'),hex2dec('35'),hex2dec('32'),hex2dec('1f'),hex2dec('18'),hex2dec('11'),hex2dec('16'),hex2dec('03'),hex2dec('04'),hex2dec('0d'),hex2dec('0a'), ... hex2dec('57'),hex2dec('50'),hex2dec('59'),hex2dec('5e'),hex2dec('4b'),hex2dec('4c'),hex2dec('45'),hex2dec('42'),hex2dec('6f'),hex2dec('68'),hex2dec('61'),hex2dec('66'),hex2dec('73'),hex2dec('74'),hex2dec('7d'),hex2dec('7a'), ... hex2dec('89'),hex2dec('8e'),hex2dec('87'),hex2dec('80'),hex2dec('95'),hex2dec('92'),hex2dec('9b'),hex2dec('9c'),hex2dec('b1'),hex2dec('b6'),hex2dec('bf'),hex2dec('b8'),hex2dec('ad'),hex2dec('aa'),hex2dec('a3'),hex2dec('a4'), ... hex2dec('f9'),hex2dec('fe'),hex2dec('f7'),hex2dec('f0'),hex2dec('e5'),hex2dec('e2'),hex2dec('eb'),hex2dec('ec'),hex2dec('c1'),hex2dec('c6'),hex2dec('cf'),hex2dec('c8'),hex2dec('dd'),hex2dec('da'),hex2dec('d3'),hex2dec('d4'), ... hex2dec('69'),hex2dec('6e'),hex2dec('67'),hex2dec('60'),hex2dec('75'),hex2dec('72'),hex2dec('7b'),hex2dec('7c'),hex2dec('51'),hex2dec('56'),hex2dec('5f'),hex2dec('58'),hex2dec('4d'),hex2dec('4a'),hex2dec('43'),hex2dec('44'), ... hex2dec('19'),hex2dec('1e'),hex2dec('17'),hex2dec('10'),hex2dec('05'),hex2dec('02'),hex2dec('0b'),hex2dec('0c'),hex2dec('21'),hex2dec('26'),hex2dec('2f'),hex2dec('28'),hex2dec('3d'),hex2dec('3a'),hex2dec('33'),hex2dec('34'), ... hex2dec('4e'),hex2dec('49'),hex2dec('40'),hex2dec('47'),hex2dec('52'),hex2dec('55'),hex2dec('5c'),hex2dec('5b'),hex2dec('76'),hex2dec('71'),hex2dec('78'),hex2dec('7f'),hex2dec('6a'),hex2dec('6d'),hex2dec('64'),hex2dec('63'), ... hex2dec('3e'),hex2dec('39'),hex2dec('30'),hex2dec('37'),hex2dec('22'),hex2dec('25'),hex2dec('2c'),hex2dec('2b'),hex2dec('06'),hex2dec('01'),hex2dec('08'),hex2dec('0f'),hex2dec('1a'),hex2dec('1d'),hex2dec('14'),hex2dec('13'), ... hex2dec('ae'),hex2dec('a9'),hex2dec('a0'),hex2dec('a7'),hex2dec('b2'),hex2dec('b5'),hex2dec('bc'),hex2dec('bb'),hex2dec('96'),hex2dec('91'),hex2dec('98'),hex2dec('9f'),hex2dec('8a'),hex2dec('8d'),hex2dec('84'),hex2dec('83'), ... hex2dec('de'),hex2dec('d9'),hex2dec('d0'),hex2dec('d7'),hex2dec('c2'),hex2dec('c5'),hex2dec('cc'),hex2dec('cb'),hex2dec('e6'),hex2dec('e1'),hex2dec('e8'),hex2dec('ef'),hex2dec('fa'),hex2dec('fd'),hex2dec('f4'),hex2dec('f3') ... ]; if nargin==0 %% if (exist('uigetfile')) %#ok [FileName, PathName]=uigetfile('*.opl'); logfile=fullfile(PathName, FileName); else error('Your technical computing program does not support file choosers. Please input the file name in the argument. ') end elseif nargin>0 logfile=varargin{1}; if nargin>1 outputType=varargin{2}; end end if ~strcmpi(outputType,'mat') && ~strcmpi(outputType,'csv') error('Incorrect file format specified. Second argument must be ''mat'' or ''csv''.'); end $(INSTANTIATIONCODE) fid = fopen(logfile); buffer=fread(fid,Inf,'uchar=>uchar'); fseek(fid, 0, 'bof'); bufferIdx=1; correctMsgByte=hex2dec('20'); correctTimestampedByte=hex2dec('A0'); correctSyncByte=hex2dec('3C'); unknownObjIDList=zeros(1,2); % Parse log file, entry by entry % prebuf = buffer(1:12); last_print = -1e10; startTime=clock; while (1) if (feof(fid)); break; end try %% Read message header % get sync field (0x3C, 1 byte) sync = fread(fid, 1, 'uint8'); if sync ~= correctSyncByte prebuf = [prebuf(2:end); sync]; wrongSyncByte = wrongSyncByte + 1; continue end % get msg type (quint8 1 byte ) should be 0x20, ignore the rest? msgType = fread(fid, 1, 'uint8'); if msgType ~= correctMsgByte && msgType ~= hex2dec('A0') wrongMessageByte = wrongMessageByte + 1; continue end % get msg size (quint16 2 bytes) excludes crc, include msg header and data payload msgSize = fread(fid, 1, 'uint16'); % get obj id (quint32 4 bytes) objID = fread(fid, 1, 'uint32'); if msgType == correctMsgByte %% Process header if we are aligned timestamp = typecast(uint8(prebuf(1:4)), 'uint32'); datasize = typecast(uint8(prebuf(5:12)), 'uint64'); elseif msgType == correctTimestampedByte timestamp = fread(fid,1,'uint16'); end if (isempty(objID)) %End of file break; end %% Read object switch objID $(SWITCHCODE) otherwise unknownObjIDListIdx=find(unknownObjIDList(:,1)==objID, 1, 'first'); if isempty(unknownObjIDListIdx) unknownObjIDList=[unknownObjIDList; uint32(objID) 1]; %#ok else unknownObjIDList(unknownObjIDListIdx,2)=unknownObjIDList(unknownObjIDListIdx,2)+1; end datasize = typecast(buffer(datasizeBufferIdx + 4:datasizeBufferIdx + 12-1), 'uint64'); msgBytesLeft = datasize - 1 - 1 - 2 - 4; if msgBytesLeft > 255 msgBytesLeft = 0; end bufferIdx=bufferIdx+double(msgBytesLeft); end catch % One of the reads failed - indicates EOF break; end if (wrongSyncByte ~= lastWrongSyncByte || wrongMessageByte~=lastWrongMessageByte ) ||... bufferIdx - last_print > 5e4 %Every 50,000 bytes show the status update lastWrongSyncByte=wrongSyncByte; lastWrongMessageByte=wrongMessageByte; str1=[]; for i=1:length([str2 str3 str4 str5]); str1=[str1 sprintf('\b')]; %#ok end str2=sprintf('wrongSyncByte instances: % 10d\n', wrongSyncByte ); str3=sprintf('wrongMessageByte instances: % 10d\n\n', wrongMessageByte ); str4=sprintf('Completed bytes: % 9d of % 9d\n', bufferIdx, length(buffer)); % Arbitrary times two so that it is at least as long estTimeRemaining=(length(buffer)-bufferIdx)/(bufferIdx/etime(clock,startTime)) * 2; h=floor(estTimeRemaining/3600); m=floor((estTimeRemaining-h*3600)/60); s=ceil(estTimeRemaining-h*3600-m*60); str5=sprintf('Est. time remaining, %02dh:%02dm:%02ds \n', h,m,s); last_print = bufferIdx; fprintf([str1 str2 str3 str4 str5]); end %Check if at end of file. If not, load next prebuffer if bufferIdx+12-1 > length(buffer) break; end % bufferIdx=bufferIdx+12; end for i=2:size(unknownObjIDList,1) %Don't show the first one, as it was simply a dummy placeholder disp(['Unknown object ID: 0x' dec2hex(unknownObjIDList(i,1),8) ' appeared ' int2str(unknownObjIDList(i,2)) ' times.']); end %% Clean Up and Save mat file fclose(fid); %% Prune vectors $(CLEANUPCODE) %% Perform typecasting on vectors $(ALLOCATIONCODE) %% Save data to file if strcmpi(outputType,'mat') [path, name]=fileparts(logfile); matfile = fullfile(path,[name '.mat']); save(matfile $(SAVEOBJECTSCODE)); else $(EXPORTCSVCODE) end fprintf('%d records in %0.2f seconds.\n', length(buffer), etime(clock,startTime)); function OPLog2csv(structIn, structName, logfile) %Get each field name from the structure fieldNames = fieldnames(structIn); %Create a text string with the field names headerOut=sprintf('%s,',fieldNames{:}); headerOut=headerOut(1:end-1); %Trim off last `,` and `\t` %Assign the structure arrays to a matrix. matOut=zeros(max(size(structIn.(fieldNames{1}))), length(fieldNames)); if isempty(structIn.(fieldNames{1})); matOut=[]; else for i=1:length(fieldNames) matOut(:,i)=structIn.(fieldNames{i}); end end % Create filename by replacing opl by csv [path, name] = fileparts(logfile); csvDirName=[name '_csv']; [dummyA, dummyB]=mkdir(fullfile(path, csvDirName)); %Dummy outputs so the program doens't throw warnings about "Directory already exists" csvfile=fullfile(path, csvDirName , [name '.csv']); %Write to csv. dlmwrite(csvfile, headerOut, ''); dlmwrite(csvfile, matOut, '-append'); function crc = compute_crc(data) global crc_table; crc = 0; for i = 1:length(data) crc = crc_table(1+bitxor(data(i),crc)); end function out=mcolon(inStart, inFinish) %% This function was inspired by Bruno Luong's 'mcolon'. The name is kept the same as his 'mcolon' % function, found on Matlab's file exchange. The two functions return identical % results, although his is much faster. Unfortunately, C-compiled mex % code would make this function non-cross-platform, so a Matlab scripted % version is provided here. if size(inStart,1) > 1 || size(inFinish,1) > 1 if size(inStart,2) > 1 || size(inFinish,2) > 1 error('Inputs must be vectors, i.e just one column wide.') else inStart=inStart'; inFinish=inFinish'; end end diffIn=diff([inStart; inFinish]); numElements=sum(diffIn)+length(inStart); out=zeros(1,numElements); idx=1; for i=1:length(inStart) out(idx:idx+diffIn(i))=inStart(i):inFinish(i); idx=idx+diffIn(i)+1; end