map: multithreshold 1.46/printReport.m annotate

annotate multithreshold 1.46/printReport.m @ 22:45f28c49461e master

removing duplicate changes

author	Ray Meddis <rmeddis@essex.ac.uk>
date	Mon, 13 Jun 2011 18:21:05 +0100
parents	fafe69c43108
children	02aa9826efe0

rev	line source
rmeddis@0	1 function printReport(fileName, printTracks)
rmeddis@0	2
rmeddis@0	3 % End of run report (no args)
rmeddis@0	4 % or
rmeddis@0	5 % reprint previous report from file
rmeddis@0	6
rmeddis@0	7 global experiment stimulusParameters betweenRuns withinRuns statsModel audio
rmeddis@0	8 global LevittControl expGUIhandles
rmeddis@0	9
rmeddis@0	10
rmeddis@0	11 global inputStimulusParams OMEParams DRNLParams
rmeddis@0	12 global IHC_VResp_VivoParams IHCpreSynapseParams AN_IHCsynapseParams
rmeddis@0	13 global MacGregorParams MacGregorMultiParams filteredSACFParams
rmeddis@0	14 global experiment % used by calls from multiThreshold only
rmeddis@0	15 global IHC_cilia_RPParams
rmeddis@0	16
rmeddis@0	17
rmeddis@0	18 printReportGuide.structures=1;
rmeddis@0	19 printReportGuide.showPsychometric=0;
rmeddis@0	20 printReportGuide.HorizontalTracks=1;
rmeddis@0	21
rmeddis@0	22 if nargin==0
rmeddis@0	23 % print new report
rmeddis@0	24 printReportGuide.showTracks=experiment.printTracks;
rmeddis@0	25 printReportGuide.fileName=[];
rmeddis@0	26 if experiment.saveData
rmeddis@0	27 saveFileName=['savedData/' experiment.name '_' experiment.date '_' experiment.paradigm];
rmeddis@0	28 else
rmeddis@20	29 % save this data (just in case)
rmeddis@0	30 saveFileName=['savedData/mostRecentResults'];
rmeddis@0	31 end
rmeddis@0	32 experiment.minElapsed=etime(clock, betweenRuns.timeNow)/60;
rmeddis@20	33 save(saveFileName, 'experiment', 'stimulusParameters',...
rmeddis@20	34 'betweenRuns', 'withinRuns', 'statsModel', 'expGUIhandles')
rmeddis@0	35 disp(['data saved as: ' saveFileName]);
rmeddis@0	36
rmeddis@0	37 else
rmeddis@20	38 % reprint request (i.e print out old data)
rmeddis@0	39 printReportGuide.fileName=fileName;
rmeddis@0	40 load(printReportGuide.fileName)
rmeddis@0	41 saveFileName=printReportGuide.fileName;
rmeddis@0	42 if nargin>1
rmeddis@0	43 printReportGuide.showTracks=printTracks;
rmeddis@0	44 else
rmeddis@0	45 printReportGuide.showTracks=experiment.printTracks;
rmeddis@0	46 end
rmeddis@0	47 end
rmeddis@0	48
rmeddis@0	49 fprintf('******** multithreshold ')
rmeddis@20	50
rmeddis@0	51 x=pwd; disp(['version ' x(end-3:end)])
rmeddis@0	52 fprintf('\nName:\t%s ', experiment.name)
rmeddis@0	53 fprintf('\nparadigm:\t%s ', experiment.paradigm)
rmeddis@0	54 fprintf('\nEar:\t%s ', experiment.ear)
rmeddis@20	55
rmeddis@0	56 method=experiment.threshEstMethod;
rmeddis@0	57 if stimulusParameters.includeCue && ~strcmp(method(1:6),'2I2AFC')
rmeddis@0	58 method=[method '/ withCue'];
rmeddis@0	59 end
rmeddis@0	60 fprintf('\nmethod:\t%s ', method)
rmeddis@0	61 fprintf('\ndate:\t%s ', experiment.date)
rmeddis@0	62 fprintf('\n\n')
rmeddis@0	63
rmeddis@0	64 if isempty(betweenRuns.thresholds)
rmeddis@0	65 disp('no thresholds found')
rmeddis@0	66 end
rmeddis@0	67
rmeddis@0	68 % prepare results as matrices ready to print
rmeddis@20	69 % first sort the actual sequence into a more readable sequence
rmeddis@0	70 [idx1, idx2, var1values, var2values]=...
rmeddis@20	71 sortVariables(betweenRuns.variableList1, betweenRuns.variableList2,...
rmeddis@20	72 betweenRuns.var1Sequence, betweenRuns.var2Sequence);
rmeddis@0	73
rmeddis@0	74 header1=betweenRuns.variableName1;
rmeddis@0	75 header2=betweenRuns.variableName2;
rmeddis@0	76 header1 = strrep(header1, 'none', ' '); % none is not a useful header
rmeddis@0	77 header2 = strrep(header2, 'none', ' '); % none is not a useful header
rmeddis@0	78 headers=strvcat([header1 '/'], header2);
rmeddis@0	79
rmeddis@0	80 disp('thresholds')
rmeddis@20	81 msg=printTabTable(sortTablesForPrinting(idx1,idx2,...
rmeddis@20	82 var1values,var2values, betweenRuns.thresholds), headers);
rmeddis@0	83 addToMsg(msg,0)
rmeddis@0	84 fprintf('\n')
rmeddis@0	85
rmeddis@0	86 % sort tracks into the same order
rmeddis@0	87 betweenRuns.levelTracks=betweenRuns.levelTracks(idx1);
rmeddis@0	88 betweenRuns.responseTracks=betweenRuns.responseTracks(idx1);
rmeddis@0	89 betweenRuns.bestThresholdTracks=betweenRuns.bestThresholdTracks(idx1);
rmeddis@0	90 betweenRuns.levelTracks=betweenRuns.levelTracks(idx2);
rmeddis@0	91 betweenRuns.responseTracks=betweenRuns.responseTracks(idx2);
rmeddis@0	92 betweenRuns.bestThresholdTracks=betweenRuns.bestThresholdTracks(idx2);
rmeddis@0	93
rmeddis@0	94 if printReportGuide.structures
rmeddis@0	95 maxNoArrayValues=30;
rmeddis@0	96 showStructureSummary(stimulusParameters, 'stimulusParameters', maxNoArrayValues)
rmeddis@0	97 showStructureSummary(experiment, 'experiment',maxNoArrayValues)
rmeddis@0	98 showStructureSummary(betweenRuns, 'betweenRuns',maxNoArrayValues)
rmeddis@0	99 showStructureSummary(withinRuns, 'withinRuns')
rmeddis@0	100
rmeddis@0	101 switch experiment.threshEstMethod
rmeddis@0	102 case {'2I2AFC++', '2I2AFC+++'}
rmeddis@0	103 showStructureSummary(LevittControl, 'LevittControl', maxNoArrayValues)
rmeddis@0	104 end
rmeddis@0	105
rmeddis@0	106 switch experiment.ear
rmeddis@0	107 case {'statsModelLogistic','statsModelRareEvent'}
rmeddis@0	108 showStructureSummary(statsModel, 'statsModel', maxNoArrayValues)
rmeddis@0	109 end
rmeddis@0	110 end
rmeddis@0	111
rmeddis@0	112 if printReportGuide.showTracks
rmeddis@0	113 % NB this procedure can only be used if all the tracks are present and
rmeddis@0	114 % of equal length
rmeddis@0	115 bigTable=[]; header=[];
rmeddis@0	116 disp(' '); disp('Leveltracks starting from 1 response before the first reversal')
rmeddis@0	117 for i=1:length(betweenRuns.levelTracks)
rmeddis@0	118 if printReportGuide.HorizontalTracks
rmeddis@0	119 printTabTable(betweenRuns.levelTracks{i});
rmeddis@0	120 end
rmeddis@0	121 header=strvcat(header, 'level');
rmeddis@0	122 end
rmeddis@0	123
rmeddis@0	124 disp(' '); disp('Response tracks starting from 1 response before the first reversal')
rmeddis@0	125 for i=1:length(betweenRuns.responseTracks)
rmeddis@0	126 if printReportGuide.HorizontalTracks
rmeddis@0	127 printTabTable(betweenRuns.responseTracks{i});
rmeddis@0	128 end
rmeddis@0	129 header=strvcat(header, 'resp');
rmeddis@0	130 end
rmeddis@0	131
rmeddis@0	132 disp(' '); disp('threshold tracks starting from the first reversal')
rmeddis@0	133 for i=1:length(betweenRuns.bestThresholdTracks)
rmeddis@0	134 if printReportGuide.HorizontalTracks
rmeddis@0	135 end
rmeddis@0	136 printTabTable(betweenRuns.bestThresholdTracks{i});
rmeddis@0	137 header=strvcat(header, 'mean');
rmeddis@0	138 end
rmeddis@0	139
rmeddis@0	140 end
rmeddis@0	141
rmeddis@0	142 switch experiment.ear
rmeddis@0	143 case {'MAPmodelMultiCh', 'MAPmodelSingleCh'}
rmeddis@0	144 % show all parameters but do not compute the model
rmeddis@0	145 nm=UTIL_paramsList(whos);
rmeddis@0	146 for i=1:length(nm)
rmeddis@0	147 try
rmeddis@0	148 eval(['UTIL_showStruct(' nm{i} ', ''' nm{i} ''')'])
rmeddis@0	149 catch
rmeddis@0	150 end
rmeddis@0	151 end
rmeddis@0	152 end
rmeddis@0	153
rmeddis@0	154 if experiment.saveData
rmeddis@0	155 fprintf('\n')
rmeddis@0	156 disp('To reprint this report with tracks use:')
rmeddis@0	157 disp([ 'printReport(''' saveFileName ''',1)'])
rmeddis@0	158 end
rmeddis@0	159
rmeddis@0	160 % print final summary (repeat of above)
rmeddis@0	161 fprintf('\n')
rmeddis@0	162 fprintf('\n')
rmeddis@0	163 disp('thresholds')
rmeddis@0	164 msg=printTabTable(sortTablesForPrinting(idx1,idx2,var1values,var2values, betweenRuns.thresholds), headers);
rmeddis@0	165 addToMsg(msg,0)
rmeddis@0	166 fprintf('\n')
rmeddis@0	167
rmeddis@0	168 if length(var1values)==1 && length(var2values)==1 && experiment.maxTrials>49
rmeddis@0	169 [psy, levelsBinVector, binFrequencies, nNo, nYes]= ...
rmeddis@0	170 psychometricFunction(withinRuns.levelsPhaseTwo,withinRuns.responsesPhaseTwo, experiment.psyBinWidth);
rmeddis@0	171 disp('Psychometric function')
rmeddis@0	172 fprintf(' level \tfreq\tprob\n')
rmeddis@0	173 fprintf('%6.0f\t%6.2f\t%6.0f\n', [levelsBinVector; binFrequencies; psy])
rmeddis@0	174 fprintf('\n')
rmeddis@0	175 fprintf('k \t %6.2f\n',logistic.bestK)
rmeddis@0	176 fprintf('g \t%7.5f\n',rareEvent.bestGain)
rmeddis@0	177 fprintf('\n')
rmeddis@0	178
rmeddis@0	179 end
rmeddis@9	180
rmeddis@9	181 fprintf('\nparadigm:\t%s\n ', experiment.paradigm)
rmeddis@0	182
rmeddis@0	183 % ------------------------------------------------------- sortTablesForPrinting
rmeddis@0	184 function table= sortTablesForPrinting(idx1,idx2, var1values,var2values, x)
rmeddis@0	185 % table converts a vector to a table
rmeddis@0	186 % after sorting according to idx1 and idx2
rmeddis@0	187 % the table is completed by adding row and column values
rmeddis@0	188 x=x(idx1);
rmeddis@0	189 x=x(idx2);
rmeddis@0	190 xMatrix=reshape(x,length(var1values),length(var2values));
rmeddis@0	191
rmeddis@0	192 table=[[-1000 var2values]; [var1values' xMatrix]];
rmeddis@0	193
rmeddis@0	194 % ------------------------------------------------------- showStructureSummary
rmeddis@0	195 function showStructureSummary(structure, name, maxNoArrayValues)
rmeddis@0	196 % showStructureSummary prints out the values of a single structure
rmeddis@0	197 % The header is the structure name and each row is a field
rmeddis@0	198 % e.g. showStructureSummary(params,'params')
rmeddis@0	199 % This not the same as 'UTIL_showstruct'
rmeddis@0	200
rmeddis@0	201
rmeddis@0	202 if nargin<3
rmeddis@0	203 maxNoArrayValues=20;
rmeddis@0	204 end
rmeddis@0	205
rmeddis@0	206 fprintf('\n%s:', name)
rmeddis@0	207
rmeddis@0	208 fields=fieldnames(eval('structure'));
rmeddis@0	209 % for each field in the structure
rmeddis@0	210 for i=1:length(fields)
rmeddis@0	211 y=eval([ 'structure.' fields{i}]);
rmeddis@0	212 if isstr(y),
rmeddis@0	213 % strings
rmeddis@0	214 fprintf('\n%s=\t''%s''', fields{i},y)
rmeddis@0	215 elseif isnumeric(y)
rmeddis@0	216 % arrays
rmeddis@0	217 if length(y)>1
rmeddis@0	218 % vectors
rmeddis@0	219 [r c]=size(y);
rmeddis@0	220 if r>c, y=y'; end
rmeddis@0	221
rmeddis@0	222 [r c]=size(y);
rmeddis@0	223 if r>1
rmeddis@0	224 % fprintf('\n%s.%s=\t%g x %g matrix',name, fields{i}, r, c)
rmeddis@0	225 fprintf('\n%s=\t%g x %g matrix',fields{i}, r, c)
rmeddis@0	226
rmeddis@0	227 elseif c<maxNoArrayValues
rmeddis@0	228 % fprintf('\n%s=\t[%s]', fields{i},num2str(y))
rmeddis@0	229 fprintf('\n%s=', fields{i})
rmeddis@0	230 fprintf('\t%g',y)
rmeddis@0	231
rmeddis@0	232 else
rmeddis@0	233 fprintf('\n%s=\t %g... [%g element array]', fields{i}, y(1),c)
rmeddis@0	234 end
rmeddis@0	235 else
rmeddis@0	236 % single valued arrays
rmeddis@0	237 % fprintf('\n%s.%s=\t%s;', name, fields{i},num2str(y))
rmeddis@0	238 fprintf('\n%s=\t%s', fields{i},num2str(y))
rmeddis@0	239 end
rmeddis@0	240 elseif iscell(y)
rmeddis@0	241 fprintf('\n%s=\t cell array', fields{i})
rmeddis@0	242
rmeddis@0	243 elseif isstruct(y)
rmeddis@0	244 fprintf('\n%s=\t structure', fields{i})
rmeddis@0	245 end,
rmeddis@0	246
rmeddis@0	247 end,
rmeddis@0	248 fprintf('\n')
rmeddis@0	249
rmeddis@0	250
rmeddis@0	251 % ------------------------------------------------------- printTabTable
rmeddis@0	252 function strings= printTabTable(M, headers)
rmeddis@0	253 % printTabTable prints a matrix as a table with tabs
rmeddis@0	254 %headers are optional
rmeddis@0	255 %headers=strvcat('firstname', 'secondname')
rmeddis@0	256 % printTabTable([1 2; 3 4],strvcat('a1','a2'));
rmeddis@0	257 stringCount=1; strings{stringCount}=[];
rmeddis@0	258
rmeddis@0	259 if nargin>1
rmeddis@0	260 [r c]=size(headers);
rmeddis@0	261 for no=1:r
rmeddis@0	262 % print all headers in a row
rmeddis@0	263 fprintf('%s\t',headers(no,:))
rmeddis@0	264 strings{stringCount}=sprintf('%s\t',headers(no,:)); stringCount=stringCount+1;
rmeddis@0	265 end
rmeddis@0	266 fprintf('\n')
rmeddis@0	267 end
rmeddis@0	268
rmeddis@0	269 [r c]=size(M);
rmeddis@0	270
rmeddis@0	271 for row=1:r
rmeddis@0	272 string=[];
rmeddis@0	273 for col=1:c
rmeddis@0	274 if row==1 & col==1 & M(1,1)==-1000
rmeddis@0	275 % Print nothing (tab follows below)
rmeddis@0	276 else
rmeddis@0	277 fprintf('%s',num2str(M(row,col)))
rmeddis@0	278 string=[string ' ' sprintf('%s',num2str(M(row,col)))];
rmeddis@0	279 end
rmeddis@0	280 if col<c
rmeddis@0	281 fprintf('\t')
rmeddis@0	282 % strings{stringCount}=sprintf('\t'); stringCount=stringCount+1;
rmeddis@0	283 end
rmeddis@0	284 end % col
rmeddis@0	285 strings{stringCount}=string; stringCount=stringCount+1;
rmeddis@0	286 fprintf('\n')
rmeddis@0	287 end % row
rmeddis@0	288
rmeddis@0	289 % ------------------------------------------------------- sortVariables
rmeddis@0	290 function [idx1, idx2, var1values, var2values]= ...
rmeddis@0	291 sortVariables(var1values, var2values, var1Sequence, var2Sequence)
rmeddis@0	292
rmeddis@0	293 [x idx1]= sort(var1Sequence);
rmeddis@0	294 var1Sequence= x;
rmeddis@0	295 var2Sequence= var2Sequence(idx1);
rmeddis@0	296 depVarName= 'th';
rmeddis@0	297
rmeddis@0	298 [x idx2]=sort(var2Sequence);
rmeddis@0	299 var2Sequence=x;
rmeddis@0	300 var1Sequence=var1Sequence(idx2);
rmeddis@0	301
rmeddis@0	302 var1values=sort(var1values);
rmeddis@0	303 var2values=sort(var2values);

Mercurial > hg > map

annotate multithreshold 1.46/printReport.m @ 22:45f28c49461e master