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maskedAISize2.m
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maskedAISize2.m
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function maskedAISize2(ana)
%----------compatibility for windows
%if ispc; PsychJavaTrouble(); end
KbName('UnifyKeyNames');
%===================Initiate out metadata===================
ana.date = datestr(datetime);
ana.version = Screen('Version');
ana.computer = Screen('Computer');
discSize = ana.discSize;
%===================experiment parameters===================
if ana.debug
ana.screenID = 0;
else
ana.screenID = max(Screen('Screens'));%-1;
end
%===================Make a name for this run===================
cd(ana.ResultDir)
if ~isempty(ana.subject)
if ana.useStaircase; type = 'AISTAIR'; else; type = 'AIMOC'; end %#ok<*UNRCH>
nameExp = [type '_' ana.subject];
c = sprintf(' %i',fix(clock()));
nameExp = [nameExp c];
ana.nameExp = regexprep(nameExp,' ','_');
else
ana.nameExp = 'debug';
end
cla(ana.plotAxis1);
cla(ana.plotAxis2);
cla(ana.plotAxis3);
useEyeLink = ana.useEyelink;
nBlocks = ana.nBlocks;
nBlocksOverall = nBlocks * length(ana.pedestalRange);
% pedestalRange = 0.8:0.02:1.2;
pedestalBlackLinear = ana.pedestalRange;
pedestalWhiteLinear = ana.pedestalRange;
pedestalBlack = ana.pedestalRange;
pedestalWhite = ana.pedestalRange; % by Xu20180515
%-------------------response values, linked to left, up, down
SAME = 3; UNSURE = 4; BREAKFIX = -1; BIG = 1; SMALL = 0;
%-----------------------Positionqs to move stimuli
% XPos1 = [1.8 1.8 -1.8 -1.8];
% YPos1 = [1.4 -1.4 1.4 -1.4];
% XPos2 = [-1.8 -1.8 1.8 1.8];
% YPos2 = [1.4 -1.4 1.4 -1.4];
XPos1 = [3.2 1.6 -1.6 -3.2 -1.6 1.6 ];
YPos1 = [0 2.771 2.771 0 -2.771 -2.771 ];
XPos2 = [1.6 -1.6 -3.2 -1.6 1.6 3.2];
YPos2 = [2.771 2.771 0 -2.771 -2.771 0];
saveMetaData();
%======================================================stimulus objects
%---------------------main disc (stimulus and pedestal).
st1 = discStimulus(); % white stimulus
st1.name = ['STIM_' ana.nameExp];
st1.xPosition = XPos1(1);
st1.colour = [1 1 1 1];
st1.size = ana.discSize;
st1.sigma = ana.sigma;
st2 = discStimulus(); % black stimulus
st2.name = ['STIM_' ana.nameExp];
st2.xPosition = XPos2(1);
st2.colour = [0 0 0 1];
st2.size = ana.discSize;
st2.sigma = ana.sigma;
%-----mask stimulus
m = dotsStimulus();
m.mask = true;
m.density = 1000;
m.coherence = 0;
m.size = 15;
m.speed=0.5;
m.name = ['MASK_' ana.nameExp];
m.xPosition = 0;
m.size = 15;
%----------combine them into a single meta stimulus------------------
%% --combine them into a single meta stimulus------------------
m1 =m; m1.xPosition = 0;
m2 =m; m2.xPosition = 0;
stimuli = metaStimulus();
stimuli.name = ana.nameExp;
stimuli.maskStimuli{1} = m1;
stimuli.maskStimuli{2} = m2;
stimuli{1} = st1;
stimuli{2} = st2;
stimuli.showMask = false;
%======================================================stimulus objects
%-----------------------open the PTB screens------------------------
PsychDefaultSetup(2);
Screen('Preference', 'SkipSyncTests', 0);
%===================open our screen====================
sM = screenManager();
sM.screen = ana.screenID;
sM.windowed = ana.windowed;
sM.pixelsPerCm = ana.pixelsPerCm;
sM.distance = ana.distance;
sM.debug = ana.debug;
sM.blend = true;
sM.bitDepth = 'FloatingPoint32Bit';
if exist(ana.gammaTable, 'file')
load(ana.gammaTable);
if isa(c,'calibrateLuminance')
sM.gammaTable = c;
end
clear c;
if ana.debug
sM.gammaTable.plot
end
end
sM.backgroundColour = ana.backgroundColor;
screenVals = sM.open; % OPEN THE SCREEN
fprintf('\n--->>> AIContrast Opened Screen %i : %s\n', sM.win, sM.fullName);
setup(stimuli,sM); %setup our stimulus object
%==============================setup eyelink==========================
if useEyeLink == true
ana.strictFixation = true;
eL = eyelinkManager('IP',[]);
fprintf('--->>> eL setup starting: %s\n', eL.fullName);
eL.isDummy = ana.isDummy; %use dummy or real eyelink?
eL.name = ana.nameExp;
eL.saveFile = [ana.nameExp '.edf'];
eL.recordData = true; %save EDF file
eL.sampleRate = ana.sampleRate;
eL.remoteCalibration = false; % manual calibration?
eL.calibrationStyle = ana.calibrationStyle; % calibration style
eL.modify.calibrationtargetcolour = [1 1 1];
eL.modify.calibrationtargetsize = 1;
eL.modify.calibrationtargetwidth = 0.05;
eL.modify.waitformodereadytime = 500;
eL.modify.devicenumber = -1; % -1 = use any keyboard
% X, Y, FixInitTime, FixTime, Radius, StrictFix
updateFixationValues(eL, ana.fixX, ana.fixY, ana.firstFixInit,...
ana.firstFixTime, ana.firstFixDiameter, ana.strictFixation);
%sM.verbose = true; eL.verbose = true; sM.verbosityLevel = 10; eL.verbosityLevel = 4; %force lots of log output
initialise(eL, sM); %use sM to pass screen values to eyelink
setup(eL); % do setup and calibration
fprintf('--->>> eL setup complete: %s\n', eL.fullName);
WaitSecs('YieldSecs',0.5);
getSample(eL); %make sure everything is in memory etc.
end
%---------------------------Set up task variables----------------------
task = stimulusSequence();
task.name = ana.nameExp;
task.nBlocks = nBlocksOverall;
task.nVar(1).name = 'colour';
task.nVar(1).stimulus = 1;
task.nVar(1).values = [0 1];
randomiseStimuli(task);
initialiseTask(task);
if ana.useStaircase == false
staircaseB = []; staircaseW = [];
taskW = stimulusSequence();
taskW.name = ana.nameExp;
taskW.nBlocks = nBlocks;
taskW.nVar(1).name = 'pedestalWhite';
taskW.nVar(1).stimulus = 1;
taskW.nVar(1).values = pedestalWhite;
randomiseStimuli(taskW);
initialiseTask(taskW);
taskB = stimulusSequence();
taskB.name = ana.nameExp;
taskB.nBlocks = nBlocks;
taskB.nVar(1).name = 'pedestalBlack';
taskB.nVar(1).stimulus = 1;
taskB.nVar(1).values = pedestalBlack;
randomiseStimuli(taskB);
initialiseTask(taskB);
else
taskB.thisRun = 0; taskW.thisRun = 0;
stopRule = 40;
usePriors = ana.usePriors;
grain = 100;
setupStairCase();
end
%=====================================================================
try %our main experimental try catch loop
%=====================================================================
posloop = 1
breakloop = false;
fixated = 'no';
response = NaN;
responseRedo = 0; %number of trials the subject was unsure and redid (left arrow)
while ~breakloop && taskB.thisRun <= taskB.nRuns
%-----setup our values and print some info for the trial
hide(stimuli);
response = NaN;
stimuli.showMask = false;
stimuli{1}.colourOut = 1; stimuli{2}.colourOut = 0;
colourOut = task.outValues{task.thisRun,1};
colourOut = 0; % ��Զ��0
if ana.useStaircase == true
if colourOut == 0
pedestal = staircaseB.xCurrent*discSize;
stimuli{1}.sizeOut = pedestal;
stimuli{2}.sizeOut = discSize;
else
pedestal = staircaseW.xCurrent*discSize;
stimuli{1}.sizeOut = discSize;
stimuli{2}.sizeOut = pedestal;
end
else
if colourOut == 0
pedestal = taskB.outValues{taskB.thisRun,1}; %*discSize;
stimuli{1}.sizeOut = pedestal; % ��ɫ�̼��仯
stimuli{2}.sizeOut = discSize; % ��ɫ�̼���3degree
else
pedestal = taskW.outValues{taskW.thisRun,1}; %*discSize;% Xu 20150515
stimuli{1}.sizeOut = discSize;
stimuli{2}.sizeOut = pedestal;
end
end
posloop = posloop + 1;
if posloop>6;posloop=1;end
stimuli{1}.xPositionOut = XPos1(posloop);
stimuli{1}.yPositionOut = YPos1(posloop);
stimuli{2}.xPositionOut = XPos2(posloop);
stimuli{2}.yPositionOut = YPos2(posloop);
ts(1).x = XPos1(posloop);
ts(1).y = YPos1(posloop);
ts(1).size = stimuli{1}.sizeOut/sM.ppd;
ts(1).selected = true;
ts(2).x = XPos2(posloop);
ts(2).y = YPos2(posloop);
ts(2).size = stimuli{2}.sizeOut/sM.ppd;
ts(2).selected = true;
%save([tempdir filesep nameExp '.mat'],'task','taskB','taskW');
fprintf('\n===>>>START %i: PEDESTAL = %.3g | Colour = %.3g | ',task.thisRun,pedestal,colourOut);
stimuli.update();
stimuli.maskStimuli{1}.update();
%-----initialise eyelink and draw fix spot
if useEyeLink
resetFixation(eL);
trackerClearScreen(eL);
trackerDrawStimuli(eL,ts);
trackerDrawFixation(eL); %draw fixation window on eyelink computer
edfMessage(eL,'V_RT MESSAGE END_FIX END_RT'); ... %this 3 lines set the trial info for the eyelink
edfMessage(eL,['TRIALID ' num2str(task.thisRun)]); ... %obj.getTaskIndex gives us which trial we're at
edfMessage(eL,['MSG:PEDESTAL ' num2str(pedestal)]); ... %add in the pedestal of the current state for good measure
edfMessage(eL,['MSG:CONTRAST ' num2str(colourOut)]); ... %add in the pedestal of the current state for good measure
startRecording(eL);
statusMessage(eL,'INITIATE FIXATION...');
fixated = '';
syncTime(eL);
while ~strcmpi(fixated,'fix') && ~strcmpi(fixated,'breakfix')
drawCross(sM,0.4,[1 1 1 1],ana.fixX,ana.fixY);
Screen('DrawingFinished', sM.win); %tell PTB/GPU to draw
tFix = Screen('Flip',sM.win); %flip the buffer
getSample(eL);
fixated=testSearchHoldFixation(eL,'fix','breakfix');
end
if strcmpi(fixated,'breakfix')
fprintf(' BREAK INIT FIXATION');
response = BREAKFIX;
end
else
drawCross(sM,0.4,[1 1 1 1],ana.fixX,ana.fixY);
tFix = Screen('Flip',sM.win); %flip the buffer
WaitSecs(0.5);
fixated = 'fix';
end
%------Our main stimulus drawing loop
finishLoop = false;
while strcmpi(fixated,'fix') && finishLoop == false
if useEyeLink; edfMessage(eL,'END_FIX'); statusMessage(eL,'Show Stimulus...'); end
%=====================STIMULUS
stimuli.show();
tStim = GetSecs;
vbl = tStim;
while vbl <= tStim + ana.stimulusTime
draw(stimuli); %draw stimulus
drawCross(sM,0.4,[1 1 1 1],ana.fixX,ana.fixY);
Screen('DrawingFinished', sM.win); %tell PTB/GPU to draw
if useEyeLink
getSample(eL); %drawEyePosition(eL);
isfix = isFixated(eL);
if ~isfix
fixated = 'breakfix';
break;
end
end
animate(stimuli); %animate stimulus, will be seen on next draw
vbl = Screen('Flip',sM.win, vbl + screenVals.halfisi); %flip the buffer
end
if useEyeLink && ~strcmpi(fixated,'fix')
response = BREAKFIX; finishLoop = true;
statusMessage(eL,'Subject Broke Fixation!');
edfMessage(eL,'MSG:BreakFix')
break
end
%% ====================PEDESTAL
stimuli{1}.colourOut = 0.5;stimuli{2}.colourOut = 0.5;
tPedestal=GetSecs;
while GetSecs <= tPedestal + ana.pedestalTime
draw(stimuli); %draw stimulus
drawCross(sM,0.4,[1 1 1 1],ana.fixX,ana.fixY);
Screen('DrawingFinished', sM.win); %tell PTB/GPU to draw
if useEyeLink
getSample(eL);
isfix = isFixated(eL);
if ~isfix
fixated = 'breakfix';
break;
end
end
%animate(stimuli); %animate stimulus, will be seen on next draw
vbl = Screen('Flip',sM.win, vbl + screenVals.halfisi); %flip the buffer
end
if ~strcmpi(fixated,'fix')
response = BREAKFIX; finishLoop = true;
statusMessage(eL,'Subject Broke Fixation!');
edfMessage(eL,'MSG:BreakFix')
break
end
%% =====================MASK
stimuli.showMask = true; %metaStimulus can trigger a mask
tMask=GetSecs;
while GetSecs <= tMask + ana.maskTime
draw(stimuli); %draw stimulus
drawCross(sM,0.4,[1 1 1 1],ana.fixX,ana.fixY);
Screen('DrawingFinished', sM.win); %tell PTB/GPU to draw
animate(stimuli); %animate stimulus, will be seen on next draw
vbl = Screen('Flip',sM.win, vbl + screenVals.halfisi); %flip the buffer
end
%% =====================RESPONSE
drawBackground(sM);
Screen('DrawText',sM.win,['Which is bigger: [LEFT], [RIGHT], [DOWN]=SAME or [UP] = UNSURE '],0,0);
tMaskOff = Screen('Flip',sM.win);
if useEyeLink
statusMessage(eL,'Waiting for Subject Response!');
edfMessage(eL,'Subject Responding')
edfMessage(eL,'END_RT'); ...
end
finishLoop = true;
end
%% -----check keyboard
if response ~= BREAKFIX
ListenChar(2);
[secs, keyCode] = KbWait(-1);
rchar = KbName(keyCode);
if iscell(rchar);rchar=rchar{1};end
fprintf(' CHAR IS %s', rchar);
switch lower(rchar)
case {'leftarrow','left'}
if colourOut==0
if posloop < 4
response = SMALL;
else
response = BIG;
end
else
if posloop >= 4
response = SMALL;
else
response = BIG;
end
end
updateResponse();
if useEyeLink
trackerDrawText(eL,'Subject Pressed LEFT!');
edfMessage(eL,'Subject Pressed LEFT')
end
doPlot();
case {'uparrow','up'} %
response = UNSURE; % unsure
updateResponse();
if useEyeLink
trackerDrawText(eL,'Subject Pressed uparrow!');
edfMessage(eL,'Subject Pressed uparrow')
end
doPlot();
case {'downarrow','down'} %
response = SAME; % same
updateResponse();
if useEyeLink
trackerDrawText(eL,'Subject Pressed UNSURE!');
edfMessage(eL,'Subject Pressed UNSURE')
end
doPlot();
case {'rightarrow','right'}
if colourOut==1
if posloop < 4
response = SMALL;
else
response = BIG;
end
else
if posloop >= 4
response = SMALL;
else
response = BIG;
end
end
updateResponse();
if useEyeLink
trackerDrawText(eL,'Subject RIGHT!');
edfMessage(eL,'Subject RIGHT')
end
doPlot();
case {'backspace','delete'}
response = -10;
updateResponse();
if useEyeLink
trackerDrawText(eL,'Subject UNDO!');
edfMessage(eL,'Subject UNDO')
end
doPlot();
case {'c'} %calibrate
response = BREAKFIX;
stopRecording(eL);
setOffline(eL);
trackerSetup(eL);
WaitSecs(2);
case {'d'}
response = BREAKFIX;
stopRecording(eL);
setOffline(eL);
success = driftCorrection(eL);
WaitSecs(2);
case {'q'} %quit
response = BREAKFIX;
fprintf('\n!!!QUIT!!!\n');
breakloop = true;
otherwise
response = UNSURE;
updateResponse();
if useEyeLink
statusMessage(eL,'Subject UNSURE!');
edfMessage(eL,'Subject UNSURE')
end
end
end
tEnd = GetSecs;
ListenChar(0);
resetFixation(eL); trackerClearScreen(eL);
stopRecording(eL);
edfMessage(eL,['TRIAL_RESULT ' num2str(response)]);
setOffline(eL);
drawBackground(sM);
Screen('Flip',sM.win); %flip the buffer
WaitSecs(0.5);
end
%% -----Cleanup
Screen('Flip',sM.win);
Priority(0); ListenChar(0); ShowCursor;
close(sM); %close screen
p=uigetdir(pwd,'Select Directory to Save Data, CANCEL to not save.');
if ischar(p)
cd(p);
response = task.response;
responseInfo = task.responseInfo;
save([ana.nameExp '.mat'], 'ana', 'response', 'responseInfo', 'task',...
'taskB', 'taskW', 'staircaseB', 'staircaseW', 'sM',...
'stimuli', 'eL');
disp(['=====SAVE, saved current data to: ' pwd]);
else
eL.saveFile = ''; %blank save file so it doesn't save
end
if useEyeLink == true; close(eL); end
reset(stimuli); %reset our stimulus ready for use again
catch ME
close(sM); %close screen
Priority(0); ListenChar(0); ShowCursor;
disp(['!!!!!!!!=====CRASH, save current data to: ' pwd]);
save([ana.nameExp 'CRASH.mat'], 'task', 'taskB', 'taskW',...
'staircaseB', 'staircaseW', 'ana', 'sM', 'stimuli', 'eL', 'ME')
ple(ME)
if useEyeLink == true; eL.saveFile = [nameExp 'CRASH.edf']; close(eL); end
reset(stimuli);
clear stimuli task taskB taskW md eL s
rethrow(ME);
end
function updateResponse()
tEnd = GetSecs;
ListenChar(0);
if response == SAME || response == BIG || response == SMALL %subject responded
responseInfo.response = response;
responseInfo.N = task.thisRun;
responseInfo.times = [tFix tStim tPedestal tMask tMaskOff tEnd];
responseInfo.contrastOut = colourOut;
responseInfo.pedestal = pedestal;
responseInfo.pedestalGamma = pedestal;
responseInfo.blackN = taskB.thisRun;
responseInfo.whiteN = taskW.thisRun;
responseInfo.redo = responseRedo;
updateTask(task,response,tEnd,responseInfo)
if ana.useStaircase == true
if colourOut == 0
if response == 0
yesnoresponse = 0;
else
yesnoresponse = 1;
end
staircaseB = PAL_AMPM_updatePM(staircaseB, yesnoresponse);
elseif colourOut == 1
if response == 0
yesnoresponse = 0;
else
yesnoresponse = 1;
end
staircaseW = PAL_AMPM_updatePM(staircaseW, yesnoresponse);
end
fprintf('subject response: %i | ', yesnoresponse)
else
if colourOut == 0
taskB.thisRun = taskB.thisRun + 1;
else
taskW.thisRun = taskW.thisRun + 1;
end
end
elseif response == -10
if task.totalRuns > 1
if ana.useStaircase == true
warning('Not Implemented yet!!!')
else
if task.responseInfo(end) == 0
taskB.rewindRun;
else
taskW.rewindRun;
end
task.rewindRun
fprintf('new trial = %i\n', task.thisRun);
end
end
elseif response == UNSURE
responseRedo = responseRedo + 1;
fprintf('Subject is trying stimulus again, overall = %.2g %\n',responseRedo);
end
end
function doPlot()
ListenChar(0);
x = 1:length(task.response);
info = cell2mat(task.responseInfo);
ped = [info.pedestal];
idxW = [info.contrastOut] == 1;
idxB = [info.contrastOut] == 0;
idxNO = task.response == SAME;
idxYESBIG = task.response == BIG;
idxYESSMALL = task.response == SMALL;
cla(ana.plotAxis1); line([0 max(x)+1],[3 3],'LineStyle','--','LineWidth',2); hold(ana.plotAxis1,'on')
plot(ana.plotAxis1,x(idxNO & idxB), ped(idxNO & idxB),'ro','MarkerFaceColor','r','MarkerSize',8);
plot(ana.plotAxis1,x(idxNO & idxW), ped(idxNO & idxW),'bo','MarkerFaceColor','b','MarkerSize',8);
plot(ana.plotAxis1,x(idxYESSMALL & idxB), ped(idxYESSMALL & idxB),'rv','MarkerFaceColor','w','MarkerSize',8);
plot(ana.plotAxis1,x(idxYESSMALL & idxW), ped(idxYESSMALL & idxW),'bv','MarkerFaceColor','w','MarkerSize',8);
plot(ana.plotAxis1,x(idxYESBIG & idxB), ped(idxYESBIG & idxB),'r^','MarkerFaceColor','w','MarkerSize',8);
plot(ana.plotAxis1,x(idxYESBIG & idxW), ped(idxYESBIG & idxW),'b^','MarkerFaceColor','w','MarkerSize',8);
if length(task.response) > 4
try %#ok<TRYNC>
idx = idxNO & idxB;
blackPedestal = ped(idx);
[bAvg, bErr] = stderr(blackPedestal);
idx = idxNO & idxW;
whitePedestal = ped(idx);
[wAvg, wErr] = stderr(whitePedestal);
if length(blackPedestal) > 4 && length(whitePedestal)> 4
p = ranksum(abs(blackPedestal-0.5),abs(whitePedestal-0.5));
else
p = 1;
end
t = sprintf('TRIAL:%i BLACK=%.2g +- %.2g (%i)| WHITE=%.2g +- %.2g (%i) | P=%.2g [B=%.2g W=%.2g]', task.thisRun, bAvg, bErr, length(blackPedestal), wAvg, wErr, length(whitePedestal), p, mean(abs(blackPedestal-0.5)), mean(abs(whitePedestal-0.5)));
title(ana.plotAxis1, t);
end
else
t = sprintf('TRIAL:%i', task.thisRun);
title(ana.plotAxis1, t);
end
box(ana.plotAxis1,'on'); grid(ana.plotAxis1,'on');
ylim(ana.plotAxis1,[2 4]);
xlim(ana.plotAxis1,[0 max(x)+1]);
xlabel(ana.plotAxis1,'Trials (red=BLACK blue=WHITE)')
ylabel(ana.plotAxis1,'Stimulus Size')
hold(ana.plotAxis1,'off')
if ana.useStaircase == true
scaleM = 200;
tit = ''; tit2 = '';
cla(ana.plotAxis2); hold(ana.plotAxis2,'on');
if ~isempty(staircaseB.threshold)
rB = linspace(min(staircaseB.stimRange),max(staircaseW.stimRange),200);
if ana.logSlope
b = 10.^staircaseB.slope(end);
else
b = staircaseB.slope(end);
end
outB = ana.PF([staircaseB.threshold(end) ...
b staircaseB.guess(end) ...
staircaseB.lapse(end)], rB);
plot(ana.plotAxis2,rB,outB,'r-','LineWidth',2);
r = staircaseB.response;
t = staircaseB.x(1:length(r));
yes = r == 1;
no = r == 0;
plot(ana.plotAxis2,t(yes), ones(1,sum(yes)),'ro','MarkerFaceColor','r','MarkerSize',3);
plot(ana.plotAxis2,t(no), zeros(1,sum(no)),'ro','MarkerFaceColor','w','MarkerSize',3);
[SL, NP, OON] = PAL_PFML_GroupTrialsbyX(staircaseB.x(1:length(staircaseB.response)),...
staircaseB.response,...
ones(size(staircaseB.response)));
for SR = 1:length(SL(OON~=0))
scatter(ana.plotAxis2, SL(SR), NP(SR)/OON(SR), scaleM*sqrt(OON(SR)./sum(OON)), ...
'MarkerFaceColor',[1 0.7 0.7],'MarkerEdgeColor','k','MarkerFaceAlpha',.7)
end
tit = sprintf('B\\alpha:%.2g \\pm %.2g | B\\beta:%.2g \\pm %.2g',...
staircaseB.threshold(end),staircaseB.seThreshold(end),b,staircaseB.seSlope(end));
end
if ~isempty(staircaseW.threshold)
rW = linspace(min(staircaseB.stimRange),max(staircaseW.stimRange),200);
if ana.logSlope
b = 10.^staircaseW.slope(end);
else
b = staircaseW.slope(end);
end
outW = ana.PF([staircaseW.threshold(end) ...
b staircaseW.guess(end) ...
staircaseW.lapse(end)], rW);
plot(ana.plotAxis2,rW,outW,'b--','LineWidth',2);
r = staircaseW.response;
t = staircaseW.x(1:length(r));
yes = r == 1;
no = r == 0;
plot(ana.plotAxis2,t(yes), ones(1,sum(yes)),'kd','MarkerFaceColor','b','MarkerSize',3);
plot(ana.plotAxis2,t(no), zeros(1,sum(no)),'bd','MarkerFaceColor','w','MarkerSize',3);
[SL, NP, OON] = PAL_PFML_GroupTrialsbyX(staircaseW.x(1:length(staircaseW.response)),...
staircaseW.response,...
ones(size(staircaseW.response)));
for SR = 1:length(SL(OON~=0))
scatter(ana.plotAxis2, SL(SR), NP(SR)/OON(SR), scaleM*sqrt(OON(SR)./sum(OON)), ...
'MarkerFaceColor',[0.7 0.7 1],'MarkerEdgeColor','b','MarkerFaceAlpha',.7)
end
tit2 = sprintf(' | W\\alpha:%.2g \\pm %.2g | W\\beta:%.2g \\pm %.2g',...
staircaseW.threshold(end),staircaseW.seThreshold(end),b,staircaseW.seSlope(end));
end
box(ana.plotAxis2, 'on'); grid(ana.plotAxis2, 'on');
ylim(ana.plotAxis2, [0 1]);
xlim(ana.plotAxis2, [0.8 1.2]);
xlabel(ana.plotAxis2, 'Size (red=BLACK blue=WHITE)');
ylabel(ana.plotAxis2, 'Responses');
hold(ana.plotAxis2, 'off');
%=========================plot posteriors
cla(ana.plotAxis3);
pos = PAL_Scale0to1(staircaseB.pdf(:,:,1,1));
if ana.logSlope
x = 10.^staircaseB.priorBetaRange;
else
x = staircaseB.priorBetaRange;
end
imagesc(ana.plotAxis3, x, staircaseB.priorAlphaRange, pos);
axis(ana.plotAxis3,'tight');
xlabel(ana.plotAxis3, 'Beta \beta');
ylabel(ana.plotAxis3, 'Alpha \alpha');
title(ana.plotAxis3, 'Black Posterior');
cla(ana.plotAxis4);
pos = PAL_Scale0to1(staircaseW.pdf(:,:,1,1));
if ana.logSlope
x = 10.^staircaseW.priorBetaRange;
else
x = staircaseW.priorBetaRange;
end
imagesc(ana.plotAxis4, x, staircaseW.priorAlphaRange, pos);
axis(ana.plotAxis4,'tight');
xlabel(ana.plotAxis4, 'Beta \beta');
ylabel(ana.plotAxis4, 'Alpha \alpha');
title(ana.plotAxis4, 'White Posterior');
end
drawnow;
end
function setupStairCase()
priorAlphaB = linspace(min(pedestalBlack), max(pedestalBlack),ana.alphaGrain);
priorAlphaW = linspace(min(pedestalWhite), max(pedestalWhite),ana.alphaGrain);
if ana.logSlope
s = log10(0.01); e = log10(ana.betaMax);
else
s = 0.01; e = ana.betaMax;
end
priorBetaB = linspace(s, e, ana.betaGrain); %our slope
priorBetaW = linspace(s, e, ana.betaGrain); %our slope
priorGammaRange = ana.gamma; %fixed value (using vector here would make it a free parameter)
priorLambdaRange = ana.lambda; %ditto
staircaseB = PAL_AMPM_setupPM('stimRange',pedestalBlack,'PF',ana.PF,...
'priorAlphaRange', priorAlphaB, 'priorBetaRange', priorBetaB,...
'priorGammaRange',priorGammaRange, 'priorLambdaRange',priorLambdaRange,...
'numTrials', stopRule,'marginalize',ana.marginalize);
staircaseW = PAL_AMPM_setupPM('stimRange',pedestalWhite,'PF',ana.PF,...
'priorAlphaRange', priorAlphaW, 'priorBetaRange', priorBetaW,...
'priorGammaRange',priorGammaRange, 'priorLambdaRange',priorLambdaRange,...
'numTrials', stopRule,'marginalize',ana.marginalize);
if usePriors
if ana.logSlope
bP = log10(ana.betaPrior);
bSD = log10(ana.betaSD);
else
bP = ana.betaPrior;
bSD = ana.betaSD;
end
priorB = PAL_pdfNormal(staircaseB.priorAlphas,ana.alphaPrior,ana.alphaSD).*PAL_pdfNormal(staircaseB.priorBetas,bP,bSD);
priorW = PAL_pdfNormal(staircaseW.priorAlphas,ana.alphaPrior,ana.alphaSD).*PAL_pdfNormal(staircaseW.priorBetas,bP,bSD);
figure;
subplot(1,2,1);imagesc(staircaseB.priorBetaRange,staircaseB.priorAlphaRange,priorB);axis square
ylabel('Threshold');xlabel('Slope');title('Initial Bayesian Priors BLACK')
subplot(1,2,2);imagesc(staircaseW.priorBetaRange,staircaseW.priorAlphaRange,priorW); axis square
ylabel('Threshold');xlabel('Slope');title('Initial Bayesian Priors WHITE')
staircaseB = PAL_AMPM_setupPM(staircaseB,'prior',priorB);
staircaseW = PAL_AMPM_setupPM(staircaseW,'prior',priorW);
drawnow;
end
end
function saveMetaData()
ana.values.nBlocksOverall = nBlocksOverall;
ana.values.pedestalBlackLinear = pedestalBlackLinear;
ana.values.pedestalWhiteLinear = pedestalWhiteLinear;
ana.values.pedestalBlack = pedestalBlack;
ana.values.pedestalWhite = pedestalWhite;
ana.values.SAME = SAME;
ana.values.BIG = BIG;
ana.values.SAMLL = SMALL;
ana.values.UNSURE = UNSURE;
ana.values.BREAKFIX = BREAKFIX;
ana.values.XPos = XPos1;
ana.values.yPos = YPos1;
end
function [avg,error] = stderr(data,type,onlyerror)
if nargin<3; onlyerror=0; end
if nargin<2; type='SE'; end
if size(type,1)>1; type=reshape(type,1,size(type,1)); end
if size(data,1) > 1 && size(data,2) > 1; nvals = size(data,1);
else nvals = length(data); end
avg=nanmean(data);
switch(type)
case 'SE'
err=nanstd(data);
error=sqrt(err.^2/nvals);
case '2SE'
err=nanstd(data);
error=sqrt(err.^2/nvals);
error = error*2;
case 'CIMEAN'
[error, raw] = bootci(1000,{@nanmean,data},'alpha',0.01);
avg = nanmean(raw);
case 'CIMEDIAN'
[error, raw] = bootci(1000,{@nanmedian,data},'alpha',0.01);
avg = nanmedian(raw);
case 'SD'
error=nanstd(data);
case '2SD'
error=(nanstd(data))*2;
case '3SD'
error=(nanstd(data))*3;
case 'V'
error=nanstd(data).^2;
case 'F'
if max(data)==0
error=0;
else
error=nanvar(data)/nanmean(data);
end
case 'C'
if max(data)==0
error=0;
else
error=nanstd(data)/nanmean(data);
end
case 'A'
if max(data)==0
error=0;
else
error=nanvar(diff(data))/(2*nanmean(data));
end
end
if onlyerror==1
avg=error;
end
end
end
% vbl = Screen('Flip',s.win);
% Screen('DrawText',s.win,['Mask Time: ' num2str(maskTime) ' | Match: B=' num2str(blackMatch) ' W=' num2str(whiteMatch) ],0,0);
% drawSpot(s,0.1,[1 1 0],fixX,fixY);
% if stimuli{1}.contrastOut > 0
% t.colourOut = (0.5/7)*0; t.xPositionOut = -6; t.yPositionOut = -7; update(t); draw(t);
% t.colourOut = (0.5/7)*1; t.xPositionOut = -2; t.yPositionOut = -7; update(t); draw(t);
% t.colourOut = (0.5/7)*2; t.xPositionOut = 2; t.yPositionOut = -7; update(t); draw(t);
% t.colourOut = (0.5/7)*3; t.xPositionOut = 6; t.yPositionOut = -7; update(t); draw(t);
% t.colourOut = (0.5/7)*4; t.xPositionOut = -6; t.yPositionOut = -3; update(t); draw(t);
% t.colourOut = (0.5/7)*5; t.xPositionOut = -2; t.yPositionOut = -3; update(t); draw(t);
% t.colourOut = (0.5/7)*6; t.xPositionOut = 2; t.yPositionOut = -3; update(t); draw(t);
% t.colourOut = (0.5/7)*7; t.xPositionOut = 6; t.yPositionOut = -3; update(t); draw(t);
% else
% t.colourOut = (0.5/7)*7; t.xPositionOut = -6; t.yPositionOut = -7; update(t); draw(t);
% t.colourOut = (0.5/7)*8; t.xPositionOut = -2; t.yPositionOut = -7; update(t); draw(t);
% t.colourOut = (0.5/7)*9; t.xPositionOut = 2; t.yPositionOut = -7; update(t); draw(t);
% t.colourOut = (0.5/7)*10; t.xPositionOut = 6; t.yPositionOut = -7; update(t); draw(t);
% t.colourOut = (0.5/7)*11; t.xPositionOut = -6; t.yPositionOut = -3; update(t); draw(t);
% t.colourOut = (0.5/7)*12; t.xPositionOut = -2; t.yPositionOut = -3; update(t); draw(t);
% t.colourOut = (0.5/7)*13; t.xPositionOut = 2; t.yPositionOut = -3; update(t); draw(t);
% t.colourOut = (0.5/7)*14; t.xPositionOut = 6; t.yPositionOut = -3; update(t); draw(t);
% end
% Screen('flip',s.win);